Adipose tissue, also known as body fat, is composed of adipocytes and serves important functions. There are two main types: white adipose tissue specializes in long-term fat storage and is found throughout the body, while brown adipose tissue contains many mitochondria and generates heat through non-shivering thermogenesis, especially in newborns and around vital organs. A third type, beige adipose tissue, shares characteristics of both white and brown fat.
3. Introduction
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Adipose tissue, or fat, is an
anatomical term for loose or
dense irregular connective
tissue composed of adipocytes.
Its main role is to store energy
in the form of fat, although it
also cushions and insulates the
body.
5. Adipocytes
Also known as lipocytes and fat cells.
Adipocytes are the cells that primarily compose
adipose tissue, specialized in storing energy as
fat.
Adipocytes are derived from mesenchymal stem
cells which give rise to adipocytes through
adipogenesis.
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7. Adipocytes are active cells metabolically,
responding to both nervous and hormonal stimuli.
They release hormones and various other
important substances and adipose tissue is now
recognized as an endocrine organ at the center of
nutritional homeostasis.
Adipocytes can be found:
- Isolated
- In small groups within the connective tissue.
- But most are found in large aggregates
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Adipose tissue found in many organs and body
regions, and normally represents 15%-20% of the
body weight in men, 20%-25% of the body weight
in women.
Besides serving as storage depots for neutral fats,
chiefly triglycerides (long-chain fatty acyl esters of
glycerol), adipocytes function as key regulators of
the body’s overall energy metabolism.
9. Triglyceride
Insoluble in water
The caloric density of triglycerides (9.3 kcal/g) is
twice that of proteins or carbohydrates, including
glycogen, making these simple lipids the most
efficient means of storing calories.
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10. Adipose tissue fills spaces between other tissues,
helping to keep some organs in place.
Subcutaneous layers of adipose tissue help shape
the body surface, and cushion regions subject to
repeated mechanical stress such as the palms,
heels, and toe pads.
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12. Adipose tissue expands by hypertrophy and
hyperplasia.
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Hypertrophy is the increase in the volume of an organ or
tissue due to the enlargement of its component cells.
Hperplasia, in which the cells remain approximately the same
size but increase in number.
13. Functions of Adipose tissue
Is the largest repository of energy in the body
(Triglycerides /9.3 Kcal/g).
Subcutaneous layers help to shape the surface of
the body.
Deposits in the form of pads act as shock
absorbers.
Fills spaces between structures (protects).
Contributes to thermal insulation.
Secretes various types of molecules.
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15. Types of Adipose tissue
There are two major types of adipose tissue with
different locations, structures, colors, and
functions.
White adipose tissue
Brown adipose tissue
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16. White adipose tissue, the more common type
specialized for fat storage, consists of cells each
containing one large cytoplasmic droplet of
whitish-yellow fat.
Brown adipose tissue contains cells with multiple
lipid droplets interspersed among abundant
mitochondria, which helps give this tissue a darker
appearance.
Brown adipocytes release heat and function to
warm the blood.
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19. Both types of adipose tissue have a rich blood
supply and the adipocytes.
Unlike other cells of connective tissue proper, are
individually surrounded by a thin external lamina
containing type IV collagen.
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21. White adipose tissue
White adipocytes are also called unilocular.
White adipose tissue is found in many organs
throughout the body, typically forming about
20% of the body weight in adults.
Adipocytes of white fat are typically very large
cells, ranging in diameter from 50 to 150 μm.
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22. White adipose tissue specialized for relatively
long-term energy storage.
Adipocytes of white adipose tissue are spherical
when isolated but are polyhedral when closely
packed in situ.
When completely developed, a white adipocyte
Contains a single huge droplet of lipid filling
almost the entire cell. With the single large
droplets of triglycerides
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25. Most cytoplasmic organelles in a white adipocyte
are near the peripheral nucleus, including
mitochondria, a small Golgi apparatus, a few
cisternae of RER, and free polyribosomes. The
thin, submembranous layer of cytoplasm
surrounding the lipid droplet contains cisternae of
smooth ER (SER) and pinocytotic vesicles.
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Storage & Mobilization of Lipids
White adipocytes can store triglycerides derived from
three sources:
Dietary fats brought to the cells via the circulation as
chylomicrons.
Lipids synthesized in the liver and transported in
blood with very low-density lipoproteins (VLDLs).
Free fatty acids and glycerol synthesized by the
adipocytes.
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Chylomicrons
Chylomicrons are small, microscopic, lipoprotein
(molecule made up of proteins and lipids).
Have variable size, up to 1200 nm in diameter.
Formed from ingested lipids in epithelial cells.
Lining the small intestine and transported in the
blood and lymph.
They consist of a core containing mainly
triglycerides, surrounded by a stabilizing
monolayer of phospholipids, cholesterol, and
several apolipoproteins.
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Very low-density lipoproteins (VLDLs)
VLDLs are smaller complexes (30-80 nm,
providing a greater surface-to-volume ratio), of
similar lipid and protein composition to
chylomicrons.
Synthesized from lipids in liver cells and released
into the bloodstream.
The VLDL particles mainly carry triglycerides
(fat), to your tissues
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VLDL Chylomicrons
Synthesized in liver Synthesized in intestinal
epithelial cells
Smaller Larger
More lipid in their surface
layer
Less lipid in their surface
layer
Contain a higher proportion
of cholestrol ester to
triglycerides
Contain a lowerproportion
of cholestrol ester to
triglycerides
32. In adipose tissue both chylomicrons and VLDLs are
hydrolyzed at the luminal surfaces of blood capillaries by
lipoprotein lipase, an enzyme synthesized by the
adipocytes and transferred to the capillary cell membrane.
Free fatty acids then enter the adipocytes by both active
transport and diffusion.
Within the adipocytes, the fatty acids combine with
glycerol phosphate, supplied by glucose metabolism, to
again form triglycerides, which are then deposited in the
growing lipid droplet.
Insulin stimulates glucose uptake by adipocytes and
accelerates its conversion into triglycerides, and the
production of lipoprotein lipase
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Histogenesis of White Adipose Tissue
Adipocytes develop from mesenchymal stem cells.
Adipose development first produces preadipocytes,
which look rather like larger fibroblasts with
cytoplasmic lipid droplets.
Initially, the droplets of white adipocytes are
isolated from one another but soon fuse to form the
single large drople.
37. Brown adipose tissue
Brown adipose tissue constitutes 2%-5% of the
newborn body weight, located mainly in the
back, neck, and shoulders, but it is greatly
reduced during childhood and adolescence.
In adults it is found only in scattered areas,
especially around the kidneys, adrenal glands,
aorta, and mediastinum.
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39. The color of brown fat is due to both the very
abundant mitochondria (containing cytochrome
pigment) scattered among the lipid droplets of the
fat cells and the large number of blood capillaries
in this tissue.
Brown adipocytes contain many small lipid
inclusions and are therefore called multilocular.
The small lipid droplets, abundant mitochondria,
and rich vasculature all help mediate this tissue’s
principal function of heat production and
warming the blood.
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41. Function of Brown Adipocytes
The main function of these multilocular adipose
cells is to produce heat by nonshivering
thermogenesis.
Thermogenesis is the process of heat production
in organisms.
As in white fat, this neurotransmitter activates the
hormone-sensitive lipase of adipocytes, promoting
hydrolysis of triglycerides to fatty acids and
glycerol.
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