Hormones can be classified in several ways based on their chemical composition, mechanism of action, target effects, and whether they stimulate other endocrine glands. The three main types are steroid hormones, peptide hormones, and amine hormones. Steroid hormones are lipophilic and act via nuclear receptors. Peptide hormones are hydrophilic and act through cell surface receptors and secondary messengers like cAMP. Amine hormones have properties of both peptides and steroids. Hormones also differ in their local versus general actions, kinetic versus metabolic effects, and whether they stimulate other glands via tropic hormones or act directly on tissues.
4. On the basis of mechanism of hormones
1. Group I hormone (lipophilic hormone):
Lipophilic in nature.
Mostly derivatives ofcholesterol.
Binds to intracellular receptors
Example: Steroid hormones, Estrogen, androgen,glucocorticoids,
cholcalciferol, thyroxine etc
2. Group II hormones (water soluble hormone):
Binds to cell surface receptors and stimulates the release of certain
molecules
(secondary messengers) to perform biochemical functions
5. On the basis of secondary messengers group II hormones are of 3
types;
i. Secondary messenger is cAMP:
eg. Adrenocorticotropic hormone, FSH, LH, PTH,ADH, calcitonin,
glucagon,
ii. Secondary messenger is phosphotidylinocitol/calcium or both:
eg. Acetylcholine, vasopressin, cholecystokinin, gastrin, gonadotropin
releasing hormone, thyrotropin releasing hormone,
Insulin, chorynoic somato mamotropin, epidermal growth factors,
fibroblast growth factors, GH,
Prolactin
iii.Secondary messenger is cGMP:
Atrial natriuretic peptide (ANP)
6. Hormones can be categorised into three distinct groups according to their chemical composition
The three types of hormones are steroid hormones, peptide hormones and amino acid derivatives
The different types of hormones will have different mechanisms of action due to their distinct chemical
properties
Steroid Hormones
Steroid hormones are lipophilic (fat-loving) – meaning they can freely diffuse across the plasma membrane
of a cell
They bind to receptors in either the cytoplasm or nucleus of the target cell, to form an active receptor-
hormone complex
This activated complex will move into the nucleus and bind directly to DNA, acting as a transcription factor
for gene expression
Examples of steroid hormones include those produced by the gonads (i.e. estrogen, progesterone and
testosterone)
7.
8. Peptide Hormones: Peptide hormones are hydrophylic and lipophobic (fat- hating) – meaning
they cannot freely cross the plasma membrane
They bind to receptors on the surface of the cell, which are typically coupled to
internally anchored proteins (e.g. G proteins)
The receptor complex activates a series of intracellular molecules called second
messengers, which initiate cell activity
This process is called signal transduction, because the external signal (hormone)
is transduced via internal intermediaries
Examples of second messengers include cyclic AMP (cAMP), calcium ions (Ca2+),
nitric oxide (NO) and protein kinases
The use of second messengers enables the amplification of the initial signal (as
more molecules are activated)
Peptide hormones include insulin, glucagon, leptin, ADH and oxytocin
9.
10. Amine Hormones
Amine hormones are derived from the
amino acid tyrosine and include adrenaline,
thyroxin and triiodothyronine
Amine hormones do not all share identical
properties and have properties common to
both peptide and steroid hormones
11.
12. Group II a hormone-cAMP as secondary
messenger
15. According to Nature of Action
(a) Local Hormones:
Hormones exert specific local effects by paracrine secretion. e .g. Testosterone.
(b) General Hormones:
General hormones are secreted by specific endocrine glands and are transported in the blood to
cause physiologic actions at points remote from their place of origin. e.g. Insulin, Thyroid hormone etc.
16. According to Effect
(a) Kinetic Hormones: These hormones may cause pigment migration, muscle contraction, glandular
secretion etc. e.g. Pinealin, MSH, Epinephrine etc.
(b) Metabolic Hormones:
These hormones mainly changes the rate of metabolism and balance the reaction. e.g. Insulin,
Glucagon, PTH etc.
(c) Morphogenetic Hormones:
These hormones are involved in growth and differentiation.e.g.STH, LTH, FSH, Thyroid hormones
etc.
17. Basis of Stimulation of Endocrine Glands
(a) Tropic Hormones:
These hormones stimulate other endocrine glands for secretion. e.g. TSH of pituitary
stimulates secretion of thyroid gland.
(b) Non-tropic Hormones:
These hormones exert their effect on non-endocrine target tissues. e.g. Thyroid hormone
increases the O2 consumption rate and metabolic activity of almost every cells.