Hypothalamic Pituitary Axis

Question 1

Describe the location of the pituitary gland

Answer 1

Pituitary gland sits beneath the hypothalamus in a socket of bone called sella turcica

Question 2

State the embryonic source of pituitary gland development

Answer 2

• Anterior pituitary gland derived from primitive gut tissue
• Posterior pituitary gland derived from primitive brain tissue
  
  • Connected to hypothalamus through infundibulum (pituitary stalk)

Question 3

State the hormones synthesised in the hypothalamus and pass to posterior pituitary

Answer 3

Oxytocin, antidiuretic hormone

Question 4

How are posterior pituitary hormones made and secreted

Answer 4

• Oxytocin and antidiuretic hormone secreted from posterior pituitary but synthesised by neurosecretory cells in the supraoptic and paraventricular nuclei of hypothalamus
• Transported down nerve cell axons to posterior pituitary
• Stored and released from posterior pituitary into circulation (neurocrine secretion)

Question 5

State the role of oxytocin in the body

Answer 5

• Stimulus of sucking transmitted from breast to hypothalamus, resulting in release of oxytocin
  
  • Oxytocin travels to mammary glands and causes lactation
• During childbirth, stimulus of pressure on cervix and uterine wall transmitted to hypothalamus
  
  • Release of oxytocin stimulates powerful uterine contractions

Question 6

Explain the role of ADH in the body

Answer 6

• Antidiuretic hormone (vasopressin) - reduces urine production
  
  • When produced, increase permeability of collecting duct by inducing translocation of aquaporin to allow water retention
  • § Alcohol inhibits ADH release - increased urination and dehydration

Question 7

How do hormones secreted in hypothalamus reach anterior pituitary

Answer 7

• Hormones synthesised in hypothalamus travel down axons and stored median eminence before secreted into hypophyseal portal system (neurocrine function)
• These hormone stimulate or inhibit target endocrine cells in anterior pituitary gland

Question 8

What are tropic hormones

Answer 8

Hormone involved in control of 2nd hormone

Question 9

State the tropic hormones produced by hypothalamus and its function

Answer 9

• TRH - thyrotropin releasing hormone - stimulates TSH
• PRH - prolactin releasing hormone - stimulates prolactin
• PIH - prolactin inhibiting hormone (dopamine) - inhibit prolactin
• CRH - corticotropin releasing hormone - stimulate ACTH
• GnRH - gonadotropin releasing hormone - stimulate LH and FSH
• GHRH - growth hormone releasing hormone - stimulate growth hormone
• GHIH - growth hormone-inhibiting hormone (somatostatin) - inhibit growth hormone

Question 10

State the hormones produced in anterior pituitary and their functions

Answer 10

• TSH - thyroid stimulating hormone - stimulates secretion of thyroid hormone from thyroid gland
• ACTH - adrenocorticotropic hormone - stimulate glucocorticoid (cortisol) secretion from adrenal cortex
• LH - luteinising hormone - ovulation and secretion of sex hormones
• FSH - follicle stimulating hormone - development of eggs and sperm
• PRL - prolactin - mammary gland development and milk secretion
• GH - growth hormone - growth and energy metabolism, stimulate IGFs

Question 11

Describe the different negative feedback loops for anterior pituitary hormones

Answer 11

• Ultra short loop - tropic hormone to hypothalamus
• Short loop - anterior pituitary hormone to hypothalamus
• Direct long loop - endocrine gland hormone (eg. cortisol, IGF, thyroxine) to anterior pituitary
• Indirect long loop - endocrine gland hormone to hypothalamus

Question 12

Where is IGF (somatomedin) produced

Answer 12

In response to GH, cells of the liver and skeletal muscle produce and secrete IGF (somatomedin)

Question 13

How is growth hormone metabolically controlled

Answer 13

• Decrease in glucose or fatty acids leads to increase in GH secretion
• Increase in glucose or free fatty acid leads to decrease in GH secretion
  
  • Give oral glucose tolerance test and see if GH becomes depressed to test GH function
• Fasting increase GH secretion, obesity decrease GH secretion

Question 14

How is growth hormone controlled by CNS

Answer 14

• CNS regulates GH secretion via inputs into the hypothalamus effecting GHRH and somatostatin levels
  
  • Surge in GH secretion after onset of deep sleep (good sleep)
    Rapid eye movement sleep (light sleep) decreases GH secretion
  • Stress (trauma, surgery, fever) increase GH secretion
    
    • Exercise promote GH secretion

Question 15

Explain how feedback loops control growth hormone levels

Answer 15

• Long loop negative feedback mediated by IGF
  
  • Inhibit release of GHRH from hypothalamus
  • Stimulates the release of somatostatin from hypothalamus
  • Inhibit release of GH from anterior pituitary
• Short loop negative feedback mediated by GH itself via stimulation of somatostatin release

Question 16

What are the effects on cells of growth hormone

Answer 16

• GH stimulates long bone growth - both length and width increases prior to epiphyseal closure
  
  • Only increase width after epiphyseal closure
• In response to GH, cells of the liver and skeletal muscle produce and secrete IGF (somatomedin)
• IGF stimulate both bone and cartilage growth
• In adults, growth hormone and IGFs help maintain muscle and bone mass and promote healing and tissue repair as well as modulating metabolism and body composition

Question 17

What happens when growth factor binds to its receptor

Answer 17

• GH receptors activate Janus kinases (JAK) - tyrosine kinase receptor
  
  • When growth factor binds to its receptor, cross phosphorylation of JAK occur
  • Then phosphorylation of GH receptor and activation of signalling pathway
    
    • Transcription factor activation and IGF production

Question 18

Differentiate between two types of IGF

Answer 18

• IGF1 - major growth factor in adults

- IGF2 - mainly involved in fetal growth

Question 19

What are the effects of IGF

Answer 19

• IGF act through IGF receptors to:
  - Modulate hypertrophy
  
  • Modulate hyperplasia
  • Increase in rate of protein synthesis]
  • Increase in rate of lipolysis in adipose tissue
    
    • Decrease in glucose uptake

Question 20

What symptoms do pituitary tumours have

Answer 20

• Visual loss, headache, vomiting, nausea
• If tumour grows superior, it pushes and creates pressure against optic chiasm (chiasmal legion)
  
  • Bitemporal hemianopsia - vision missing in the outer half of visual field
• Lateral growth of tumour can cause pain and double vision
  
  • Ptosis (droopy eye) - causes eye compressive problems

Question 21

What effect does pituitary tumour have on pituitary gland

Answer 21

• A tumour blocking portal system decreases production of pituitary hormones (hypopituitarism)
  
  • Leads to increase in prolactin but decrease in other 5 hormones

Question 22

How would you investigate pituitary tumour

Answer 22

• Identify anatomy, size and location of pituitary mass through MRI
• Assessment of visual field - bitemporal hemianopsia
• Assessment of endocrine function - hormone level in blood

Question 23

What are the causes of effects of hypopituitarism

Answer 23

• Most commonly due to pituitary adenoma
  
  • Sometimes due to radiation therapy, inflammatory disease, head injury
• Usually secondary to mass effect from adenoma
• Progressive loss of anterior pituitary function with GH and LH/FSH first hormones to be affected
• Deficiency in all tumours - panhypopituitarism

Question 24

What are the effects of growth hormone deficiency

Answer 24

• Short stature in children, delayed or no sexual development
  
  • May be due to gene mutation or autoimmune inflammation
• Adults - decrease tolerance to exercise, decrease muscle strength, increase body fat
  
  • Usually due to mass effects from pituitary adenoma
• First hormone to become deficient

Question 25

What are the effects of gonadotropin deficiency

Answer 25

• Delayed puberty in child
• Loss of secondary sexual characteristics in adults
• Loss of periods and early sign in women

Question 26

What are the effects of TSH/ACTH deficiency

Answer 26

• Late feature of pituitary tumours
• TSH deficiency - symptoms of hypothyroidism
• ACTH deficiency - low cortisol levels, dizzy, low BP, low Na

Question 27

What are the effects of ADH deficiency

Answer 27

• Excess excretion of dilute urine resulting in dehydration and polydipsea (increased sensation of thirst)
• Represents cranial form of diabetes insipidus
• Very high sodium levels (hypernatraemia)
• Reduced consciousness, coma and death

Question 28

What are symptoms of hyperprolactinaemia

Answer 28

• Menstrual disturbance
• Fertility problems
• Galactorrhoea (milk secreted when not pregnant), erectile dysfunction
• Hypogonadism (diminished activity of gonads)
• Gynectomastia (hard breast tissue)

Question 29

What are the causes of hyperprolactinaemia

Answer 29

• Most commonly due to prolactinoma - pituitary adenoma that secretes prolactin
• Could also be pregnancy, suckling, stress, exercise, drugs

Question 30

What is the treatment of prolactinoma

Answer 30

• Dopamine agonist taken to shrink prolactinoma - no operation needed
  
  • Dopamine inhibits prolactin
• Eg. Cabergoline

Question 31

What are the symptoms of growth hormone excess

Answer 31

• Changes in physical appearance - broad nose, coarse facial features, thick lips, prominent supraorbital ridge (crest of bone on frontal bone of skull)
• Acromegaly
  
  • Large extremities - large hands and feet
  • Gigantism
  • Growth factor secreting tumour
  • Premature cardiovascular death, tumours, thyroid cancer, disfiguring body symptoms, hypertension

Question 32

What is the treatment for acromegaly

Answer 32

• Surgical removal of tumour
• Radiation therapy - shrink tumour
• Drug therapy - dopamine receptor agonists to reduce GH secretion
  - Synthetic somatostatin analogs to prolong suppression of GH secretion

Question 33

What does ACTH excess cause

Answer 33

Cushing’s disease