1. Classical & Nonclassical Endocrinology, Pituitary and Hypothalamus
CLASS: II M.Sc.,
UNIT: 1
Prepared By: A. Benno Susai

2. Introduction These are synthesized at multiple sites and act locally.
By contradiction these hormones are Growth factors.
But many of these hormones exert opposite activities.
Such as growth promotion and inhibition.

3. Growth Factors (GF)
Most GF act in G1 to speed the advance of an already actively dividing cell toward S stage, but have no effect on nondividing cells. These factors are known as Hormones of Progression.
Other GF can make nondividing cells sensitive to the hormone of progression, although they themselves cannot actually initiate cell division.
These factors are called Hormones of Competency

4. General Growth Factors
Epidermal Growth Factor Family (EGF)
Consists of
EGF
Transforming Growth Factor α (TGF α)
Epiregulin
Amphiregulin
Heparin Binding EGF
Cripto-1

5. Betacellulin
Schwannoma Derived EGF (Acetylcholine receptor inducing activity) ARIA
Neuregulins
Heregulin (Neu differentiation Factor)
Glial derived GF
Sensory and Motor neuron derived growth factor
Both EGF and TGF α are membrane bound precursors (Active) that are cleaved to yield suitable hormones.

6. The Endocrine System

7. Classification of Hormones
Figure 18.2

8. Major Pituitary Gland Hormones

9. Three Methods of Hypothalamic Control over the Endocrine System

10. The Anatomy and Orientation of the Pituitary Gland

11. The anterior lobe (adenohypophysis)
Subdivided into the pars distalis, pars intermedia and pars tuberalis
At the median eminence, neurons release regulatory factors through fenestrated capillaries
Releasing hormones
Inhibiting hormones

12. Feedback control of Endocrine Secretion

13. Feedback control of Endocrine Secretion

14. Negative Feedback Inhibition
Hormones secreted by some endocrine glands feed back to inhibit the secretion of hypothalamic releasing hormones and anterior pituitary hormones

15. Hormones of the adenohypophysis
Thyroid stimulating hormone (TSH)
Triggers the release of thyroid hormones
Thyrotropin releasing hormone promotes the release of TSH
Adrenocorticotropic hormone (ACTH)
Stimulates the release of glucocorticoids by the adrenal gland
Corticotrophin releasing hormone causes the secretion of ACTH

16. Hormones of the adenohypophysis
Follicle stimulating hormone (FSH)
Stimulates follicle development and estrogen secretion in females and sperm production in males
Leutinizing hormone (LH)
Causes ovulation and progestin production in females and androgen production in males
Gonadotropin releasing hormone (GNRH) promotes the secretion of FSH and LH

17. Hormones of the adenohypophysis
Prolactin (PH)
Stimulates the development of mammary glands and milk production
Growth hormone (GH or somatotropin)
Stimulates cell growth and replication through release of somatomedins or IGF
Growth-hormone releasing hormone (GH-RH)
Growth-hormone inhibiting hormone (GH-IH)

18. Melanocyte stimulating hormone (MSH)
May be secreted by the pars intermedia
during fetal development, early childhood,
pregnancy or certain diseases
Stimulates melanocytes to produce melanin

19. The posterior lobe of the pituitary gland (neurohypophysis)
Contains axons of hypothalamic nerves
neurons of the supraoptic nucleus manufacture antidiuretic hormone (ADH)
Decreases the amount of water lost at the kidneys
Elevates blood pressure

20. The posterior lobe of the pituitary gland (neurohypophysis)
Neurons of the paraventricular nucleus manufacture oxytocin
Stimulates contractile cells in mammary glands
Stimulates smooth muscle cells in uterus

21. Growth Hormone Effects
Protein Anabolic
Increased plasma phosphorus
Increase absorption of calcium in gut
Diabetogenic
Growth Periods
Dwarfism
Giantism
Acromegly

22. Giantism Excessive Production during childhood
Different systems respond differently

23. Acromegly Progression of untreated acromegly
irregular bone growth continues

24. Acromegly
Hands
Feet
Jaws
Shows the characteristics
Abnormal size.

25. The Thyroid Gland

26. The Thyroid Gland

27. Thyroid and Parathyroid Glands
Shaped like a shield and lies just below the Adam’s apple in the front of the neck.
Thyroxine helps set basal metabolic rate by stimulating the rate of cell respiration.
In children, thyroid hormones also promote growth and stimulate maturation of the central nervous system.
unique function in amphibians - metamorphosis from larvae into adults

28. Thyroid follicles and thyroid hormones
Thyroid gland contains numerous follicles
Release several hormones such as thyroxine (T4) and triiodothyronine (T3)
Thyroid hormones end up attached to thyroid binding globulins (TBG)
Some are attached to transthyretin or albumin

29. The Thyroid Follicles

30. Formation and secretion of thyroglobulin by the thyroid cells
Thyroid cells are typical protein-secreting glandular cells
The ER and GA synthesize and secrete into the follicles a large glycoprotein called thyroglobulin (TG) (Mr Wt 335,000)
Each TG contains about 70 tyrosine a.a
Thus TH formed within TG molecule

31. Oxidation of the Iodide Ion
First step is the conversion of Iodide ions to an oxidized form of iodine either as Io or I-
Oxidation of iodine is promoted by the enzyme peroxidase
The enzyme is located either in apical membrane or attached to it

32. Iodination of Tyrosine and Formation of the Thyroid Hormones
Binding of iodine with the TG is called Organification of the TG
Enzyme Iodinase oxidises iodine within seconds
Tyrosine is first iodized to monoiodotyrosine and then to diiodotyrosine
Thus forming thyroxine that becomes the part of TG
Or one molecule of monoiodotyrosine couples with one molecule of diiodotyrosine to form triiodotyronine

33. The Thyroid Follicles

34. Thyroid hormones Held in storage
Bound to mitochondria, thereby increasing ATP production
Bound to receptors activating genes that control energy utilization
Exert a calorigenic effect

35. The Parathyroid Glands

36. Thyroid and Parathyroid Glands
Parathyroid gland and calcium homeostasis
four small glands attached to the thyroid
produces parathyroid hormone (PTH)
one of only two hormones in humans that are absolutely essential for survival
stimulates osteoclasts in bone to dissolve calcium phosphate crystals and release Ca++ into the blood

37. Regulation of Blood Calcium Levels

38. Hypothyroidism Myxedema

39. Cretinism Infancy onset Persists throughout life
Severe mental retardation

40. Infantile Cretinism Megaglossal tongue Druppy eyelids
Lack of genital development
Severe mental retardation

41. Hyperthroidism Graves Disease
Wasting of Temporalis and shoulder muscle
Myxedema in limbs

42. Graves Disease

43. Exothalamia Fat accumulation behind eyes High TSH
Patient previously had a thyroidectomy

44. REFERENCES
TEXT BOOK OF MEDICAL PHYSIOLOGY, ELEVENTH EDITION (2006), Arthur C. Guyton and John E. Hall. (Chapter -74,75 & 76).
HUMAN PHYSIOLOGY by Wikibooks contributors. (