Endocrine Physiology PDF

Summary

This document provides an introduction to endocrine physiology, covering topics such as homeostasis, regulation, and the functions and types of hormones.

Full Transcript

Endocrine Physiology

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 Homeostasis & Controls

Successful
compensation
– Homeostasis
reestablished

Failure to
compensate
Pathophysiology
Illness
Death

2
Death
 Regulation of homeostasis
1. The nervous system: Regulates homeostasis through
generation of action potentials and by releasing chemical
messengers called neurotransmitters
2. The endocrine system:
Regulates homeostasis by releasing
chemical messengers called hormones (First messengers)
Difference between hormones and neurotransmitters
Speed of action
Duration of action
Distribution
Common aspects:
– Released in small quantities
– regulate other cells & tissues (effectors)
– act through receptors
– Need mediators
– functional overlap between some hormones & NTs
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– Both work towards common goal
 The endocrine system
Nervous system
broadcasts its hormonal
messages to essentially all
cells by secretion into
blood and extra cellular
H fluid. Like a radio
broadcast, it requires a
Nerve Impulse receiver to get the message
–For this purpose cells
must bear a receptor for the
hormone being broadcast in
R
order to respond.
NTs
R Effector cell
Effector cell
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A cell is said to be a target cell if it has a specific
receptor for the hormone
Hormones circulate in blood, coming into contact with
essentially all cells.
However, a given hormone usually affects only a limited
number of cells, which are called target cells.

A target cell responds to a hormone because it bears receptors
for the hormone.

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INTERCELLULAR SIGNALLING

Cells need to be able to communicate with other cells and respond
to environmental changes

 For multi-cellular organisms, cell-cell communication is
important

 For unicellular organisms, they need to be able to respond to
physical and chemical changes in their environment

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Effects of Cellular Signalling

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Four forms of intercellular signalling (for cell-cell communication)
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Same signal can cause different reactions depending
on the target cell 9
 10
Cell-surface receptor versus intracellular receptor
Functions of hormones
1. Regulation of reproduction: gametogenesis, sexual
desire, coitus, fertilization.
2. Regulation of body growth and development.
3. Production, utilization and storage of energy
4. Homeostasis: maintenance of the internal
environment in the body (maintaining the
optimum biochemical environment).
-Water-electrolyte balance (stability of
body fluid composition)
-Regulation of ABP
-Control of BT, emotion
-Change in mass of bone, muscle and fat 11
Chemical nature of hormones
1. Amines (derived from tyrosine)
Hydroxylation - catecholamines
Iodination - thyroid hormones
2. Peptides/polypeptides or proteins
3. Steroids (derived from cholesterol)
Adrenocorticoids
Sex hormones
Active metabolites of vitamin D3
4. Eicosanoids (derived from fatty acids)
- Prostaglandins
- Leukotrienes and
- Thromboxanes
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Amine Hormones: Structure

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Steroidal Hormones: Structure

Figure 7-6: Steroid hormones are derived from cholesterol 14
Steroid Hormones
 All steroidal hormones are derived from
cholesterol and differ only in the ring
structure and side chains attached to it.
 All steroid hormones are lipid soluble

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Fatty Acid Derivatives - Eicosanoids
Fatty Acid Derivatives - Eicosanoids
Eicosanoids are a large group of molecules derived
from polyunsaturated fatty acids.
The principal groups of hormones of this class are
prostaglandins, prostacyclins, leukotrienes and
thromboxanes.

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 Classes of Hormones (Solubility)
The hormones fall into two general classes
based on their solubility in water.
The water soluble (Hydrophilic hormones)
hormones are the catecholamines (epinephrine
and norepinephrine) and peptide/protein
hormones.
The lipid soluble (Lipophilic hormones)
hormones include thyroid hormone, steroid
hormones and Vitamin D3
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Types of Receptors
1. Receptors for the water soluble hormones are found on
the surface of the target cell, on the plasma membrane
(surface receptors).
These types of receptors are coupled to various
second messenger systems which mediate the action
of the hormone in the target cell.
2. Receptors for the lipid soluble hormones reside in the
nucleus (and sometimes in the cytoplasm) of the target
cell (intracellular receptors).
Because these hormones can diffuse through the
lipid bilayer of the plasma membrane, their receptors
are located on the interior of the target cell 18
Hormone: Synthesis, Storage, Release and Transport
Site of synthesis:
Protein/peptide hormones: in the rER
Steroid hormones: in the sER
Storage:
Protein/peptide hormones: preprohormones in vesicles
Steroid hormones: Cholesterol
Release: Exocytosis
Transport: hormones are transported in blood in two
forms:
1. In the free form
2. In combination with plasma proteins (albumin &
globulin). It has 2 advantages
a. Prolong the biological half life of hormones
b. Serve as a reservoir of hormones
Metabolism: metabolized in the liver or by target cells
Excretion: urine, feces, sweat
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Protein and Polypeptide Hormones:
Synthesis and Release

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Mechanism of Action of Hormone

Hormones perform their action via three
mechanisms.
Direct membrane effect
Via activation of the second messengers
Direct activation of the gene

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 Hormone Receptors Location
Cytosolic or Nuclear
– Lipophilic ligand
enters cell
– Often activates gene
– Slower response
Cell membrane
– Lipophobic ligand
can't enter cell
– Outer surface
receptor Hydrophilic
– Fast response

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Direct Membrane Effect of Hormones

Hormone
H

Receptor
Cell membrane

Hormone-receptor interaction alters
membrane permeability by either
Opening or closing of pores (channels)
Conformational change of carriers,
Activation/inactivation of pump mechanisms
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Second Messengers Involved in Cell Signalling
 cAMP
 cGMP
 Phospholipase-C/IP3
 Ca/calmodulin
 tyro kinases
 DAG
One hormone can use several systems (in various
cells or for different functions)

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 Protein and Polypeptide Hormone Receptors
Binds to surface
receptor
Transduction
System activation
– Open ion
channel
– Enzyme
activation
Second
messenger
systems
Protein
synthesis

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Steroid Hormones: Action

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 Regulation of Hormonal Secretion
Hormonal secretion is regulated by at least 3
Mechanisms.
1. Feedback regulatory mechanisms
Negative feedback mechanism (most hormones)
Positive feedback mechanism (LH- surge)
2. Nervous control of hormonal secretion
Secretion of OT, ADH, AD, NA
3. Circadian rhythm (periodic variations)
Cortisol, sex hormones
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Feedback Control of Hormone Production

Feedback loops are used
extensively to regulate secretion
of hormones in the
hypothalamic-pituitary axis. An
important example of a negative
feedback loop is seen in control
of thyroid hormone secretion

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Regulation of Hormone Release
Negative feedback mechanism

 hormone

Target tissue
Gland
Endocrine gland
inhibition

product
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Regulation of Hormone Release
Positive feedback

 hormone

Target tissue
Gland
Endocrine gland
enhances

product
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LH Surge: the positive feedback mechanism

GnRH HT

Pituitary
inactivates

LH

Ovary

Estrogen
>200 µg/ml
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Feedback control of insulin by glucose
concentrations

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BGL
Negative feedback effects of cortisol

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Episodic Secretion of Hormones
The most prominent episodes of release occur with
a frequency of about one hour—referred to as
circhoral
An episode of release longer than an hour, but less
than 24 hours, the rhythm is referred to as
ultradian
If the periodicity is approximately 24 hours, the
rhythm is referred to as circadian
– usually referred to as diurnal because the increase in
secretory activity happens at a defined period of the
day.

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Circadian (chronotropic) Control

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Major Endocrine Glands

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Other Organs Having Endocrine Function
The pineal gland:
Hormone: Melatonin
Function: Inhibits gonadal function and delays
the onset of puberty.
The thymus gland:
Hormone: Thymopoietin
Function: Stimulates lymphocyte proliferation
Endocrine function of the heart:
Hormone: ANP (atrial natriuretic peptide)
Function: Nartiuresis Renin secretion
GFR Aldosterone secretion
Vasodilator
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 Other organs having endocrine function (cont´d)
Endocrine function of the kidneys
Hormones: Renin, erythropietin
Calcitriol (1, 25 (OH)2 D3)
Function: RAS Ang-II
Ang-II - A potent vasoconstrictor
- Aldosterone secretion
- ADH secretion
- Stimulates the thrist center
- Salt and water reabsorption
Ang-II receptors: AT1A-R: on BVs, renal tubules
AT1B-R: on adrenal cortex
AT2-R: on neurons
Endocrine function of the liver
Hormones: Erythropietin
Somatomedin-C
(1, 25 (OH)2 D3)
GIT hormones: Gastrin, Secretin, CCK, VIP, Sub-P ect.
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Ectopic hormones:
Summary of the Endocrine System

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