1- Why was the Tomasetti et al article so misinterpreted by the media? Draw from
your own personal experiences to discuss other scientific phenomenon that has
been similarly misinterpreted.
2- What might be the consequences of scientific misreporting of this article?
3- What is the overall value of the Tomasetti et al paper? Cite two and be specific in
your rational for selecting these reasons.
4- Cite three criticisms of this paper. Be specific in the rationale for your criticism.
5- Design an experiment which might distinguish between environmental effects
and replicative errors in canter etiology.
You may assume you have access to all resources currently available to scientists
today,
Be specific in elucidating the application of the scientific method to your
experiment:
1) Observation
2) Hypothesis
3) Predictions
4) Experiment: Independent and dependent variables, controls, uncontrolled
variables, sample size
5) Results (predicted): How would you analyze your data
6)Conclusions: predict conclusions for the various outcomes of your experiment
REPORT
◥
CANCER ETIOLOGY
Stem cell divisions, somatic
mutations, cancer etiology, and
cancer prevention
Cristian Tomasetti,1,2* Lu Li,2 Bert Vogelstein3*
Cancers are caused by mutations that may be inherited, induced by environmental
factors, or result from DNA replication errors (R). We studied the relationship between
the number of normal stem cell divisions and the risk of 17 cancer types in 69 countries
throughout the world. The data revealed a strong correlation (median = 0.80) between
cancer incidence and normal stem cell divisions in all countries, regardless of their
environment. The major role of R mutations in cancer etiology was supported by an
independent approach, based solely on cancer genome sequencing and epidemiological
data, which suggested that R mutations are responsible for two-thirds of the mutations
in human cancers. All of these results are consistent with epidemiological estimates of the
fraction of cancers that can be prevented by changes in the environment. Moreover, they
accentuate the importance of early detection and intervention to reduce deaths from the
many cancers arising from unavoidable R mutations.
I
t is now widely accepted that cancer is the
result of the gradual accumulation of driver
gene mutations that successively increase cell
proliferation (1–3). But what causes these muta-
tions? The role of environmental factors (E)
in cancer development has long been evident
from epidemiological studies, and this has fun-
damental implications for primary prevention.
The role of heredity (H) has been conclusively
demonstrated from both twin studies (4) and the
identification of the genes responsible for cancer
predisposition syndromes (3, 5). We recently hy-
pothesized that a third source—mutations due to
the random mistakes made during normal DNA
replication (R)—can explain why cancers occur
much more commonly in som ...
Construction and Validation of Prognostic Signature Model Based on Metastatic...daranisaha
Colorectal Cancer (CRC) is a common malignant cancer with a poor prognosis. Liver metastasis is the dominant cause of death in CRC patients, and it often involves changes in various gene expression profiling. This study proposed to construct and validate a risk model based on differentially expressed genes between the primary and liver metastatic tumors from CRC for prognostic prediction.
Cytogenetic an Experimental Monitoring Test for Plant ExtractsIOSRJPBS
More than two centuries have been passed since the chromosomes have been firstly observed in plant cells by Nageli in 1842. During this long period, chromosomes have been discovered in human cells and well recognized as a source of genes locations. The effects of chemicals and environmental pollution in human health and caners became an interested field of studying diver mutagens and their role in affecting the genetic materials. Cytogenetic tests were the main tools to evaluate the effects of those mutagens on human genome and chromosomes. Many techniques have been used for these purposes including in vitro and in vivo analyzing tests using human and animal cells. The intent of this article is to review the role of cytogenetic techniques in detecting the effects of mutagens on chromosomal aberrations and the role of plant extracts in monitoring these effects
Để xem full tài liệu Xin vui long liên hệ page để được hỗ trợ
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HOẶC
https://www.facebook.com/garmentspace/
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https://www.facebook.com/thuvienluanvan01
tai lieu tong hop, thu vien luan van, luan van tong hop, do an chuyen nganh
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Colorectal Cancer (CRC) is a common malignant cancer with a poor prognosis. Liver metastasis is the dominant cause of death in CRC patients, and it often involves changes in various gene expression profiling. This study proposed to construct and validate a risk model based on differentially expressed genes between the primary and liver metastatic tumors from CRC for prognostic prediction.
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The chosen culture civilization is the
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3.Choose
one
of the following topics for a research paper on "Sonny's Blues," and include at least one quote from the article by Donald C. Murray and one quote from the article by Keith A. Byerman.
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(Look closely at paragraphs 177-178, 215-216, and 238.)
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c. Discuss the theme of music in the story. What importance does music serve in the lives of Baldwin's characters? (Look closely at paragraphs 180-181 and 235-240.)
d. Discuss the theme of racism in the story. (Look especially at paragraphs 81-110)
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Division:
Hospice care facility
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Focus or mission of the service or function (100 to 200 words):
Description of the population served (100 to 200 words):
Specific care providers or professionals who work in this service or function (100 to 200 words):
How this service or function of care interacts with the health care structure in which it exists (100 to 200 words):
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one of the 3 readings
below from this week.
Write an essay of at least 500 words
addressing the points and questions from the readings,
" The Nature of Art"
by Stephanie Arnold,
“Art as a Human Behavior: Toward an Ethological View of Art"
by Ellen Dissanayake and
“Exploring the Relationships Between Art and Culture”
by McFee and Degge. Be certain to address points made by the authors particularly as they pertain to your personal experience with various art forms.
Post your essay in Discussions under:
"
Week 1 - Readings Response Essay"
1)
From the reading,
The nature of Art
by Stephanie Arnold, address the variety of art forms and what the author says about how the arts are "central to
life".
a - How do you see these points of discussion reflected in your own life?
b - What does the author say is the difficulty of defining art?
c - How do you respond from your personal experience to Susanne Langer's statement: "Art is
the creation of forms symbolic or expressive of human feeling."
d - How do you view art in your environment that "... deals more directly with humanity's relations
with itself, the interactions between human beings."? Give some examples from your personal
experience and perspective...
2)
Explore the points made by Ellen Dissanayake in (
“Art as a Human Behavior").
Discuss her view of art's role in human cultural development.
a - Describe specific points made by Dissanayake and share from your perspective and cultural
background if you agree or disagree with the author. Tell us Why?
b - Choose points made by the author that have significance to you.
c - Some examples of points you may choose to address are as follows: “Art, ...as a universal need
and propensity of the human species”, “Art as a behavior of making special”, and “ The species-
centered view of art.”
3)
What points do McFee and Degge make with regard to the role of art in culture?
a - Describe specific points made by McFee, Degge, and share from your perspective and cultural
background if you agree or disagree with the authors. Tell us Why?
b - Choose points made by the authors that have significance to you. Some examples of points you
may choose to address are as follows: “Art as Communication”, “Defining and Evaluating
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And Art as Enhancement”, and/or “Making Culturally Relevant Art Judgments.”
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Title, Abstract, Content(3.5 pages), reference page , and must be accurate in Turabian format, with
(no plagiarism)!!!!
being 100% Original considering the multiple checking tools used by the University.
Unsatisfactory
Novice
Competent
Proficient
Organization
Points Range:
0
(0%)
- 4
(4%)
The paper is lacking all of the following: the thesis is unclear and the paper is lacking a coherent
Points Range:
5
(5%)
- 9
(9%)
Either two of the following is lacking: the thesis is unclear or the paper is lacking a coherent argument or less than three pages.
Points Range:
10
(10%)
- 14
(14%)
Either one of the following is lacking: the thesis is unclear or the paper is lacking a coherent argument or less than three pages.
Points Range:
15
(15%)
- 20
(20%)
A clear Thesis statement is presented and logically supported with a well structured paper and paper length is at least three pages total.
Major Points
Points Range:
0
(0%)
- 4
(4%)
Major points do not support the thesis adequately, and lack cogency or structure.
Points Range:
5
(5%)
- 9
(9%)
Major points are clearly discernible and supported by properly structured paragraphs.
Points Range:
10
(10%)
- 14
(14%)
Major points are present but illogical or incorrect and do not support the main point well. Or paragraphs are excessively long and lack cogency and structure.
Points Range:
15
(15%)
- 20
(20%)
Major points are present and logical or correct and do support the main point well, and paragraphs are cogent and well structured.
Historical Examples
Points Range:
0
(0%)
- 4
(4%)
Specific examples are either neither pertinent nor accurate, nor are examples used within the purview of the course. Also, non-scholarly sources are used.
Points Range:
5
(5%)
- 9
(9%)
Specific examples are pertinent and accurate, and examples used are within the purview of the course. Scholarly internet sources are used such as .gov,.mil,.edu; not .com or .org.
Points Range:
10
(10%)
- 14
(14%)
Specific examples are pertinent and accurate, or examples used are not within the purview of the course. Scholarly internet sources are used such as .gov, .mil, .edu; and non-scholarly sources such as .com or .org are also used.
Points Range:
15
(15%)
- 20
(20%)
Specific examples are accurate,and examples used are within the purview of the c.
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The Universal Declaration of Human Rights
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ATTACHED ARE THE CHAPTERS AND OTHER RESOURCES NEEDED TO COMPLETE THIS. ALSO ATTACHED ARE THE EXPECTATIONS OF WHAT SHOULD BE DONE. ALL POINTS OF THE DISCUSSION MUST BE COVERED.
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300-400 words
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.
.
.
.
.
.
.
Do NOT choose any diseases from the list below!!!
Chikungunya Virus
Cyclospora cayetanensis
Dengue Virus
Ebola Virus
Haemophilus influenzae
Helicobacter pylori
Herpes Simplex Virus
Human Immunodeficiency Virus
Influenza Virus, Avian Strain
Lassa Virus
Middle Eastern Respiratory Syndrome Coronavirus
Severe Acute Respiratory Syndrome Coronavirus
Staphylococcus aureus, Methicillin Resistant
Varicella Zoster Virus
Zika Virus
Hepatitis C
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1- Why was the Tomasetti et al article so misinterpreted by th
1. 1- Why was the Tomasetti et al article so misinterpreted by the
media? Draw from
your own personal experiences to discuss other scientific
phenomenon that has
been similarly misinterpreted.
2- What might be the consequences of scientific misreporting of
this article?
3- What is the overall value of the Tomasetti et al paper? Cite
two and be specific in
your rational for selecting these reasons.
4- Cite three criticisms of this paper. Be specific in the
rationale for your criticism.
5- Design an experiment which might distinguish between
environmental effects
and replicative errors in canter etiology.
You may assume you have access to all resources currently
available to scientists
today,
2. Be specific in elucidating the application of the scientific
method to your
experiment:
1) Observation
2) Hypothesis
3) Predictions
4) Experiment: Independent and dependent variables, controls,
uncontrolled
variables, sample size
5) Results (predicted): How would you analyze your data
6)Conclusions: predict conclusions for the various outcomes of
your experiment
REPORT
◥
CANCER ETIOLOGY
Stem cell divisions, somatic
mutations, cancer etiology, and
cancer prevention
Cristian Tomasetti,1,2* Lu Li,2 Bert Vogelstein3*
3. Cancers are caused by mutations that may be inherited, induced
by environmental
factors, or result from DNA replication errors (R). We studied
the relationship between
the number of normal stem cell divisions and the risk of 17
cancer types in 69 countries
throughout the world. The data revealed a strong correlation
(median = 0.80) between
cancer incidence and normal stem cell divisions in all countries,
regardless of their
environment. The major role of R mutations in cancer etiology
was supported by an
independent approach, based solely on cancer genome
sequencing and epidemiological
data, which suggested that R mutations are responsible for two-
thirds of the mutations
in human cancers. All of these results are consistent with
epidemiological estimates of the
fraction of cancers that can be prevented by changes in the
environment. Moreover, they
accentuate the importance of early detection and intervention to
reduce deaths from the
many cancers arising from unavoidable R mutations.
I
t is now widely accepted that cancer is the
result of the gradual accumulation of driver
gene mutations that successively increase cell
proliferation (1–3). But what causes these muta-
tions? The role of environmental factors (E)
in cancer development has long been evident
from epidemiological studies, and this has fun-
damental implications for primary prevention.
The role of heredity (H) has been conclusively
4. demonstrated from both twin studies (4) and the
identification of the genes responsible for cancer
predisposition syndromes (3, 5). We recently hy-
pothesized that a third source—mutations due to
the random mistakes made during normal DNA
replication (R)—can explain why cancers occur
much more commonly in some tissues than others
(6). This hypothesis was based on our observation
that, in the United States, the lifetime risks of
cancer among 25 different tissues were strongly
correlated with the total number of divisions of
the normal stem cells in those tissues (6, 7). It has
been extensively documented that approximate-
ly three mutations occur every time a normal
human stem cell divides (8, 9). We therefore
inferred that the root causes of the correlation
between stem cell divisions and cancer inci-
dence were the driver gene mutations that ran-
domly result from these divisions. Recent evidence
from mouse models supports the notion that the
number of normal cell divisions dictates cancer
risk in many organs (10).
This hypothesis has generated much scien-
tific and public debate and confusion, in part
because our analysis was confined to explaining
the relative risk of cancer among tissues rather
than the contribution of each of the three po-
tential sources of mutations (E, H, and R) to any
single cancer type or cancer case. Determination
of the contributions of E, H, and R to a cancer
type or cancer case is challenging. In some pa-
tients, the contribution of H or R factors might
be high enough to cause all the mutations required
5. for that patient’s cancer, whereas in others, some
of the mutations could be due to H, some to R,
and the remainder to E. Here we perform a crit-
ical evaluation of the hypothesis that R muta-
tions play a major role in cancer. Our evaluation
is predicated on the expectation that the num-
ber of endogenous mutations (R) resulting from
stem cell divisions in a tissue, unlike those caused
by environmental exposures, would be similarly
distributed at a given age across human popula-
tions. Though the number of stem cell divisions
may vary with genetic constitution (e.g., taller
individuals may have more stem cells), these
divisions are programmed into our species’ de-
velopmental patterns. In contrast, deleterious en-
vironmental and inherited factors, either of which
can directly increase the mutation rate or the
number of stem cell divisions, vary widely among
individuals and across populations.
Our previous analyses were confined to the
U.S. population, which could be considered to
be exposed to relatively uniform environmental
conditions (6). In this study, we have evaluated
cancer incidence in 69 countries, representing a
variety of environments distributed throughout
the world and representing 4.8 billion people
(two-thirds of the world’s population). Cancer
incidences were determined from analysis of
423 cancer registries that were made available
by the International Agency for Research on Can-
cer (IARC) (http://ci5.iarc.fr/CI5-X/Pages/download.
aspx). All 17 different cancer types recorded in
the IARC database for which stem cell data are
available were used for this analysis (see sup-
plementary materials). The Pearson’s correlation
6. coefficients of the lifetime risk of cancer in a
given tissue with that tissue’s lifetime number
of stem cell divisions are shown in Fig. 1. Strong,
statistically significant correlations were observed
in all countries examined (median P value = 1.3 ×
10−4; full range: 2.2 × 10−5 to 6.7 × 10−3). The
median correlation was 0.80 (95% range: 0.67
RESEARCH
Tomasetti et al., Science 355, 1330–1334 (2017) 24 March 2017
1 of 5
1Division of Biostatistics and Bioinformatics, Department of
Oncology, Sidney Kimmel Cancer Center, Johns Hopkins
University School of Medicine, 550 North Broadway,
Baltimore, MD 21205, USA. 2Department of Biostatistics,
Johns Hopkins Bloomberg School of Public Health, 615 North
Wolfe Street, Baltimore, MD 21205, USA. 3Ludwig Center and
Howard Hughes Medical Institute, Johns Hopkins Kimmel
Cancer Center, 1650 Orleans Street, Baltimore, MD 21205,
USA.
*Corresponding author. Email: [email protected] (C.T.);
[email protected] (B.V.)
Fig. 1. Correlations between
stem cell divisions and cancer
incidence in different coun-
tries. For each country, the
correlation between the number
of stem cell divisions in 17 differ-
ent tissues and the lifetime inci-
dence of cancer in those tissues
was calculated. This resulted in
correlation coefficients, which
were grouped and plotted into a
7. histogram. In this histogram, the
x axis represents the correlation
coefficients and the y axis repre-
sents the number of countries
with the corresponding correla-
tion coefficient. For example,
there were seven countries in
which the correlation between
the number of stem cell divisions
and cancer incidence was between 0.82 and 0.83; these seven
countries are represented by the tallest
green bar in the histogram. The median correlation coefficient
over all countries was 0.8. The black
line represents the density for the observed distribution of the
correlation coefficient among different
countries.
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10. cell divisions and cancer incidence, as was ob-
served (Table 1).
The universally high correlations between nor-
mal stem cell divisions and cancer incidences
shown in Table 1 are surprising given the volu-
minous data indicating large differences in ex-
posures to environmental factors and associated
cancer incidences across the world (12–16). To
explore the basis for this apparent discrepancy,
we sought to determine what fractions of cancer-
causing mutations result from E, H, or R. As
these fractions have not been estimated for any
cancer type, we developed an approach to achieve
this goal. A theoretical example that illustrates
the underlying conceptual basis of this approach
is as follows. Imagine that a population of hu-
mans in which all inherited mutations have been
corrected move to Planet B, where the environ-
ment is perfect. On this planet, E and H are zero,
and the only somatic mutations are caused by R.
Note that the number of R mutations in all tis-
sues is >0, regardless of the environment, be-
cause perfect, error-free replication is incompatible
with basic biologic principles of evolution. Sup-
pose that a powerful mutagen, E, was then in-
troduced into the environment of Planet B, and
all inhabitants of Planet B were equally exposed
to it throughout their lifetimes. Assume that this
mutagen substantially increased the somatic mu-
tation rate in normal stem cells, causing a 10-fold
increase in cancer risk, i.e., 90% of all cancer cases
on this planet were now attributable to E. There-
fore, 90% of all cancer cases on Planet B would be
preventable by avoiding exposure to E. But even
11. in this environment, it can be shown that 40% of
the driver gene mutations are attributable to R
(Fig. 2A and supplementary materials). This ex-
treme example demonstrates that even if the vast
majority of cancer cases were preventable by reduc-
ing exposure to environmental factors, a large
fraction of the driver gene mutations required
for those cancers can still be due to R—as long
as the number of mutations contributed by nor-
mal stem cell divisions is not zero. In other words,
the preventability of cancers and the etiology of
the driver gene mutations that cause those can-
cers are related but have different metrics (see
supplementary materials for their mathematical
relationship).
This theoretical example is not very different
from what occurs on Earth with respect to the
etiology of the most common form of lung can-
cer, adenocarcinoma. Epidemiologic studies have
estimated that nearly 90% of adenocarcinomas
of the lung are preventable and that tobacco
smoke is by far the major component of E.
Secondhand smoking, occupational exposures,
ionizing radiation, air pollution, and diet play
important but smaller roles (17, 18). Moreover,
no hereditary factors have been implicated in
lung adenocarcinomas (19). To determine the
fraction of mutations attributable to nonenviron-
mental and nonhereditary causes in lung adeno-
carcinomas, we developed an approach based on
the integration of genome-wide sequencing and
epidemiological data. The key insight is the rec-
ognition of a relationship between mutation rates
in a cancer type and the etiology of the somatic
12. mutations that are detected in that cancer. Speci-
fically, if an environmental factor causes the
normal somatic mutation rate to increase by a
factor x, then (x–1)/x of the somatic mutations
found in a cancer can be attributed to that envi-
ronmental factor (see supplementary materials).
For example, if patients exposed to a factor E have
a mutation rate that is three times higher than
that of patients not exposed to it, then two-thirds
of the mutations in the exposed patients can
be attributed to factor E. This method is com-
pletely independent of any data or knowledge
about normal stem cell divisions. We applied this
approach to representative patients with lung
adenocarcinomas as depicted in Fig. 2B. In 8
of the 20 depicted patients, all of the driver gene
mutations can be attributed to E. In 10 of the 20
depicted patients, a portion of the driver gene
mutations are attributable to E. And in the two
patients depicted on the bottom right of Fig. 2B,
none of the driver gene mutations are attribut-
able to E. We calculate that 35% [95% confidence
interval (CI): 30 to 40%] of the total driver gene
mutations are due to factors that, according to
current exhaustive epidemiologic studies, are un-
related to H or E and thus are presumably due
to R. These data are based on conservative assump-
tions about the risk contributed by factors other
than smoking. For example, we assumed that the
increase in mutations resulting from poor diet is
identical to the increase resulting from smoking
cigarettes. Thus, Cancer Research UK estimates
that the great majority (89%) of lung adenocar-
cinoma cases are preventable (17), but even so,
more than a third (35%) of the driver gene muta-
tions in lung cancers can be attributed to R.
13. This same analytic approach can be applied
to cancer types for which epidemiologic studies
have indicated a less pronounced role of envi-
ronmental factors. Figure 2C depicts pancreatic
ductal adenocarcinomas. About 37% of these can-
cers are thought to be preventable (versus 89%
for lung adenocarcinomas) (17). Using exome
sequencing data and extremely conservative as-
sumptions about the influence of environme ntal
factors, we calculated that 18% of the driver gene
mutations were due to environmental factors, at
most 5% were due to hereditary factors, and the
remaining 77% (95% CI: 67 to 84%) were due to
nonenvironmental and nonhereditary factors, pre-
sumably R (see supplementary materials). As with
lung adenocarcinomas, these results are indepen-
dent of any assumptions about, or measurements
of, stem cell divisions.
A third class of cancers comprise those in which
only a very small effect of E or H has been
Tomasetti et al., Science 355, 1330–1334 (2017) 24 March 2017
2 of 5
Table 1. Correlations between the lifetime risk of cancers in 17
tissues and the lifetime number
of stem cell divisions in those tissues. The median Pearson’s
correlation coefficients and 95% range
in various geographic regions are listed. The values in columns
CR 0–85+, CR 0–85, CR 0–80, and CR
0–75 represent the correlations when the lifetime risk of each
cancer (cumulative risk, CR) could be
14. determined from birth to age 85+, birth to age 85, birth to age
80, and birth to age 75, respectively. No
cancer incidence data were available for individuals older than
80 years in African countries (tables S1 to
S4). NA, not applicable.
Geographic regions CR 0–85+ CR 0–85 CR 0–80 CR 0–75
Overall 0.80 0.78 0.76 0.75
...............................................................................................
...........................................
(0.67–0.84) (0.67–0.83) (0.64–0.82) (0.63–0.81)
...............................................................................................
...............................................................................................
.......................
North America 0.81 0.79 0.78 0.76
...............................................................................................
...........................................
(0.80–0.81) (0.79–0.80) (0.77–0.78) (0.75–0.76)
...............................................................................................
...............................................................................................
.......................
Latin America and Caribbean 0.73 0.72 0.70 0.66
...............................................................................................
...........................................
(0.69–0.78) (0.67–0.77) (0.64–0.75) (0.63–0.73)
...............................................................................................
...............................................................................................
.......................
18. types like these were obscure, as there was no
evidence that the two most well-recognized causes
of cancer—environment and heredity—play a sub-
stantial role. The recognition that a third source
of mutations, i.e., those due to R, are omnipresent
helps explain the pathogenesis of these malig-
nancies. Even if future epidemiological or genetic
studies identify previously unknown E or H fac-
tors that permit 90% of cancers of the prostate to
be prevented, the percentage of mutations due to
R will still be very high, as illustrated by the
Planet B analogy in Fig. 2A.
We next calculated the proportion of driver
gene mutations caused by E or H in 32 cancer
types (see supplementary materials and tables S5
and S6). We considered those mutations not at-
tributable to either E or H to be due to R. These
cancers have been studied in depth through so-
phisticated epidemiological investigations and are
reported in the Cancer Research UK database
[see (17, 20–22) and references therein]. For the
U.K. female population, mutations attributable
to E (right), R (center), and H (left) are depicted
in Fig. 3 (see fig. S2 for equivalent representa-
tions of males and table S6 for the numerical
values for both sexes). The median proportion
of driver gene mutations attributable to E was
23% among all cancer types. The estimate varied
considerably: It was greater than 60% in cancers
such as those of the lung, esophagus, and skin
and 15% or less in cancers such as those of the
prostate, brain, and breast. When these data are
normalized for the incidence of each of these 32
cancer types in the population, we calculate that
19. 29% of the mutations in cancers occurring in
the United Kingdom were attributable to E, 5%
of the mutations were attributable to H, and
66% were attributable to R. Cancer Research
UK estimates that 42% of these cancer cases
are preventable. Given the mathematical rela-
tionship between cancer etiology and cancer pre-
ventability (see supplementary materials), the
proportion of mutations caused by environmental
factors is always less than the proportion of can-
cers preventable by avoidance of these factors.
Thus, our estimate that a maximum of 29% of the
mutations in these cancers are due to E is com-
patible with the estimate that 42% of these cancers
are preventable by avoiding known risk factors.
The results described above have important
ramifications for understanding the root causes
of cancer as well as for minimizing deaths from
this disease. Uniformly high correlations between
the number of stem cell divisions and cancer
risk among tissues were observed in countries
Tomasetti et al., Science 355, 1330–1334 (2017) 24 March 2017
3 of 5
Fig. 2. Mutation etiology and cancer prevention
in a hypothetical scenario and in real life. Pa-
tients exposed to environmental factors, such as
cigarette smoke, are surrounded by a cloud. The
driver gene mutations calculated to be attributa-
ble to environmental (E), hereditary (H), and replica-
tive (R) factors are depicted as gray, blue (containing
an “H”), and yellow circles, respectively. For simplicity,
each cancer patient is shown as having three driver
20. gene mutations, but the calculations are based on
percentages. Thus, if there are three driver gene
mutations in a cancer and R accounts for 33% of
them, then one mutation is assigned to R. (A) A
hypothetical scenario consisting of an imaginary
place, Planet B, where all inherited mutations have
been corrected and where the environment is per-
fect. A powerful mutagen is then introduced that
increases cancer risk 10-fold, so that 90% of
cancers on this planet are preventable. In some
individuals on this planet, all mutations are due to
E, whereas in the two individuals in the bottom
right corner, all are due to R. In the other patients,
only some of the somatic mutations in their tumors
result from E. Even though 90% of the cancers are
preventable by eliminating the newly introduced
mutagen, 40% of the total driver gene mutations
are due to R. (B to D) Real-life examples of mu-
tation etiology and cancer prevention. (B) The ap-
proximate proportion of driver gene mutations in
lung adenocarcinomas that are due to environmental
versus nonenvironmental factors are shown as gray
and yellow circles, respectively. Even though 89%
of lung adenocarcinomas are preventable (17) by
eliminating E factors, we calculate that 35% (95%
CI: 30 to 40%) of total driver gene mutations are
due to factors unrelated to E or H and presumably
are due to R. (C) The approximate proportion of
driver gene mutations in pancreatic ductal adeno-
carcinomas, in which hereditary factors are known
to play a role. It has been estimated that ~37% (17)
of pancreatic ductal adenocarcinomas are preventable, but at
most 18% and 5% of the driver gene mutations in these cancers
are estimated to be due to E and H,
respectively.The remaining 77% (95% CI: 82 to 94%) of the
total driver gene mutations are due to factors other than E or H,
21. presumably R. (D) The approximate
proportion of driver gene mutations in prostate cancers, in
which environmental factors are thought to play essentially no
role (17) and hereditary factors account
for 5 to 9% of cases (see supplementary materials). None of
these cancers are preventable, and less than 5% of the driver
mutations in these cancers are due to
E or H. The remaining 95% of the total driver gene mutations
are due to factors other than E or H, presumably R. [Image: The
Johns Hopkins University]
RESEARCH | REPORT
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23. timated from such correlations. The approaches
described here—a combination of cancer se-
quencing data and conservative analyses of envi-
ronmental and hereditary risk factors—provide
such estimates. They indicated that even in lung
adenocarcinomas, R contributes a third of the
total mutations, with tobacco smoke (includ-
ing secondhand smoke), diet, radiation, and oc-
cupational exposures contributing the remainder.
In cancers that are less strongly associated with
environmental factors, such as those of the pan-
creas, brain, bone, or prostate, the majority of the
mutations are attributable to R.
These data and analyses should help clarify
prior confusion about the relationship between
replicative mutations and cancer (23–28). First,
the data demonstrate that the correlation between
cancer incidence and the number of stem cell
divisions in various tissues cannot be explained
by peculiarities of the U.S. population or its en-
vironment. This correlation is observed worldwide,
as would be expected for a fundamental biolog-
ical process such as stem cell divisions. Second,
these results explicitly and quantitatively address
the difference between cancer etiology and can-
cer preventability. As illustrated in Figs. 2 and 3,
these concepts are not equivalent. A cancer in
which 50% of the mutations are due to R can
still be preventable. The reason for this is that
it generally requires more than one mutation
to develop the disease. A cancer that required
two mutations is still preventable if one of the
mutations was due to R and the other due to an
avoidable environmental factor.
24. Our results are fully consistent with epide-
miological evidence on the fraction of cancers in
developed countries that are potentially prevent-
able through improvements in environment and
lifestyle. Cancer Research UK estimates that 42%
of cancer cases are preventable (17); the U.S. Cen-
ters for Disease Control and Prevention estimates
that 21% of annual cancer deaths in individ-
uals <80 years old could be prevented (29).
Of equal importance, these studies provide
a well-defined, molecular explanation for the
large and apparently unpreventable component
of cancer risk that has long puzzled epidemiol-
ogists. It is, of course, possible that virtually all
mutations in all cancers are due to environ-
mental factors, most of which have simply not
yet been discovered. However, such a possibility
seems inconsistent with the exhaustively docu-
mented fact that about three mutations occur
every time a normal cell divides and that nor-
mal stem cells often divide throughout life.
Our studies complement, rather than oppose,
those of classic epidemiology. For example, the
recognition of a third, major factor (R) underlying
cancer risk can inform epidemiologic studies by
pointing to cancers that cannot yet be explained
by R (i.e., those with too few stem cell divisions to
account for cancer incidence). Such cancer types
seem particularly well suited for further epide-
miologic investigation. Additionally, R mutations
appear unavoidable now, but it is conceivable that
they will become avoidable in the future. There
25. are at least four sources of R mutations in normal
cells: quantum effects on base pairing (30), mistakes
made by polymerases (31), hydrolytic deamina-
tion of bases (32), and damage by endogenously
produced reactive oxygen species or other metab-
olites (33). The last of these could theoretically
be reduced by the administration of antioxi-
dant drugs (34). The effects of all four could, in
principle, be reduced by introducing more effi-
cient repair genes into the nuclei of somatic cells
or through other creative means.
As a result of the aging of the human pop-
ulation, cancer is today the most common cause
of death in the world (12). Primary prevention is
the best way to reduce cancer deaths. Recognition
of a third contributor to cancer—R mutations—
does not diminish the importance of primary
prevention but emphasizes that not all cancers
can be prevented by avoiding environmental risk
factors (Figs. 2 and 3). Fortunately, primary pre-
vention is not the only type of prevention that
exists or can be improved in the future. Sec-
ondary prevention, i.e., early detection and inter-
vention, can also be lifesaving. For cancers in
which all mutations are the result of R, secondary
prevention is the only option.
REFERENCES AND NOTES
1. L. A. Garraway, E. S. Lander, Cell 153, 17–37 (2013).
2. M. R. Stratton, P. J. Campbell, P. A. Futreal, Nature 458,
719–724 (2009).
3. B. Vogelstein et al., Science 339, 1546–1558 …
26. Two years ago, Time wrongly reported that “Most cancer is
beyond your control.”
The Guardian incorrectly wrote: “Two-thirds of adult cancers
largely ‘down to bad
luck’ rather than genes.” And the BBC misleadingly said: “Most
cancer types ‘just
bad luck.’” All of these deceptive headlines arose from a widely
misinterpreted
study that looked at the role of random chance in initiating
cancers. That paper was
itself criticized for a slew of methodological flaws, and
spawned more than a
hundred rebuttals.
No, We Can’t Say Whether Cancer Is Mostly Bad
Luck
How some media outlets magnified the problems with a
controversial new paper
A woman shows her CT scan film in Beijing, China.
ED YONG
MAR 28, 2017 | SCIENCE
Kim Kyung Hoon / Reuters
28. towards addressing the problems of their first paper, their
critics still say they’ve
made several of the same conceptual mistakes. And once again,
their work has led
to similarly botched headlines.
[1490710143909] Ultimately, this story reveals less
about why people do or don’t get cancers, and more
about how hard it is to talk or think about these
diseases.
*****
In 2015, Cristian Tomasetti from Johns Hopkins Bloomberg
School of Public
Health and Bert Vogelstein from the Johns Hopkins Kimmel
Cancer Center were
trying to work out why some parts of the body, like the skin or
large intestine, are so
much more prone to cancer than others, like the brain or small
intestine. By looking
at U.S. data on 31 types of cancer, they found a clue. The
lifetime risk of
developing cancer in a particular tissue was strongly correlated
with how often the
29. stem cells [1490710218935] in that tissue divide.
Which made perfect sense. When a cell divides, it has
to duplicate all of its DNA. Every time this happens, it
picks up a few mutations—typos, created when DNA is copied
imperfectly. Most of
these mutations are harmless, but some will disrupt crucial
genes. And if stem cells
collect enough mutations in the wrong genes, they start dividing
uncontrollably,
creating a tumor. So tissues whose stem cells divide more
frequently should indeed
be more susceptible to cancer.
That would have been completely uncontroversial, had
Tomasetti and Vogelstein
not framed their results in terms of “bad luck.” Some cancer -
causing mutations are
inherited, while others are inflicted upon our DNA by
environmental risks like
tobacco, sunlight, alcohol, or asbestos. Tomasetti and
Vogelstein argued that the
random mutations arising in dividing stem cells represent a
third group—distinct
https://twitter.com/evolvability/status/845036386419986432
30. http://www.biostat.jhsph.edu/~ctomaset/home.html
http://www.hopkinsmedicine.org/pharmacology_molecular_scie
nces/faculty/bios/vogelstein.html
from the other two, more important, and unlikely to be
preventable. When they
published their results in the journal Science, they wrote:
“These results suggest that only a third of the variation in
cancer risk
among tissues is attributable to environmental factors or
inherited
predispositions. The majority is due to “bad luck,” that is,
random
mutations arising during DNA replication in normal,
noncancerous stem
cells.”
The paper triggered a hailstorm of criticism. Some scientists
chastised the
methods. Why did they ignore common cancers like breast and
prostate? Why did
they only focus on the U.S.? Others accused the duo of
undermining public health.
Many personal choices, from quitting smoking to staying lean,
can dramatically
31. reduce one’s risk of cancers, but why would you bother if you
read headlines saying
that these diseases are “largely down to bad luck?”
Such headlines were disastrously wrong. For a start, Tomasetti
and Vogelstein
looked at the differences between body parts, not people. Their
data explained why
tumors are more likely to strike the bowel than the brain, but
not this bowel versus
that one. As oncologist Vinay Prasad tweeted: “[Their] paper
does not explain to
cancer patients why they got cancer. [It] explains why cancer
doctors get more
colon cancer consults than sarcoma consults.”
Last week, the controversial duo returned with another co-
author and a second
paper, which provides more data for their “bad-luck
hypothesis.” This time, they
looked at 17 cancers, including breast and prostate. They also
went beyond the
U.S., collating data from 69 countries that vary greatly in their
cancer rates and
their exposure to environmental risks. And despite that
variation, everywhere the
32. team looked, they found the same strong correlation between a
tissue’s cancer risk
and its rate of stem cell divisions.
http://science.sciencemag.org/content/347/6217/78
https://twitter.com/VinayPrasad82/status/845064997508046848
http://science.sciencemag.org/content/355/6331/1330
[1490714059297] Disclosure: I
worked at Cancer Research UK from
2004 to 2011, but have no current
ties to the organization.
[1490713705085] Consider a group
of 10 lung cancer patients. The team
estimates that in four of them, every
cancer-causing mutation was the
result of something environmental. In
one person, every mutation was a
random replication error. And in five,
there was a mix. So even though 35
percent of mutations were randomly
33. acquired, 90 percent of cases were
preventable.
[1490713639784] Some types of
mutations are clearly the work of, say,
sunlight or tobacco carcinogens. But
most are impossible to assign to a
specific cause. So here’s what you
can do instead. Let’s say you find
that lung cancer patients who have
never smoked have 100 mutations
on average, while smokers have
300. You deduce that two-thirds of
the mutations in the smokers are due
to smoking, and the rest are
probably due to replication errors.
That’s what the team did, using data
on mutation rates from tumor-
sequencing projects, and data on
34. cancer risk factors from
epidemiological studies.
Next, they used data from tumor-sequencing projects and
epidemiological studies
to sort cancer-causing mutations into three buckets
[1490713639784] , depending on
their origin. Overall, they calculated that 66 percent
of cancer mutations are due to random, unavoidable
replication errors (R), 29 percent are due to
environmental factors (E), and 5 percent are inherited
(H). But those proportions vary a lot between cancers:
in lung cancer, just 35 percent of mutations are
randomly acquired, compared to 77 percent for
pancreatic cancer.
But the team have clearly emphasized that these
numbers don’t tell us what proportion of cancers are
preventable. It can take several mutations to trigger a
case of cancer, so even if one of those was due to an
avoidable environmental factor, that cancer could
35. still have been prevented [1490713705085] . That’s
why, as the team stressed, their finding that 66
percent of mutations are randomly acquired is totally
consistent with other estimates that 42 percent of
cancer cases are preventable. Mutations don’t equate
to cases.
Try telling that to the Daily Mail, Sun, and Forbes,
which all ran headlines ascribing the majority of
cancer cases to bad luck. The British charity
[1490714059297] Cancer Research UK made the same
error in a (since-corrected) post describing the team’s
work. Stat avoided that pitfall, but when Scientific
American reprinted their story, they bowdlerized the
headline into “Most Cancer Cases Arise from ‘Bad
Luck.’” Most egregiously, The Daily Telegraph said “Two
thirds of cancers are
unavoidable even if you live a healthy life.”
http://www.dailymail.co.uk/health/article-4343252/The-
common-cause-cancer-Simple-bad-luck.html#ixzz4cXA6Z2xT
37. up from an environmental trigger, producing many daughters
that carried the same
scars. Both routes produce the same pattern—greater cancer risk
in more rapidly
dividing cells—but only in the former are mutations initiated by
unlucky stem cells.
In the latter, they are secretly environmental in origin. For
similar reasons, it seems
weird to divide mutations into heritable ones, environmental
ones, and replication
errors. All three categories are deeply connected. An inherited
mutation might
hobble a cell’s ability to repair typos in its DNA, while an
environmental trigger
might make the cell divide more rapidly. Both events would
increase the frequency
of replication errors.
But Tomasetti actually agrees. He has defined the R-mutations
as those that occur
in a normal tissue that’s not beset by anything else; if a
mutation is caused by extra
replication due to an environmental trigger, he puts it in the E
bucket. The R-
38. mutations represent the absolute baseline, in a hypothetical
world where no
carcinogens or cancer genes exist.
Still, Song Wu, a statistical geneticist at Stony Brook
University, says that
Tomasetti’s team has likely overestimated the proportion of R-
mutations. They first
estimated the proportion of mutations caused by known cancer
genes, and known
environmental risk factors—and subtracted those from the total.
The rest, they say,
are R-mutations. But that’s only true if we think we already
know everything about
the genes and risk factors that lead to cancer, “and I doubt
anyone working in
cancer believes that’s even close to the truth,” says Wu. For
example, virtually
every case of cervical cancer is caused by a virus called HPV. If
this study had been
done before HPV was discovered, it would have concluded that
almost all cervical
https://www.cancer.org/research/acs-researchers/rebecca-siegel-
bio.html
http://www.ams.sunysb.edu/~songwu/
39. cancer mutations were R-mutations, and that the disease wasn’t
preventable. As it
is, we have a vaccine for it.
“We can’t use things that are unknown,” counters Tomasetti. “If
new
environmental factors will be discovered,” maybe the daunting
66 percent figure
will go down. Then again, it could also go up since the Western
population is ageing
(and age brings even more stem cell divisions), and since public
health policies
might reduce the contribution of environmental factors.
Wu and others argue that Tomasetti hasn’t even taken account
of known unknowns
—sources of environmental risk that are clearly present, but
still undefined.
Consider prostate cancer. The team calculated that a whopping
95 percent of
prostate cancer mutations are R-mutations, which would make
the disease almost
entirely unpreventable. “That just doesn’t make sense,” says
Yaniv Erlich, a
geneticist at Columbia University and the New York Genome
40. Center. There are
substantial differences in prostate cancer rates between different
countries. If the
disease was mainly caused by random replication errors, rates
should be the same
everywhere you look—and they clearly aren’t. Indeed,
immigrants who move from
countries with low rates to those with high ones tend to pick up
the higher risk of
their new homes. The environment clearly matters for prostate
cancer; it’s that we
don’t yet know which factors are important. “The ‘environment’
is inherently
harder to study than [inherited] mutations or replicative errors,”
says Clarice
Weinberg, a statistician at the National Institute of
Environmental Health
Sciences. “We know quite a lot about carcinogenic effects of
smoking, obesity and
certain occupational exposures, but not much about other
environmental factors
experienced during life or prenatally.”
The rates of the other common Western cancers—breast, lung,
prostate, and
41. colorectal—also vary considerably between countries. Many
others, including
thyroid, kidney, and liver cancers, have seen their rates increase
over time. Yet
others are substantially influenced by known risk factors: The
majority of
esophageal cancers are caused by tobacco and alcohol, while
most skin cancers are
caused by sun exposure. All of this argues against the
dominance of R-mutations in
https://teamerlich.org/
https://www.niehs.nih.gov/research/atniehs/labs/bb/staff/weinbe
rg/
fueling cancer. Tomasetti’s papers are based on mathematical
models—interesting,
but we need to gauge their claims against the reality of
hundreds of epidemiological
studies. “Their hypothesis just doesn’t jive with
epidemiological evidence that we
know to be true,” says Siegel.
And even if a particular cancer is entirely caused by R-
mutations, it might not be
unpreventable, as sites like Smithsonian and NPR have reported.
42. Aspirin, that most
familiar of drugs, might help to reduce the risk of colorectal
cancer, as well as other
types like esophageal and pancreatic. Some scientists are
looking to drugs like
aspirin as ways of halting the evolution of cancer, by reducing
the rate at which
mutations occur in the first place. And as cancer scientists move
beyond their
traditional focus on mutated genes, it may become possible to
prevent tumors by
targeting surrounding cells, reducing inflammation, or
stimulating the immune
system.
In fairness, Tomasetti’s group say in their paper that “R
mutations appear
unavoidable now, but it is conceivable that they will become
avoidable in the
future,” and he told me on the phone that “this is definitely
something we should
focus our research on.” But Erlich is concerned that exactly this
kind of research
will be stymied by the focus on dominant and supposedly
unavoidable R-
43. mutations. “I think it’s unfortunate,” he says. “This is a high-
profile paper by
famous people in the field. Others will look at this and say:
This is the endpoint in
the war against cancer?”
The odd thing about the two papers is that, for all their
controversy, they don’t
seem very radical. As Otis Brawley, chief medical officer for
the American Cancer
Society, told CNN: “[It] doesn’t tell me anything I hadn't known
for the last 20
years.” “I think it’s very well-known that chance plays a role,”
adds Siegel. “If you
look at lung cancer, we know that 80 percent of U.S. cases are
to do with smoking,
but only 20 percent of smokers develop lung cancer. Chance is a
huge factor.”
But Tomasetti argues that chance is understated. “You can
check the website of any
major institution, and there’s no mention of this,” he says. “I’m
not claiming that
http://www.smithsonianmag.com/smart-news/nearly-two-thirds-
cancer-causing-mutations-are-unavoidable-study-claims-
180962673/
45. through the net. You can do everything “right” and still get
come up short.
Tomasetti and Vogelstein have said that they hope to alleviate
the guilt felt by
patients—and especially parents of children with cancer—who
read that many
cancers are preventable and feel that they’re to blame for their
poor health. That is
a noble goal, but there’s also a risk of demotivating people who
could do something
about their cancer risk. This is one of the two great challenges
of cancer
communication: walking the fine line between empowerment
and guilt, between
hope and despondence.
The other challenge lies in going from the abstract world of
statistical models and
population-wide studies to the concrete world of individuals and
patients. In
reporting the recent paper, CNN wrote that “bad luck mutations
increase cancer
risk more than behavior” and that “dumb luck plays a more
significant role than
46. either environmental, lifestyle or hereditary factors in causing
this disease.” That’s
arguably accurate when you’re talking about mutations in a
statistical model. But
readers will look at that and think about themselves in their
daily lives. They’ll hear
that their personal cancer risk is determined more by the
vagaries of fate than by
their own choices. And they’d be wrong to do so.
I can rattle off statistics about what proportion of lung cancers
are caused by
smoking versus other causes, or what proportion of mutations
are environmental,
hereditary, or otherwise. But I cannot tell someone whether
their cancer was down
to the wrong carcinogen hitting the wrong gene, or random
errors in a dividing
http://www.cnn.com/2017/03/23/health/cancer-mutations-bad-
luck-study/
stem cell. That fundamental, heartbreaking, existential
question—Why me?—has
no answer.
ABOUT THE AUTHOR
47. ED YONG is a staff writer at The Atlantic, where he covers
science.
https://www.theatlantic.com/author/ed-yong/
https://twitter.com/intent/user?screen_name=edyong209
mailto:[email protected]