1. Regulation of Hormone Secretion
14-May-19
Regulation of Hormone Secretion

2. Negative Feedback Mechanism
Hormones produce biological effects
On attaining sufficient magnitude
Inhibit further secretion
14-May-19
Regulation of Hormone Secretion

3. Components of the System
(1) A detector of the
Actual or threatened homeostatic imbalance
(2) means of signaling secretion
(3) the secretory cells
14-May-19
Regulation of Hormone Secretion

4. Components of the System
(4) an end organ or
Organ capable of an appropriate response to the hormone
(5) A means of promptly shutting of secretion
When response becomes adequate to restore homeostasis
14-May-19
Regulation of Hormone Secretion

5. Components of the System
In simpler cases
Parathyroid, -cells of the pancreas
Components 1, 2, 3, & 5 reside in the same secretory cells
In complex situation
Thyroid secretion
Complex interactions between
CNS, anterior pituitary gland & thyroid gland
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Regulation of Hormone Secretion

6. Regulation of Hormone Secretion
Types of Imputes
Most hormones are released in short burst
With no or little release in between the bursts
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Regulation of Hormone Secretion

7. Regulation of Hormone Secretion
Types of Imputes
Plasma concentration of hormones may fluctuate rapidly over brief times
Hormones also manifest 24 hrs cyclical variation in their secretory pattern
Circadian pattern differ in different hormones
Some are linked to sleep
GH - during early period of sleep
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Regulation of Hormone Secretion

8. Control of Hormone Secretion
Some of factors that influence the secretion of hormones include
Neurotransmitters
Another hormone
Changes in plasma conc of nutrients
Changes in plasma conc of mineral ions
Neurotransmitters
Another hormone
Plasma conc of organic nutrient
Endocrine cell
Changes in plasma conc of mineral ions
Hormone secretion
14-May-19
Regulation of Hormone Secretion

9. Control of Hormone Secretion
Endocrine cells like neurons
May be subject to multiple simultaneous inputs
Sometimes opposing
The resulting output
Rate of secretion of hormone
Reflect the integration of all these inputs
14-May-19
Regulation of Hormone Secretion

10. Control by conc of Nutrient
 Plasma glucose conc
Hormone secretion is controlled by
Plasma conc of nutrient or organic ions
The function of the hormone
To regulate in negative manner
Plasma conc of nutrient or ions
Controlling its secretion
Insulin secreting cells
 INSULIN in plasma
 Action of insulin by target cells
 Plasma glucose conc
14-May-19
Regulation of Hormone Secretion

11. Regulation of Hormone Secretion
Control by Neurons
Hypothalamus
Has neural control over hormone secretion by the posterior pituitary
14-May-19
Regulation of Hormone Secretion

12. Hypothalamic –Hypophysial Axes
Secretory activity of anterior pituitary
Controlled by hypothalamic hormone
Secreted into hypothalamic hypophysial portal system
Supra optic nucleus
Hypothalamic neurosecretions
Hypo-physiotropic hormones secreted
Superior hypophysial artery
Posterior pituitary hormones
Anterior pituitary hormones
vein
14-May-19
Regulation of Hormone Secretion

13. Hypophysial Portal System
Median eminence
Specialized area of hypothalamus
Located beneath the 3rd ventricle
It is a release center for hypophysiotropic hormones
Supra optic nucleus
Hypothalamic neurosecretions
Hypo-physiotropic hormones secreted
Superior hypophysial artery
Posterior pituitary hormones
Anterior pituitary hormones
vein
14-May-19
Regulation of Hormone Secretion

14. Hypothalamic –Hypophysial Axes
Limbic system
The hypothalamus
Secrete releasing or inhibiting hormone
Hypophysiotropic hormone
These act on the anterior pituitary
Anterior pituitary then secrete
Trophic hormone
Hypothalamus
Hypophysiotropic hormones
Adeno-hypophysis
Pit. Tropic hormones
Target gland hormone
Target gland
14-May-19
Regulation of Hormone Secretion

15. Hypothalamic –Hypophysial Axes
Limbic system
The trophic hormone then
Act on target gland
Secrete the hormone
Hypothalamus
Hypophysiotropic hormones
Adeno-hypophysis
Pit. Tropic hormones
Target gland hormone
Target gland
14-May-19
Regulation of Hormone Secretion

16. Feedback Control Systems
Limbic system
The unbound circulating hormone
Produced by target gland
Inhibit hypothalamic pituitary system
Cause  secretion of pituitary tropic hormone
Control the secretion of target gland
Hypothalamus
Hypophysiotropic hormones
Adeno-hypophysis
Pit. Tropic hormones
Target gland hormone
Target gland
14-May-19
Regulation of Hormone Secretion

17. Feedback Control Systems
Limbic system
Negative feedback control occur on 3 levels
Long loop feedback
Peripheral gland hormones or
Substrate arising from metabolism
Hypothalamus
Hypophysiotropic hormones
Adeno-hypophysis
Pit. Tropic hormones
Target gland hormone
Target gland
14-May-19
Regulation of Hormone Secretion

18. Feedback Control Systems
Limbic system
Can exert long-loop feedback control on
Hypothalamus
Anterior pituitary
Long-loop feedback system
Usually are negative feedback
But can be positive feedback as well
Hypothalamus
Hypophysiotropic hormones
Adeno-hypophysis
Pit. Tropic hormones
Target gland hormone
Target gland
14-May-19
Regulation of Hormone Secretion

19. Feedback Control Systems
Limbic system
Short-loop feedback system
Negative feedback can be exerted by
Anterior pituitary hormone on the
Synthesis and release of hypothalamic releasing or inhibiting hormones
Hypothalamus
Hypophysiotropic hormones
Adeno-hypophysis
Pit. Tropic hormones
Target gland hormone
Target gland
14-May-19
Regulation of Hormone Secretion

20. Feedback Control Systems
Limbic system
Ultra-short loop feedback
Hypophysiotropic hormones
Can inhibit their own synthesis and secretion
Hypothalamus
Hypophysiotropic hormones
Adeno-hypophysis
Pit. Tropic hormones
Target gland hormone
Target gland
14-May-19
Regulation of Hormone Secretion