4) Hypothalamic Axis

Question 1

What was the basis of our thinking about nature until the 18th century?

Answer 1

• Four qualities
• Four elements
• Four seasons
• Four humours

Question 2

How did Aristotle describe the pituitary gland 2000 years ago?

Answer 2

The major connection between the brain and body, through which the four essential humours pass (from brain to body)

Question 3

What did Rathke describe in the 19th century?

Answer 3

The two parts of the pituitary (anterior and posterior)

Question 4

What did Pierre Marie discover in 1886?

Answer 4

The association between pituitary tumours and acromegaly

Question 5

What did Cushing uncover in 1909?

Answer 5

• Removed part of the pituitary in an acromegaly patient and noticed improvement
• Pioneered modern neurosurgical techniques

Question 6

What did Evans and Long show in 1922?

Answer 6

• That injection of crude extracts of the pituitary gland in animals causes increased growth
• Leads to the discovery of growth hormone

Question 7

The pituitary is the conductor of the endocrine orchestra. Is this statement true or false?

Answer 7

False, as the pituitary is itself controlled by the nervous system via the hypothalamus

Question 8

How does the size of the pituitary vary during pregnancy?

Answer 8

The size increases (by 30%) during pregnancy

Question 9

What encloses the pituitary gland?

Answer 9

Bony matrix (sella turcica of the sphenoid bone)

Question 10

What nervous structure is situated close to the pituitary, and is affected when the pituitary expands?

Answer 10

• The optic chiasma and optic nerves

- When the pituitary expands, it tends to push on the optic nerves, causing visual-type effects

Question 11

What is the adenohypophysis?

Answer 11

Anterior pituitary

Question 12

What is the neurohypophysis?

Answer 12

Posterior pituitary

Question 13

Which ectodermal components form the hypothalamo-hypophyseal tract?

Answer 13

They are formed of two DIFFERENT ectodermal components

Question 14

How does the anterior pituitary develop?

Answer 14

• Rathke’s pouch

- The outgrowth of the buccal cavity detaches itself, and becomes the anterior pituitary

Question 15

The anterior pituitary undergoes (invagination/evagination) during development.

Answer 15

Evagination

Question 16

The posterior pituitary undergoes (invagination/evagination) during development.

Answer 16

Invagination

Question 17

How does the posterior pituitary develop?

Answer 17

The infundibulum develops from the outgrowth of the neuroectoderm from the floor of the third ventricle

Question 18

The outgrowth of the neuroectoderm from the floor of the third ventricle gives rise to which structures?

Answer 18

• Pituitary stalk
• Median eminence
• Posterior pituitary

Question 19

Which ventricle is the posterior pituitary derived from?

Answer 19

Third ventricle

Question 20

Do the anterior and posterior pituitary grow towards or away from each other?

Answer 20

They grow towards each other, and at some point they come into contact

Question 21

What is Rathke’s pouch?

Answer 21

Evagination at the roof of the developing mouth, forming the anterior pituitary

Question 22

How is the hypothalamus organized?

Answer 22

• Into discrete nuclei
• Producing specific factors to stimulate anterior pituitary, or are associated with the release of hormones from the posterior pituitary

Question 23

How is the anterior pituitary axis vascularized?

Answer 23

• A capillary bed is contained at the hypothalamus, allowing hormones to be transported to the anterior pituitary (hypophyseal portal system)
• A capillary bed is contained within the anterior pituitary, allowing the hormone to be secreted into circulation

Question 24

How may hormones from the anterior pituitary cause a short negative feedback loop on the hypothalamus?

Answer 24

They may be retroactively brought back to the hypothalamus

Question 25

What does the hypothalamus release to the anterior pituitary?

Answer 25

Releasing and inhibiting hormones

Question 26

What does the hypothalamus release to the posterior pituitary?

Answer 26

Vasopressin and oxytocin

Question 27

What nuclei are responsible for the posterior pituitary?

Answer 27

• Paraventricular nucleus

- Supraoptic nucleus

Question 28

What do neurosecretory neurons from the paraventricular nucleus secrete? Where are the axon termini located?

Answer 28

• Oxytocin (packed into granules)

- Posterior pituitary

Question 29

What do neurosecretory neurons from the supraoptic nucleus secrete? Where are the axon termini located?

Answer 29

• Vasopressin (packed into granules)

- Posterior pituitary

Question 30

What is the mechanism of synthesis and release of hormones from the posterior pituitary?

Answer 30

1) Hormones are produced in the cell bodies of neurons located in the hypothalamus
2) The hormones are packaged into granules and migrate to the posterior pituitary via their axons
3) Stimulation of neurons in the hypothalamus triggers the release of hormones from the axon tips in the posterior pituitary
4) Hormones are taken up by capillaries and enter the bloodstream

Question 31

What is the difference between the neurosecretory neurons connected to the anterior and posterior pituitary?

Answer 31

• Releasing hormones are released into a capillary bed, which are transported to the anterior pituitary to stimulate/inhibit hormone release
• Hypothalamic neurons synthesize hormones, which are stored in the posterior pituitary for release upon stimulation

Question 32

In terms of the anterior pituitary, axon terminals of hypothalamic neurons release hypophysiotropic hormones in which area?

Answer 32

Median eminence

Question 33

How do hormones released into the capillary bed from the hypothalamus travel to the anterior pituitary?

Answer 33

Via the portal vein

Question 34

The pituitary hormones enter the bloodstream via the _______ capillaries.

Answer 34

venous

Question 35

How were the discrete bundles of nuclei in the hypothalamus discovered?

Answer 35

By ablation (destruction of the nuclei)

Question 36

What was the Halasz knife originally used for?

Answer 36

To selectively destroy areas of the brain to observe the function of nuclei (ablation)

Question 37

What are nuclei?

Answer 37

Refers to the cell bodies of the neurons which produce the hypothalamic hormones

Question 38

What nuclei are responsible for the anterior pituitary?

Answer 38

Hypothalamic-hypophysiotropic nuclei

Question 39

Which areas of the brain does the hypothalamus receive signals from?

Answer 39

• All areas of the brain

- The hypothalamus integrates the information

Question 40

What does the relay of signals to the hypothalamus involve?

Answer 40

Several neurotransmitters

Question 41

What indicates a certain level of autonomy of the anterior pituitary from the hypothalamus?

Answer 41

The very low levels of basal GH, FSH, and LH excretion

Question 42

What input signals does the hypothalamus receive and integrate?

Answer 42

• Sleep/wake
• Pain
• Emotion, fright, rage, smell
• Vision

Question 43

What signals does the posterior pituitary regulate?

Answer 43

• Heat regulation (temperature)

- Water balance

Question 44

What signals does the anterior pituitary regulate?

Answer 44

• Metabolic stress
• Stress response
• Growth
• Reproduction
• Lactation

Question 45

What cells of the anterior pituitary secrete GH?

Answer 45

Somatotrophs

Question 46

What cells of the anterior pituitary secrete prolactin?

Answer 46

Mammotrophs

Question 47

What cells of the anterior pituitary secrete TSH?

Answer 47

Thyrotrophs

Question 48

What cells of the anterior pituitary secrete LH and FSH?

Answer 48

Gonadotrophs

Question 49

What cells of the anterior pituitary secrete ACTH?

Answer 49

Corticotrophs

Question 50

Which anterior pituitary cells are the most common? Which are the least common?

Answer 50

• Most common: somatotrophs

- Least common: thyrotrophs

Question 51

What are the products of corticotrophs?

Answer 51

• ACTH

- B-lipotropin

Question 52

What are the targets of corticotrophs? (3)

Answer 52

• Adrenal gland
• Adipocytes
• Melanocytes

Question 53

What are the products of thyrotrophs?

Answer 53

TSH

Question 54

What is the target of thyrotrophs?

Answer 54

Thyroid gland

Question 55

What are the products of gonadotrophs?

Answer 55

• LH

- FSH

Question 56

What is the target of gonadotrophs?

Answer 56

Gonads

Question 57

What is the product of somatotrophs?

Answer 57

GH

Question 58

What are the targets of somatotrophs?

Answer 58

• All tissues

- Liver

Question 59

What is the product of lactotrophs?

Answer 59

Prolactin

Question 60

What are the targets of lactotrophs?

Answer 60

• Breasts

- Gonads

Question 61

Which anterior pituitary cells are basophils?

Answer 61

• Thyrotrophs
• Gonatotrophs
• Corticotrophs

Question 62

Which anterior pituitary cells are acidophiles?

Answer 62

• Somatotrophs

- Lactotrophs

Question 63

What is the difference between basophils and acidophils?

Answer 63

• Basophils are heavily glycosylated

- Acidophils are less modified post-translationally

Question 64

What is the major function of TRH?

Answer 64

Stimulates the release of TSH and prolactin

Question 65

What is the major function of GnRH?

Answer 65

Stimulates the release of LH and FSH

Question 66

What is the major function of GHRH?

Answer 66

Stimulates the release of GH

Question 67

What is the major function of somatostatin?

Answer 67

Inhibits the release of GH

Question 68

What is the major function of CRH?

Answer 68

Stimulates the release of ACTH

Question 69

What is the major function of dopamine, in terms of anterior pituitary hormone release?

Answer 69

Inhibits the release of prolactin

Question 70

Describe the half-life and the mechanism of action of hypothalamic hormones affecting the anterior pituitary.

Answer 70

• Short half-life and fast action

- They travel short distances (hypothalamus to the anterior pituitary)

Question 71

How do hypothalamic hormones affect the anterior pituitary, stimulating the release of hormones?

Answer 71

• Hormones bind to receptors of target cells in the anterior pituitary
• Trigger the release (exocytosis) of stored hormone granules

Question 72

How does post-receptor intracellular signalling occur when hypothalamic hormones affect the anterior pituitary?

Answer 72

G-protein intracellular signalling

Question 73

What G-protein subtypes do trophic hormones use? What does that lead to?

Answer 73

• Gas and Gaq proteins

- Leads to increased Ca2+ levels and exocytosis of hormones granules

Question 74

What G-protein subtypes do inhibitory hormones use?

Answer 74

Gai and other mechanisms

Question 75

What are two inhibitory hormones secreted by the hypothalamus?

Answer 75

• Somatostatin

- Dopamine

Question 76

What is Tier 1 of the hypothalamic-pituitary axis?

Answer 76

• Hypothalamus

- Hypothalamic hormones

Question 77

What is Tier 2 of the hypothalamic-pituitary axis?

Answer 77

• Pituitary

- Paracrine cytokines and growth factors

Question 78

What is Tier 3 of the hypothalamic-pituitary axis?

Answer 78

• Target gland

- Peripheral hormones

Question 79

What do hypothalamic hormones depend on, due to their short half-life?

Answer 79

Renewal of stimulus

Question 80

Describe the release of hypothalamic hormones.

Answer 80

• Release is pulsatile

- The treatment of infertility with GnRH requires administration in pulses with a defined frequency

Question 81

What is the major function of the pineal gland?

Answer 81

Integrates information encoded by light into secretions that underlie biological rhythmicity

Question 82

Where is the pineal gland located? What is its shape?

Answer 82

• Located in proximity to the hypothalamus

- Pine cone shaped, about the size of a grain of rice

Question 83

What is the major hormone secreted by the pineal gland?

Answer 83

Melatonin

Question 84

What is melatonin synthesized from?

Answer 84

Tryptophan

Question 85

How does melatonin change with age?

Answer 85

The absolute concentration of melatonin is highest in children, and decreases with age

Question 86

Describe the circadian rhythm of melatonin secretion.

Answer 86

• The pineal gland begins producing melatonin in the evening
• Melatonin levels peak in the middle of the night
• Melatonin levels decline to low daytime amounts in the morning

Question 87

Light is (stimulating/inhibitory) to the formation of melatonin.

Answer 87

inhibitory

Question 88

What is the major function of the suprachiasmatic nucleus (SCN)?

Answer 88

• Circadian pacemaker (“clock”)
• Controls circadian rhythm of many physiological functions, including the pineal gland
• SCN has melatonin receptors

Question 89

Describe the synthesis of melatonin.

Answer 89

• An electrical transmission stimulates the release of norepinephrine, which binds to B-adrenergic receptors on a pinealocyte
• Activation of G(alpha)s increases cAMP, resulting in the conversion of tryptophan to melatonin

Question 90

What are other functions of the pineal gland?

Answer 90

• Induction of sleep
• Depression of reproductive activity (inhibition of ovulation and semen production in some animals)
• Seasonal fluctuations may affect the timing of breeding, migration, and hibernation in mammals
• Antioxidant
• Enhancement of immunity

Question 91

Where are melatonin receptors found?

Answer 91

• Almost everywhere in the human body
• The functional role of melatonin acting on its receptors in humans remains (except for the circadian and sleep-promoting effects) unclear

Question 92

What are uses for melatonin?

Answer 92

• Adjustment of jet-lag

- Sleeping aid in the elderly

Question 93

What are adverse side effects of melatonin? (5)

Answer 93

• Daytime sleepiness
• Hypothermia
• Desensitization of melatonin receptors, if doses too high
• Possible adverse effects in those with seizure disorders
• Possible interaction with those taking coumadin/warfarin

Question 94

Self-rated jet lag can be reduced, on average, by __%.

Answer 94

50

Question 95

What is the basis of chronotherapy?

Answer 95

Our bodies respond differently to medications during different times in the day

Question 96

What is chronotherapy used for to maximize effectiveness in relation to biological rhythms?

Answer 96

Timing of medication, surgery, and chemotherapy

Question 97

When should asthma medication be taken?

Answer 97

Early in the morning

Question 98

When should arthritis medication be taken?

Answer 98

• Late in the day

- Cortisol rises at night, which means that arthritic pain is less bad in the morning

Question 99

When should breast cancer surgery occur?

Answer 99

• After ovulation (luteal phase) when progesterone levels are high, and estrogen levels are low
• Estrogen is a problem in many types of breast cancer (powerful mitogen)