Lecture 19: Hypothalamic-Pituitary Function

Question 1

what is the most common means of intercellular communication

Answer 1

chemical signalling

Question 2

what cells do paracrine chemical messengers affect

Answer 2

neighbouring cells only

Question 3

what cells do autocrine chemical messengers affect

Answer 3

secreting cells only

Question 4

how are chemical messengers distributed

Answer 4

diffusion

Question 5

what do neurotransmitters affect

Answer 5

nerves, muscles or glands

Question 6

give examples of paracrine messengers

Answer 6

• histamine
• NO
• some growth hormones

Question 7

give examples of neurotransmitters

Answer 7

• ACh
• amines e.g. noradrenaline
• amino acids e.g. glutamate
• neuropeptides
• NO

Question 8

where are hormones secreted into and by what

Answer 8

into the blood by endocrine cells

Question 9

where are neurohormones secreted and by what

Answer 9

into the blood by neurosecretory neurons

Question 10

give examples of hormones

Answer 10

• thyroid hormone

- adrenaline

Question 11

give examples of neurohormones

Answer 11

• ADH

Question 12

name the 4 hormone classes and give examples of each

Answer 12

• amine
• -> norepinephrine
• -> dopamine
• -> thyroid hormone
• peptide
• -> oxytocin
• -> ADH
• -> neurohormones
• -> glucagon
• protein
• -> human growth hormone
• -> insulin
• -> calcitonin
• -> parathyroid hormone
• steroid
• -> testosterone
• -> progesterone
• -> oestrogen
• -> mineralocorticoids
• -> glucocorticoids
• -> activated Vit D

Question 13

name some stimuli for hormone release

Answer 13

• direct neural innervation
• releasing hormones
• plasma levels

Question 14

how can hormones be transported in blood

Answer 14

free or bound to plasma protein

Question 15

which hormones are transported free

Answer 15

most amine, protein and peptide hormones

Question 16

which hormones are transported bound

Answer 16

steroid (as they’re hydrophobic) and thyroid hormones

Question 17

what types of plasma proteins bind to hormones for transport

Answer 17

majority globulins and albumin

Question 18

describe the genomic/non-genomic effects a hormone can have

Answer 18

genomic –> alter protein synthesis so alter cell behaviour

non-genomic –> alter protein function

Question 19

where can hormone receptors be found (cell)

Answer 19

• on cell surface membrane
• in cytoplasm
• nucleus

Question 20

function of hypothalamic-pituitary axis

Answer 20

stimulates secretion of a number of hormones e.g. thyroid

Question 21

what connects the hypothalamus to the pituitary

Answer 21

infundibulum - has nerves and small bv

Question 22

what cavity does the pituitary gland sit in

Answer 22

hypophyseal fossa

Question 23

what can a bi-temporal hemianopia be a symptom of and what is it

Answer 23

• symptom of pituitary tumour (can impinge on optic chiasma)

- loss of peripheral vision

Question 24

what is the optic chiasma

Answer 24

where optic nerves of both eyes cross over

Question 25

name the lobes of the pituitary gland and describe the tissue each lobe is made of

Answer 25

• posterior (neurohypophysis) –> brain tissue
• anterior (adenohypophysis)
• -> glandular tissue

Question 26

describe how each lope of pituitary is connected to the hypothalamus

Answer 26

• posterior –> neural pathway (axons)

- anterior –> vascular pathway

Question 27

what system do posterior pit. and hypothalamus form and what hormones does that system secrete

Answer 27

• neuroendocrine system

- secretes ADH and oxytocin

Question 28

where do the cell bodies of the axons linking the hypothalamus to post. pit. lie

Answer 28

• in two discrete nuclei
  1. paraventricular nucleus
  2. supraoptic nucleus

Question 29

where are ADH and oxytocin manufactured

Answer 29

in the cell bodies of the neurones connecting hypothalamus with post. pit. (then stored in axon terminals)

Question 30

which nuclei contains most the neurones that secrete oxytocin

Answer 30

paraventricular nucleus

Question 31

which nuclei contains most of the neurones that secrete ADH

Answer 31

supraoptic nucleus

Question 32

what is the function of oxytocin

Answer 32

stimulates uterine contraction (stimulates birth) and milk ejection

• also known as love hormone

Question 33

what is the function of ADH (vasopressin)

Answer 33

• vasoconstrictor –> increases vascular resistance and BP

- increases H2O permeability and absorption in renal collecting ducts

Question 34

what type of hormones are secreted by anterior pituitary, give the 7 examples

Answer 34

primarily tropic hormones

• growth hormone
• thyroid stimulating hormone
• adrenocorticotrophic hormone (ACTH)
• Prolactin (not tropic)
• follicle stimulating hormone
• luteinising hormone
• melanocyte stimulating hormone (not tropic)

Question 35

what is a tropic hormone

Answer 35

• hormones that influence/ regulate the secretion of hormones from another endocrine gland
• stimulate and maintain endocrine target tissue

Question 36

what is the function of ACTH

Answer 36

stimulates adrenal gland to secrete corticosteroids

Question 37

which brain region regulates hormone secretion from pituitary gland

Answer 37

hypothalamus

Question 38

which hormones are secreted by neurohypophysis

Answer 38

ADH and oxytocin

Question 39

what are the two most important factors that regulate ant. pit. hormone secretion

Answer 39

• hypothalamic hormones (hypophysiotropic)

- feedback by target gland hormones

Question 40

what connects the hypothalamus and ant. pit.

Answer 40

hypothalamic-hypophyseal portal system

Question 41

what is the importance of a portal system between hypothalamus and ant. pit.

Answer 41

• venous blood so doesn’t enter systemic circulation
• concentrated hormones can move from hypothalamus to ant. pit. w/o being diluted
• rapid response to release of hypothalamic hormones –> direct travel

Question 42

decreased secretion of which hormone results FROM damage to hypothalamic-hypophyseal portal system…

1. ADH
2. Prolactin
3. Oxytocin
4. PTH
5. TSH

Answer 42

answer = TSH

• ant. pit. affected therefore rule out 1, 3 and 4
• prolactin has two hypothalamic hormones governing its secretion –> releasing and inhibiting –> damage means there’s less inhibition so prolactin secretion can increase moderately

Question 43

what are the 3 hormones/ levels for hypothalamic pituitary target gland secretion regulation

Answer 43

1. hypothalamus / neurohormone
2. pituitary gland / tropic hormone
3. peripheral gland / peripheral target-endocrine gland hormone

Question 44

describe long loop negative feedback

Answer 44

inhibits both pituitary gland secretion and hypothalamus secretion

Question 45

describe short loop negative feedback

Answer 45

hormone secreted by pituitary inhibits hypothalamus secretion

Question 46

what is important to consider when measuring hormone levels

Answer 46

diurnal and circadian rhythms

Question 47

describe primary hyposecretion

Answer 47

too little hormone is secreted due to abnormality within secreting gland itself

Question 48

name some cause of primary hyposecretion

Answer 48

• genetic
• dietary (e.g. lack of iodine)
• chemical or toxic
• autoimmune
• cancer
• iatrogenic

Question 49

describe secondary hyposecretion

Answer 49

gland is normal but too little hormone is secreted due to deficiency of tropic hormone –> assc w/ deficiency in ant. pit.

Question 50

describe tertiary hyposecretion

Answer 50

gland is normal but too little hormone is secreted due to deficiency of hypothalamic releasing hormone

Question 51

what is pan hypopituitarism

Answer 51

production and secretion of all pituitary hormones are reduced both ant. and post.

Question 52

name a cause of hypersecretion

Answer 52

tumours –> ignore normal regulatory input and continuously secrete excess hormone

Question 53

describe primary hypersecretion

Answer 53

abnormality within gland

Question 54

describe secondary/ tertiary hypersecretion

Answer 54

excessive stimulation from outside the gland (2nd = pituitary, 3rd = hypothalamus)

Question 55

outline some consequences of hypersecretion (in terms of ant. pit. hormones)

Answer 55

• ^ ACTH –> corticosteroid excess –> Cushing’s
• ^ prolactin –> impaired reproductive function
• ^ ADH –> fluid retention and low plasma osmolality
• ^ TSH –> Grave’s disease
• ^ hGH (children) –> gigantism
• ^ hGH (adults) –> acromegaly