ERS02 Development And Structure Of Pituitary

Question 1

Pituitary gland and Hypothalamus

Answer 1

Pituitary gland / Hypophysis:

• where Nervous system and Endocrine systems interact
• Master gland of endocrine system
• 0.5g - 1.5g (significantly enlarged in women given birth to >=2 children ∵ lactotropic cells hyperplasia + hypertrophy)
• within Sella turcica (Hypophyseal fossa) of Sphenoid bone
• posterior to Optic groove / chiasm (prone to compression by pituitary adenoma)
• sits outside of BBB

2 functional components from different embryologic origins:

1. Anterior pituitary (Adenohypophysis):
   - ***Ectoderm of oropharynx
   - produce 9 major hormones
   —> regulate body functions
   —> regulate secretions of other endocrine glands
   - 3 areas with indistinct boundaries:
   —> Pars distalis
   —> Pars tuberalis
   —> Pars intermedia
2. Posterior pituitary (Neurohypophysis):
   - **Neuroectoderm, from 3rd ventricle (Diencephalon)
   - extension of Hypothalamus
   - extension of Nervous system via **Infundibulum (from Median eminence)
   —> secrete ***Neurohormones (e.g. ADH, oxytocin)

Hypothalamus:
- regulates secretion of Anterior pituitary

Question 2

Development of pituitary gland

Answer 2

1. Anterior pituitary (Adenohypophysis)
   - **Oropharynx Ectoderm
   - out-pocket from roof of primitive mouth
   —> **Rathke’s pouch (Hypophyseal diverticulum)
   —> migrate superiorly + breaking off from oral cavity

—> Anterior wall grow rapidly —> Pars Distalis (Anterior lobe of pituitary) + Pars Tuberalis (funnel-shaped region wrap around infundibulum)
—> Dorsal wall —> Pars Intermedia (no significance)

2. Posterior pituitary (Neurohypophysis)
   - Pars Nervosa (posterior lobe) + Infundibulum (attach gland to Hypothalamus)

• ***Neuroectoderm (Neurohypophyseal diverticulum)
  —> evaginates from floor of Diencephalon (from 3rd ventricle)
  —> grows caudally
  —> distal end of Infundibulum becomes solid as neuroepithelial cell proliferate
  —> gives rise to Pars Nervosa
• Pars Nervosa: composed of neuroglial cells + **fibres from hypothalamus (Paraventricular nucleus + **Supraoptic nucleus)

Question 3

Histology of pituitary gland

Answer 3

Anterior lobe (hormone secreting cells) stains much darker than Posterior lobe (nerve fibres + neuroglial cells)

Question 4

Pituitary hormones

Answer 4

Anterior pituitary hormones (1-4: ***Tropic hormones —> stimulate release of hormones from other endocrine organs):

1. TSH
2. ACTH
3. LH
4. FSH
5. Growth hormone (GH) / Somatotropin
6. Prolactin
7. MSH (Melanocyte-stimulating hormone)
8. Beta-endorphin
9. Lipotropin

Posterior pituitary hormones (***Neuropeptides):

1. ADH
2. Oxytocin

Question 5

Pars distalis - Adenohypophysis

Answer 5

Contains most of hormone secreting cell in Anterior pituitary
—> organised in cords
—> epithelial cells interspersed with capillaries

Hormone secreting cells have different staining property:

1. Chromophobes (do not stain intensely)
2. Chromophils
   - Acidophils (red in H+E, orange yellow in OFG)
   - Basophils (blue in H+E, magenta in OFG)

Secretory cells (記: Growth in Breast: Acidophilic):

1. Somatotrope (acidophilic)
   - GH / Somatotropin
   - stimulated by GHRH (from Hypothalamus: Neurohormone)
   - inhibited by Somatostatin (from Hypothalamus: Neurohormone)
2. Lactotrope (acidophilic)
   - Prolactin (PRL)
   - stimulated by PRH
   - inhibited by PIH (e.g. Dopamine)
3. Gonadotrope (basophilic)
   - FSH, LH
   - stimulated by GnRH
4. Thyrotrope (basophilic)
   - TSH / Thyrotropin
   - stimulated by TRH
5. Corticotrope (basophilic)
   - ACTH / Corticotropin
   - stimulated by CRH

Question 6

Pars tuberalis, Pars intermedia - Adenohypophysis

Answer 6

Pars tuberalis:

• secrete ***Gonadotrophins (FSH, LH) (most cells) (+ ACTH: immunoactivity)
• arranged in cords with blood vessels
• highly vascular

Pars intermedia:

• cords + follicles of weakly basophilic cells containing basophilic granules
• characteristics feature: series of small cysts / follicles filled with colloid (residual lumen of Rathke’s pouch)
• unknown function

Question 7

Neurohypophysis

Answer 7

Pars Nervosa: major hormone secreting region

Composed of
1. **Unmyelinated fibres (innervation from Hypothalamus: **Paraventricular nucleus + **Supraoptic nucleus)
2. Pituicyte
3. Fibroblast
4. Mast cells
—> **Hypothalamo-Hypophyseal tract
—> Neurons terminate on target cells (rather than on other neurons)
—> Close proximity to ***fenestrated capillary of Pars Nervosa

Pituicyte:

• primary cell in posterior lobe, associate with fenestrated capillary
• specific glial cell: ***supporting role
• regulate release and storage of neurohormones

Neurosecretions accumulate at the end of the fibres —> **Herring bodies
- large axon swellings in neurosecretory cell in Hypothalamo-Hypophyseal tract
- contain **Neurohormones (ADH, oxytocin)
—> stored as membrane-bound granules in axon endings

Function:
Secrete ADH (Vasopressin) + Oxytocin
—> Each hormone bound to a specific binding protein —> ***Neurophysin

Question 8

Blood supply of Pituitary gland

Answer 8

Arterial blood supply:

1. ***Superior hypophyseal artery (ICA)
   - Median eminence
   - Infundibulum
   - Pars Tuberalis
2. Inferior hypophyseal artery (ICA)
   - Pars Nervosa
   - Infundibulum (little)

***NO direct arterial blood supply to Anterior lobe (Pars Distalis, Pars Intermedia)

Venous drainage:
***Efferent hypophyseal vein
—> Cavernous sinus (base of Diencephalon)
—> systemic circulation

Question 9

Regulation of Hypothalamus on Anterior pituitary

Answer 9

Hypothalamic neurons involved:
1. **Dorsal medial (DM)
2. **Ventral medial (VM)
3. Infundibular nuclei
4. **Paraventricular nuclei (Parvocellular neurosecretory neurons)
(Posterior pituitary: **Magnocellular neurosecretory neurons)

Stimuli from nervous system
—> Hypothalamic neurons in Median eminence secrete Releasing / Inhibiting hormones
—> Hypophyseal portal system
—> **Primary capillary plexus in Median eminence and Infundibulum (from R/L Superior hypophyseal arteries; supply Median eminence + Infundibulum)
—> rejoin to form Hypophyseal portal veins
—> **Secondary capillary plexus in Pars Distalis (Neuropeptides入)
—> Releasing / Inhibiting hormones stimulate / inhibit Anterior pituitary to release stimulatory hormones (Direct influence on secretory activity)
—> **Secondary capillary plexus (Glycoprotein / Protein hormones出)
—> **Hypophyseal veins
—> Target tissue / ***Other endocrine gland

Capillary plexus: Fenestrated

• allow passage of small molecules / proteins (e.g. neurohormones)
• pores may be closed by thin diaphragm

Question 10

Regulation of Hypothalamus on Posterior pituitary

Answer 10

Hypothalamic neurons involved:
1. Supraoptic nuclei (Magnocellular neurosecretory neurons)
2. Paraventricular nuclei (Magnocellular neurosecretory neurons)
(Anterior pituitary: ***Parvocellular neurosecretory neurons)

Stimuli from nervous system
—> Hypothalamic neurons secrete neurohormones (ADH, Oxytocin)
—> ***Hypothalamo-hypophyseal tract (nerve fibres directly derived from Hypothalamic neurons)
—> stored / released by Posterior pituitary (hormones NOT made by Posterior pituitary!!! Posterior pituitary only store / release!!!)
—> Fenestrated capillary system
—> Target tissue

Question 11

Median eminence

Answer 11

• Arise from inferior border of Hypothalamus
• Enlarged area in wall of Infundibulum
• Neuro-Haemal region where ***Releasing / Inhibiting hormones (neurohormones from Hypothalamus) pass into capillaries
• surrounded by extended perivascular connective tissue spaces
• ***Axon endings of neuro-hormonal nerve cells open and release hormones into perivascular spaces
  —> neurohormones then pass into blood through portal veins (Hypothalamo-hypophyseal portal system)
  —> Anterior pituitary

Question 12

Hypophyseal portal system

Answer 12

ICA
—> ***Superior hypophyseal arteries (L+R)
—> Primary capillary plexus in Median eminence and Infundibulum
—> Hypophyseal portal veins
—> Secondary capillary plexus in Pars Distalis
—> Hypophyseal veins

Question 13

Summary: Hormone production in 3 sites of Hypothalamo-Hypophyseal system

Answer 13

1. Neuropeptides by neurons in Supraoptic + Paraventricular nuclei (Hypothalamus)
   —> transported along axons
   —> accumulated at end of axons in Neurohypophysis (Posterior pituitary)
   —> released in blood capillaries
   —> systemic circulation
2. Neuropeptides by neurons in DM + VM + Infundibular nuclei + Paraventricular nuclei (Hypothalamus)
   —> transported along axons
   —> ending in Median eminence (stored and secreted)
   —> enter Primary capillary plexus of Median eminence
   —> transported to Adenohypophysis (Anterior pituitary) via Hypophyseal portal system
   —> control secretion from Anterior pituitary
3. Proteins, Glycoproteins in Pars Distalis
   —> released into Secondary capillary plexus of Hypophyseal portal system
   —> distributed to general circulation