The Pituitary Gland

Question 1

What a messenger?

Answer 1

A messenger, carried from the organ where they are produced to the organ which they affect by means of the blood stream

Question 2

What are the types of hormones?

Answer 2

Peptide and steroid

Question 3

What is the difference between peptide and steroid hormones?
- synthesis, storage, receptors

Answer 3

Question 4

Label this diagram of the pituitary gland.

Answer 4

Question 5

What is another name for the anterior pituitary gland and what did it derive from?

Answer 5

aka adenohypophysis

Derived from an upgrowth from the oral ectoderm of the primitive oral cavity called Rathke’s pouch

Epithelial origin

Question 6

What is another name for the posterior pituitary gland and what did it derive from?

Answer 6

neurohypophysis

Formed from a downgrowth of the diencephalon that forms the floor of the third ventricle

Neural origin

Question 7

Label this diagram of the pituitary gland.

Answer 7

Question 8

What do hypothalamic parvocellular neurones regulate?

Answer 8

Anterior pituitary function

Question 9

Where is the median eminence?

Answer 9

Base of the hypothalamus

Question 10

Why does the median eminence have lots of capillaries?

Answer 10

They are leaky, so they allow things to flow into them so they can encounter circulation (the portal circulation)

Question 11

What are hypothalamic parvocellular neurones?

Answer 11

Short, terminate on median eminence

Release hypothalamic releasing/inhibitory factors into capillary plexus in median eminence

These hypothalamic regulatory factors carried by portal circulation to anterior pituitary

Question 12

Label this diagram of the pituitary gland.

Answer 12

Question 13

How would you describe the anterior pituitary gland to the hypothalamus?

Answer 13

Anatomically distinct

Question 14

What cells is the anterior pituitary gland made of?

Answer 14

Somatotrophs
Lactotrophs
Corticotrophs
Thyrotrophs
Gonadotrophs

Question 15

How is the activity of the cells in the anterior pituitary gland regulated?

Answer 15

Regulated by hypothalamic releasing/inhibiting factors via hypophyseal-pituitary portal system

Question 16

What are the steps of the hypothalamo-pituitary portal system?

Answer 16

1. Axon terminals of hypothalamic neurosecretory cells release hormones (RHs and IHs) into the hypothalamo-pituitary portal system
2. The RHs and IHs travel in the portal system to the anterior pituitary
3. The RHs and IHs stimulate or inhibit the release of hormones (black dots) from anterior pituitary cells
4. Anterior pituitary hormones leave the gland via the blood

Question 17

Give an example of the hypothalamo-pituitary portal system with the regulation of thyroid hormone production.

Answer 17

1. Axon terminals of hypothalamic neurosecretory cells release Thyrotropin Releasing Hormone (TRH) into hypothalamo-hypophysial portal system
2. TRH travels in the portal system to the anterior pituitary
3. TRH stimulates the release of Thyroid Stimulating Hormone (TSH) from anterior pituitary thyrotrophs
4. TSH leaves the gland via the blood to travel to the thyroid gland to stimulate thyroid hormone release (thyroxine)

Question 18

what hormone do somatotrophs release?

Answer 18

Growth hormone

Question 19

What hormone do lactotrophs release?

Answer 19

Prolactin

Question 20

What hormone do thyrotrophs release?

Answer 20

Thyroid stimulating hormone (TSH)

Question 21

What hormone do gonadotrophs release?

Answer 21

Luteinising hormone (LH)
Follicle stimulating hormone (FSH)

Question 22

What hormone do corticotrophs release?

Answer 22

Adrenocorticotrophic hormone (ACTH)

Question 23

What is the hormone regulating somatotrophs?

Answer 23

Releasing= growth hormone releasing hormone

inhibitory= somatostatin

Question 24

What is the hormone regulating lactotrophs?

Answer 24

Inhibitory= dopamine

Question 25

what is the hormone regulating thyrotrophs?

Answer 25

releasing= THYROTROPHIN RELEASING HORMONE (TRH)

Question 26

What is the hormone regulating gonadotrophs?

Answer 26

Releasing= GONADOTROPHIN RELEASING HORMONE

Question 27

What is the hormone regulating corticotrophs?

Answer 27

releasing= corticotrophin-releasing hormone

Question 28

Give an overview of the cells of the anterior pituitary gland and what they do.

Answer 28

Question 29

What is the target for growth hormone?

Answer 29

General body tissues (particularly the liver)

Question 30

What is the target for prolactin?

Answer 30

breast (lactating women)

Question 31

What is the target for thyroid stimulating hormone?

Answer 31

thyroid

Question 32

What is the target for gonadotrophins (LH and FHS)?

Answer 32

testes (males)
ovaries (females)

Question 33

What is the target for adrenocorticotrophic hormone (ACTH)?

Answer 33

Adrenal cortex

Question 34

What do you take to check if someone has a pituitary tumour?

Answer 34

Coronal MRI pictures from front to back
(tumour is usually benign)

Question 35

What can a pituitary tumour compress?

Answer 35

optic chiasm

Question 36

WHat can compression on the optic chiasm cause?

Answer 36

bitemporal hemianopia

Question 37

What is a bitemporal hemianopia?

Answer 37

Fibres from the nasal (medial) retinae cross at the optic chiasm

Compression of the optic chiasm by a pituitary tumour/suprasellar tumour prevents transmission of sensory information from lateral (TEMPORAL) visual fields to the occipital lobe

Question 38

Where is the sella turcica?

Answer 38

In the sphenoid bone

Question 39

What is the mechanism of growth hormone action?

Answer 39

Indirectly inducing growth via IGF-1 receptors
Directly promotes growth by releasing growth hormone

Question 40

What is excess growth hormone called in adults?

Answer 40

Acromegaly

Question 41

What is too much growth hormone in children called?

Answer 41

gigantism

Question 42

What are the symptoms/ features of acromegaly?

Answer 42

Coarsening of facial features

Macroglossia= large tongue

Prominent nose

Large jaw - prognathism

Increased hand and feet size

Sweatiness

Headache

Question 43

What happens to bones when there is excess growth hormone after puberty? (what else can happen as a symptom of too much GH- not to do with bones)

Answer 43

It is impossible to grow taller at the end of puberty as the bones fuse
- Instead soft tissue gets bigger
- Can stop insulin from working properly

Question 44

What are the hormones of the posterior pituitary gland?

Answer 44

Arginine vasopressin (AVP) (also known as Anti-diuretic hormone)

Oxytocin

Question 45

How would you describe the relationship between the hypothalamus and the posterior pituitary gland?

Answer 45

anatomically continuous with hypothalamus

Question 46

what are the hypothalamic magnocellular neurones?

Answer 46

Long, originate in supraoptic (AVP) and paraventricular (oxytocin) hypothalamic nuclei
Nuclei → stalk →posterior pituitary

Question 47

Does the posterior pituitary gland make its hormones?

Answer 47

Does not make hormones itself, stores arginine vasopressin and oxytocin produced in the hypothalamus

Question 48

Describe the regulation of the posterior pituitary gland.

Answer 48

1. Two sets of hypothalamic neurosecretory cells produce AVP and oxytocin and transport them to the posterior pituitary
2. Excitation of these hypothalamic magnocellular neurons stimulates release of AVP or oxytocin into the posterior pituitary where they diffuse into blood capillaries…
3. …then leave the posterior pituitary via the blood

Question 49

What is a word for production of urine?

Answer 49

Diuresis

Question 50

What are the physiological actions of vasopressin?

Answer 50

Other name = Anti-Diuretic Hormone

Main physiological action = stimulation of water reabsorption in
the renal collecting duct
- This concentrates urine

Also a vasoconstrictor (via V1 receptor)

Stimulates ACTH release from anterior pituitary

Question 51

What does arginine vasopressin act through to concentrate urine?

Answer 51

Acts through the V2 receptor in the kidney

Question 52

How does arginine vasopressin concentrate urine?

Answer 52

1. AVP binds to V2 receptor on basolateral membrane of cell
2. This activates a G protein, which activates adenylate cyclase, forming cAMP, forming protein kinase
3. This triggers vesicles containing aquaporin-2 to fuse with the apical membrane of the cell
4. the apical membrane is closer to the urine, this causes water from the urine to enter the cell (down a concentration gradient? (idk about this part))
5. It then leaves the cell via aquaporin-3 on the basolateral membrane side and enters the plasma

Question 53

What are the physiological actions of oxytocin?

Answer 53

Question 54

What is the role of the anterior pituitary gland in lactation?

Answer 54

1. Mechanical stimulation of nipple & surrounding area activates afferent pathways
2. Afferent signals integrated in the hypothalamus and inhibit dopamine release from dopaminergic neurons
3. Less dopamine in the hypothalamic-pituitary portal system causes less inhibition of anterior pituitary lactotrophs
4. Increased plasma prolactin increases milk secretion in mammary glands

Question 55

What is the role of the posterior pituitary gland in lactation?

Answer 55

1. Mechanical stimulation of nipple & surrounding area activates afferent pathways
2. Afferent signals integrated in the hypothalamus and stimulate oxytocin- releasing neuron activity
3. Action potentials travel down oxytocin neurons and oxytocin is secreted into the bloodstream
4. Increased plasma oxytocin increases milk ejection in mammary glands

Question 56

What is the overall anterior and pituitary roles?

Answer 56