Exam 2: Growth Hormone

Question 1

Where is GH produced/released?

Answer 1

GH produced/released from anterior pituitary

Question 2

What stimulates the release of GH from the anterior pituitary? And where does it come from?

Answer 2

GHRH (growth hormone releasing hormone) released from the hypothalamus

Question 3

What inhibits the release of GH?

Answer 3

Somatostatin

Question 4

What target organs does GH act on?

Answer 4

Many but liver, muscle, fat, bone, etc

Question 5

When GH stimulates the liver what does the liver then release?

Answer 5

IGF-1 (which then goes to act on muscle, fat, bone, etc)

Question 6

GH is made from what type of hormone-producing cells?

Answer 6

Somatotrophs (which are the most abundant type)

Question 7

What do malignant somatotrophs often produce?

Answer 7

GH and prolactin (often due to pituitary adenoma)

Question 8

Why would malignant somatotrophs produce both GH and prolactin when prolactin is produced by lactotrophs?

Answer 8

GH, prolactin, and human chorionic lactotrophs are considered of the same family

GH can act on prolactin receptors as GH and prolactin share 40% of amino acid sequence homology

Question 9

While a pituitary adenoma can increase release of GH and prolactin, why does it decrease release of TSH, ACTH, and gonadotropins (FSH and LH)?

Answer 9

A pituitary adenoma can compress the infundibulum (thus hypophyseal vein) decreasing hypothalamic hormonal stimulation of anterior pituitary hormone release (TSH, ACTH, and gonadotropins)

Question 10

If the infundibulum is compressed, why would prolactin release be increased?

Answer 10

Prolactin release is suppressed by dopamine from the hypothalamus so if the infundibulum is compressed there is less dopamine getting to anterior pituitary so less inhibition of prolactin, thus more prolactin release

Question 11

Pathway of GH from start to finish?

Answer 11

Arcuate nucleus of hypothalamus releases GHRH into hypophyseal portal system

Then GHRH transported to somatotrophs in anterior pituitary which then releases GH to secondary capillary plexus

Then GH travels to target organs of the body

Question 12

Somatostatin inhibits the release of GH. Where is somatostatin released from in the hypothalamus?

Answer 12

periventricular nucleus

Question 13

So GHRH is released from what? And somatostatin is released from what?

Answer 13

hypothalamus- arcuate nucleus

hypothalamus- periventricular nucleus

Question 14

GH and IGF-1 have positive feedback on what?

Answer 14

periventricular nucleus of hypothalamus so release somatostatin to inhibit GH release from anterior pituitary

Question 15

GH and IGF-1 have neg feedback on what?

Answer 15

arcuate nucleus of hypothalamus so inhibit release of GHRH thus inhibit GH release from anterior pituitary also neg feedback directly on anterior pituitary (see image)

Question 16

What is the result of GH deficiency in childhood?

Answer 16

dwarfism

Question 17

Causes of GH deficiency in childhood?

Answer 17

congenital functional defect or structural damage of hypothalamus or pituitary

Question 18

What causes GH deficiency in adulthood?

Answer 18

acquired, not by genetic reasons

tumors destroying/compressing infundibulum

pituitary structural damage of pituitary or hypothalamus

Question 19

What is the purpose of GH in childhood?

Answer 19

linear growth (soft tissue, visceral organ, muscle, bone) in growing ages

Question 20

What is the purpose of GH in adulthood?

Answer 20

maintain lean body mass in adulthood

Question 21

While GH is very important in childhood growth, what is important in fetal growth?

Answer 21

IGF-1 (late fetal growth: triggered by insulin not GH) and IGF-2 (early fetal growth)

so GH deficient infants have normal birth lengths

Question 22

How does GH achieve its goals of growth and maintenance of lean body mass?

Answer 22

cell proliferation and energy metabolism

Question 23

GH predisposes cell metabolism to enhance lean body mass production by what three ways?

Answer 23

utilize fat as the main energy source

maximize protein deposition for lean body mass

earmark glucose for the use by the brain

(this is why GH receptors are in almost all tissues)

Question 24

What organs/tissues contain the most GH receptors?

Answer 24

liver and cartilage

Question 25

The action of GH on fat (utilization of fat as the main energy source so lipolysis and fatty acid release) is antagonistic to what?

Answer 25

insulin

Question 26

What would you expect in your GH deficient patient in regards to fat?

Answer 26

elevated plasma LDL

elevated plasma triglyceride

premature atherosclerosis, thus elevated cardiovascular morbidity

mild obesity (increased fat mass)

Question 27

What would you expect least in your GH deficient patient in regards to fat?

Answer 27

decreased plasma HDL because GH does not down regulate this

Question 28

The action of GH maximizing protein deposition for lean body mass is synergistic to the action of what?

Answer 28

insulin

Question 29

What would you expect in your GH deficient patient in regards to protein?

Answer 29

GH should strengthen muscles so:

reduced skeletal muscle cross sectional area

muscle weakness

decreased plasma urea levels

decreased myocardial contractility

decreased exercise performances

decreased left ventricle mass index and internal diameter

Question 30

What would you expect least in your GH deficient patient in regards to protein?

Answer 30

Increased pulmonary capacity

Question 31

The action of GH on glucose metabolism is antagonistic to what?

Answer 31

insulin

Question 32

So GH and insulin counteract each other in regards to glucose metabolism so what happens when there is a pathologic excessive chronic GH release?

Answer 32

action of insulin to decrease plasma glucose is overpowered by GH’s action to increase plasma glucose…thus you get insulin resistance so diabetogenesis

Question 33

Should you treat diabetic patient with GH?

Answer 33

No, they are already hyperglycemic and the action of GH is to increase plasma glucose

Question 34

At what time of day could hyperglycemia of DM patients be super severe?

Answer 34

morning following nocturnal GH release

Question 35

Is the release of GH constant or pulsatile? And when is it at its greatest?

Answer 35

Pulsatile

Throughout the night

Question 36

What would you expect in your GH deficient patient in regards to glucose metabolism?

Answer 36

decreased fasting glucose levels

decreased insulin secretion

increased hepatic glucose production

Question 37

How does GH achieve its goals of growth through IGF-1?

Answer 37

GH stimulated release of IGF-1 from liver increases cell proliferation via a insulin-like metabolic action (but this is insufficient to override GH’s direct effect on glucose and fat) and proliferative action on body organs such as muscle, bone, soft tissue, visceral organs (so synergistic action with GH in amino acid metabolism to build muscles)

Question 38

Action of GH and IGF-1 action in regards to fat and glucose metabolism is antagonistic or synergistic?

Answer 38

Antagonistic (IGF-1 action is insufficient to override GH’s direct effect on glucose and fat)

Question 39

Action of GH and IGF-1 action in regards to protein/amino acid metabolism is antagonistic or synergistic?

Answer 39

Synergistic

Question 40

Want a nice visual of GH action?

Answer 40

See image

Question 41

What measurements are used to dx GH disturbances?

Answer 41

glucose and insulin

Question 42

List four main actions of GH?

Answer 42

increase plasma fatty acid for energy source

decrease plasma amino acids by increasing uptake into tissues to build muscle

increase plasma glucose for the brain

promote body growth and repair

Question 43

Things that would increase GH secretion?

Answer 43

See image

Question 44

Things that would decrease GH secretion?

Answer 44

See image

Question 45

What are some clinical signs of GH deficiency?

Answer 45

fatigue

weakness

decreased energy level

mild obesity

decreased muscle mass

high LDL levels

decreased cardiac function

decreased insulin sensitivity

etc

Question 46

How could you test if your patient is GH deficient?

Answer 46

Insulin challenge:

Inject insulin into pt

Injecting insulin into healthy pt would inc GH

Injecting insulin into GH deficient pt would not change anything/no inc in GH

Question 47

Insulin challenge to test for GH deficiency is contraindicated in what patients?

Answer 47

ischemic heart disease

epilepsy

elderly patients

Question 48

Define acromegaly in regards to GH release?

Answer 48

excessive and sustained GH release even during the day (normally just elevated at night)

Question 49

What are the three main causes of excess GH?

Answer 49

pituitary adenoma

extra pituitary tumor (pancreatic islet cell tumor, lymphoma, iatrogenic)

excess GHRH (pancreatic islet tumor, bronchial carcinoid, small lung cancer, adrenal adenoma)

Question 50

Excess GH in kids results in?

Answer 50

Gigantism

Question 51

Excess GH in adults results in?

Answer 51

Acromegaly

Question 52

What are the facial features of acromegaly?

Answer 52

increase frontal bossing (enlargement of sinuses)

increase in base of nose

thickening of nano-labial sulcus and lips

parotid hypertrophy

loss of oval facial features

worsening of prognathism (the positional relationship of the mandible or maxilla to the skeletal base where either of the jaws protrudes beyond a predetermined imaginary line in the coronal plane of the skull)

wide tooth spacing

Question 53

What are more features of acromegaly?

Answer 53

hypertrophy of soft tissue (thickened tongue and skin, increased skin-folds, enlarged visceral organs particularly the liver and spleen)

HTN if CO is decreased due to cardiomegaly

enlargement of hands and feet

oily skin texture

peripheral neuropathy and pain by connective tissues compressing nerves (i.e. carpal syndrome)

insulin resistance

degenerative joints

deepening voice and sleep apnea (due to soft tissue growth in pharynx)

malignant polyps and colon cancer

Question 54

What is the mortality of patients with acromegaly?

Answer 54

2-3x increase in mortality

Question 55

If the cause of acromegaly is enlarged anterior pituitary, what other features can you see?

Answer 55

headache

peripheral vision loss

double vision

other anterior pituitary deficits that can cause: impotence, fatigue, amenorrhea, and galactorrhea

Question 56

How is acromegaly dx?

Answer 56

measure IGF-1

if elevated, then do glucose intolerance test and GH measure

if this shows inadequate GH suppression, then do pituitary MRI

MRI may show pituitary mass (dx: GH secreting adenoma)

but if not, do chest abdominal CT and GHRH measure (dx: extra pituitary acromegaly)

Question 57

What is the initial test you would order if you suspect acromegaly?

Answer 57

IGF-1 level