Hypothalamus and Pituitary

Question 1

describe generally the HPA axis

Answer 1

Generally a stimulus will cause the Hypothalamus
to secrete a hormone

This will cause the pituitary to secrete a hormone

This will act on a target organ which may or may
not secrete another hormone

The final hormone produced will cause an effect

Question 2

what is the pituitary gland composed of

Answer 2

anterior

posterior

Question 3

what is the anterior lobe of the pituitary derived from

Answer 3

Anterior derived from the upward migration from the roof of the mouth called the Rathke’s pouch

Question 4

what is the posterior lobe of the pituitary derived fro m

Answer 4

Posterior derived from the downward migration of the neuroectoderm from the diencephalon.

Question 5

what lobe of the pituitary is directly connected to the hypothalamus

Answer 5

posterior via the infindubulum

Question 6

what hormones does the anterior pituitary release

Answer 6

Thyroid Stimulating Hormone (TSH)

Prolactin (PRL)

Growth Hormone (GH)

Follicle Stimulating Hormone (FSH)

Luteinising Hormone (LH)

Adrenocorticotropic hormone (ACTH)

Question 7

what hormones from the hypothalamus stimulate the hormones in the anterior pituitary

Answer 7

Thyroid Releasing Hormone (TRH) → TSH - this causes the adrenals to produce T4 and T3 ( I inhibited by SS)

Nipple suckling → PRL - this causes milk glands immunosystem (inhibited by dopamine)

Growth Hormone Releasing Hormone (GHRH) → GH (inhibited by SS)

Gonadotrophin Releasing Hormone (GnRH) and kisspeptin → FSH - this causes sex steroids, inhibin, ovulation, spermatogenesis

Gonadotrophin Releasing Hormone (GnRH) and kisspeptin → LH - this causes sex steroids, inhibin, ovulation, spermatogenesis

Corticotrophin Releasing Hormone (CRH) → ACTH - this produces cortisol in the adrenals

Question 8

what does the posterior pituitary hormone release

Answer 8

ADH

oxytocin

Question 9

where are the posterior pituitary hormones produced

Answer 9

• they are produced in the hypothalamus
• ADH in the supraoptic nuclei
• oxytocin in the paraventricular nuclei

Question 10

describe the blood supply to the pituitary

Answer 10

• supplied by the superior hypophyseal artery

anterior pituitary

• superior hypophyseal artery goes and forms a primary plexus
• this goes down via hypophyseal portal veins
• this goes into a secondary plexus where the hormones are secreted into the blood

posterior pituitary
- this is attached to the anterior pituitary via short blood vessels, therefore posterior pituitary can influence the anterior pituitary

Question 11

what is negative feedback

Answer 11

Thyroid Releasing Hormone (TRH) → TSH

Nipple suckling → PRL

Growth Hormone Releasing Hormone (GHRH) → GH

Gonadotrophin Releasing Hormone (GnRH) → FSH

Gonadotrophin Releasing Hormone (GnRH) → LH

Corticotrophin Releasing Hormone (CRH) → ACTH

Question 12

what happens if too much hormone is produced

Answer 12

If too much hormone is produce by the target
organ, this causes inhibition of pituitary and
hypothalamus hormone

Question 13

what happens if too little hormone is produced

Answer 13

If too little hormone is produced by the target
organ, this stimulates the hypothalamus to
produce its hormone which in turn will stimulate
the pituitary and so on.

Question 14

Describe how G protein works

Answer 14

• on a G protein alpha subunit is attached to a gamma and beta subunit
• when the ligament binds to the G protein this causes it to become phosphorylated so GDP is converted to GTP
• this causes the alpha subunit to detach
• alpha subunit then binds to adenyl cycle
• this causes ATP to convert to cAMP
• this increases the activity of PKA
• this causes the cell response
• after the ligand leaves GTP is converted back to GDP this causes alpha subunit to bind to the gamma and beta subunit again

Question 15

what does ADH do

Answer 15

• increase the number of aquaporins in the collecting duct s
• this increases the amount of water reabsorption
• works via a G protein

Question 16

which artery do the hypophyseal arteries branch from

Answer 16

internal carotid artery

Question 17

what inhibits prolactin

Answer 17

dopamine

Question 18

what does prolactin inhibit

Answer 18

GnRH

Question 19

what two hormones does somatostatin inhibit

Answer 19

GH

TSH

Question 20

why is there an increase in TSH in hypothyrosdim

Answer 20

• due to negative feedback

- there is low T3/T4 this stimulates the production of TSH

Question 21

the stimulus of nipple sucking causes the production of which two hormones

Answer 21

oxytocin and prolactin

Question 22

which hormone stimulate the production of GnRH

Answer 22

kisspeptin

Question 23

what is the final hormone that is produced to stimulate growth

Answer 23

IGF-1

Question 24

how do the posterior pituitary organs cause their effect on their target organs

Answer 24

Neurones

Question 25

what does the hypothalamus regulate

Answer 25

• Pituitary function
• Feeding (appetite and satiety)
• Stress response
• Water balance
• Sleep-wake cycle
• Thermoregulation
• Emotions

Question 26

Name some nuclei of the hypothalamus

Answer 26

• paraventricular
• anterior
• Supraoptic
• Dorsomedial
• Ventromedial
• Arcuate
• Posterior
• Mamillary body

Question 27

what does the pituitary gland sit in

Answer 27

sella turicia

Question 28

what happens when the pituitary has a tumour to the eyesight

Answer 28

can get a bitemporal hemianopia

Question 29

what is a bitemproal hemianopia

Answer 29

Bitemporal hemianopia = loss of vision in the outer halves of both eyes.

Question 30

what is the drug used to replace ADH

Answer 30

Desmopressin

Question 31

describe how the thyroid axis works

Answer 31

• hypothalamus produces TRH
• TRH activates the anterior pituitary gland to produce TSH
• TSH causes the production of thyroxine in the adrenal gland
• thyroxine(T4) casques liothyroonine(T3) to be produced
• when thyroxine increases beyond a certain level this inhibits TRH and TSH

Question 32

what is primary under activity

Answer 32

this is when the target hormone doesn’t get produces so causes an increase in the hypothalamus stimulatory hormone and an increase in the pituitary hormone that is being produced

Question 33

what is secondary under activity

Answer 33

this is when the pituitary hormone does release its releasing hormone

• this results in a decrease in the hormone being released by the target hormone
• therefore resulting in a increase in hypothalamus stimulatory hormone

Question 34

what is primary overactivity

Answer 34

• this is when there is a tumour at the target organ, this causes an increase in the target hormone
• this would cause a decrease in the pituitary hormone and hypothalamus stimulating hormone

Question 35

what is secondary overactivity

Answer 35

• this is when there is an tumour on the pituitary gland
• causes increase in pituitary hormone which causes an increase in the target hormone
• this causes a decrease in the hypothalamus stimulatory hormone

Question 36

describe how the GH axis works

Answer 36

 GH is stimulated by GHRH, and ghrelin.
 Ghrelin also stimulates GHRH.
- GH activates SS production
- when SS is too high it inhibits GH production
 GH stimulates IGF production in the liver.
 IGF inhibits GH and GHRH via negative feedback.
 IGF also stimulates SS to reduce GH levels by activating SS

Question 37

what is the role of GnRH

Answer 37

• promote GH cell clusters for coordinated responses
• increases GH cell number
• increases GH synthesis
• stimulates GH release

Question 38

what causes McCunae-Albright syndrome

Answer 38

 Caused by spontaneous mutation. ( R201 mutation)
– not inherited
= mosaic mutation - this means that not all the cells have the mutation
 Prevents downregulation of cAMP via GPCRs.

Question 39

what are the symptoms of McCunae-albright syndrome

Answer 39

hyper-functioning endocrine organs (goitre),

• precocious puberty
• hyperthyroid gotire
• adrenal hyperplasia
• somatotroph hyperplasia

bone deformities

Café-
au-lait skin pigmentation.

Question 40

describe how the adrenal axis works

Answer 40

 CRH and ADH stimulate ACTH.
 ACTH stimulates cortisol release from the adrenal glands.
 Cortisol inhibits CRH, ADH and ACTH all via negative feedback.

Question 41

describe how the HPA axis works

Answer 41

• hypothalamus relates CRH and arginine vasopressin
• CRH stimulates ACTH production
• A little part of arginine-vasopressin causes ACTH production
• ACTH is in the pituitary gland
• ACTH causes production of cortisol in the adrenal gland
• when cortisol rises too much it causes the inhibition of CRH, ACTH, Arginine vasopressin

Question 42

if there is
- too much cortisol
- too little cortisol
what is caused

Answer 42

• Too much = Cushings

- too little = Addisons

Question 43

describe how the circadian rhythm is linked to cortisol

Answer 43

 Cortisol levels start to rise at about 3 am.
 Cortisol levels peak in the morning between 6-9 am.
 After this the levels start to decline throughout the whole day.

Question 44

what are the two types of Cushing syndrome

Answer 44

• ACTH independent

- ACTH dependent

Question 45

describe ACTH independent cushings syndrome

Answer 45

• ACTH levels are not being primarily impacted.
• Issue with the axis lies downstream of the pituitary gland.
• Adrenal tumour may be the cause or steroid use
• Cortisol levels are raised.

Question 46

describe ACTH dependent Cushing syndrome

Answer 46

• ACTH levels are being raised primarily.
• Issue due to a pituitary defect, such as an adenoma.
• Both ACTH and cortisol levels are increased.

Question 47

what are the symptoms of Cushing syndrome

Answer 47

• Weight gain.
• Muscle weakness.
• Skin changes.

Question 48

describe how Addisons disease is caused

Answer 48

Decreased levels of cortisol,

lack of adrenal gland steroid production.

Question 49

describe the gonadal axis

Answer 49

 Kisspeptin stimulates GnRH in the hypothalamus.
 GnRH stimulates LH and FSH in the pituitary glands.
 Oestrogen and testosterone are then produced in the gonads.
 Oestrogen and testosterone inhibit kisspeptin and LH/FSH via negative feedback.
- they inhibit LH and FSH by inhibin

Question 50

what happens if there is continuous GnRH drive

Answer 50

Receptor desnsitisation – used therapeutically when gonadal axis needs to be inhibited
• Prostate cancer
• Breast cancer

Question 51

what is the function of oxytocin

Answer 51

• Social recognition
– “love hormone” • Pro-sociality
– For and maintain attachment bonds with others • Perceptual selectivity/social salience
– intranasal oxytocin increases gaze to the eye region

Question 52

what does absence of ADH cause

Answer 52

- diabetes insipidus 
symtpoms 
- massive thirst 
- polyuria 
- nocutira 
- greater than 12 litres a day

Question 53

How does the prolactin axis works

Answer 53

 Prolactin is stimulated
by nipple sucking and
also TRH.
 Dopamine inhibits PRL
release.
 Prolactin inhibits
GnRH to reduce
LH/FSH secretion.
 Prolactin matures
mammary glands and
helps produce milk.

Question 54

What is the transcription factor PUOF1 responsive for

Answer 54

• development of TSH, GH, PRL

Question 55

what does a mutation in PUOF1 cause

Answer 55

severe dwarfism