Lecture 1: Intro to Endocrinology

Question 1

Which hormones arise from the Hypothalamus; what’s their main action?

Answer 1

• TRH: stimulates secretion of TSH and prolactin
• CRH: stimulates secretion of ACTH
• GnRH: stimulates secretion of LH and FSH
• Somatostatin: inhibits secretion of GH
• Dopamine: inhibits secretion of prolactine

Question 2

Which hormones arise from the Anterior Pituitary gland; main function of each?

Answer 2

• TSH: stimulates synthesis/secretion of thyroid hormones
• FSH: sperm maturation (males)/follicular dev. and estrogen synthesis (females)
• LH: testosterone synthesis (males)/ovulation, formation of corpus luteum, estrogen, and progesterone synthesis in ovaries (females)
• ACTH: synthesis and secretion of cortisol, androgens, aldoesterone
• MSH: melanin synthesis
• Growth Hormone: protein synthesis and overall growth
• Prolactin: milk production and secretion in breast

Question 3

Which hormones arise from the Posterior Pituitary; function of each?

Answer 3

• ADH: water reabsorption in principle cells of collecting ducts and constriction of arterioles
• Oxytocin: milk ejection from breasts and uterine contraction

Question 4

Which hormones arise from the Thyroid gland?

Answer 4

• T3, T4: skeletal growth; O2 consumption; heat prod.; protein, fat, and CHO utilization; perinatal maturation of CNS
• Calcitonin: decreases serum [Ca2+]

Question 5

How are protein and peptide hormones usually synthesized and describe their route to becoming active?

Answer 5

• Synthesized as preprohormones (not biologically active)
• Signal peptide removed in the ER to produce prohormone
• Once they are packed into vesicles they are cleaved by proteolytic enzymes generating the active form

Question 6

What can act as a stimulus for exocytosis of peptide/protein hormones from secretory vesicles?

Answer 6

• Increased intracellular Ca2+ caused by membrane depolarization
• Activation of GPCR’s, followed by increased cAMP and activation of PKA

Question 7

What are the steroid hormones?

Answer 7

• Cortisol
• Aldosterone
• Estradiol
• Progesterone
• Testosterone
• 1,25-dihydroxycholecalciferol

Question 8

The steroid hormones are synthesized and secreted from what 3 structures?

Answer 8

• Adrenal cortex
• Gonads
• Corpus luteum

Question 9

What are the 2 sources of cholesterol for the synthesis of steroid hormones?

Answer 9

• LDL particles taken up through receptor-mediated endocytosis
• De novo synthesis for acetyl CoA

Question 10

What are the genomic vs. nongenomic actions of steroid hormones?

Answer 10

Genomic (common theory): modulate gene transcription by interaction w/ intracellular, nuclear receptors

Nongenomic: rapid steroid actions. Specific-receptor-mediated actions or direct steroid-membrane interactions

Question 11

Where are amine hormones dervied from and what are the 2 classification groups; how does each group act on its receptor?

Answer 11

• Derived from tyrosine
  1) Catecholamines - act through cell-membrane associated receptors
  2) Thyroid hormones - cross cell membrane and act thru nuclear receptors

Question 12

What hormone comes from the Parathyroid gland and what is its function?

Answer 12

PTH: increases serum [Ca2+]

Question 13

What hormones are secreted by the Adrenal Cortex and what are their functions?

Answer 13

• Cortisol: stimulates gluconeogenesis; inhibits inflammatory response; suppresses immune response; enhances vascular responsiveness to catecholamines
• Aldosterone: increases renal Na+ reabsorption, K+ secretion, and H+ secretion
• DHEA: stimulates spermatogenesis; stimulates male secondary sex characteristics

Question 14

Which hormones are secreted from the Ovaries and Corpus Luteum; what are their actions?

Answer 14

• Estradiol: stimulates growth/development of female repro. system. follicular phase of menstrual cycle, dev. of breasts, prolactin secretion; maintains pregnancy
• Progesterone: stimulates luteal phase of menstrual cycle; maintains pregnancy

Question 15

What hormones are secreted from the placenta and what are their actions?

Answer 15

• HCG: stimulates estrogen and progesterone synthesis in corpus luteum of early pregnancy
• hPL: has growth hormone-like and prolactin-like actions during pregnancy
• Estriol: same actions of estradiol
• Progesterone

Question 16

Which hormones are secreted by the kidney and their actions?

Answer 16

• Renin: catalyzes conversion of angiotensinogen to angiotensin I
• 1,25-dihydroxycholecalciferol: increases intestinal absorption of Ca2+; bone mineralization

Question 17

How can the secretion of hormones be turned on and off?

Answer 17

1) Neural mechanism
2) Negative feedback: most common
3) Positive feedback: rare; leads to an explosive event (i.e., menstrual cycle, delivery of fetus)

Question 18

What is long-loop feedback?

Answer 18

Hormone released from the 3rd tier (peripheral endocrine gland) feeds back all the way to the 1st tier (hypothalamus) and 2nd tier (pituitary)

Question 19

What is short-loop feedback?

Answer 19

Hormone secreted from the 2nd tier feeds back to the 1st tier

Question 20

What is ultra short-loop feedback?

Answer 20

Glands inhibits its own secretion

Question 21

What are the 3 endocrine axes?

Answer 21

1) HPA = Hypothalamus - Pituitary - Adrenal gland
2) HPT = Hypothalamus - Pituitary - Thyroid gland
3) HPG = Hypothalamus - Pituitary - Gonads

Question 22

What is response driven feedback; what is an example of this involving insulin?

Answer 22

• Secretion of a hormone is stimulated or inhibited by a change in the level of a specific extracellular signal
• Insulin regulates blood glucose levels. In turn, blood glucose concentrations turns on or off insulin secretion.

Question 23

How is the first tier of the endocrine axes regulated and what are the major inputs?

Answer 23

• Highly regulated by neural inputs to the hypothalamus
  1) Suprachiasmatic nucleus (SCN): impose a circadian rhythm on the secretion of hypothalamic releasing hormones and endocrine axes
  2) Pineal gland: releases melatonin which feedback to the SCN information about day-night

Question 24

Describe Up-regulation in regards to a low level of circulating hormones

Answer 24

• Increases receptor # or sensitivity of target tissue when hormone levels are low:
• Increase in the synthesis of new receptors
• Decrease in the degradation of existing receptors
• Activating receptors

Question 25

Describe Down-regulation in regards to when circulating levels of hormones are high.

Answer 25

• Reduce receptor # or sensitivity of the target tissue when hormone levels are high for an extended period of time
• Decrease in the synthesis of new receptors
• Increase in the degradation of existing receptors
• Inactivating/desensitizing receptors

Question 26

What is the 1st messenger, primary effector, 2nd messenger, and secondary effector in the Adenylyl cyclase mechanism?

Answer 26

1st messenger: hormones (ACTH, LH, FSH, TSH, glucagon)

Primary effector: adenylyl cyclase

2nd messenger: cAMP

Secondary effector: PKA

Question 27

What is the 1st messenger, primary effector, 2nd messenger, and secondary effector in the Phospholipase C mechanism?

Answer 27

1st messenger: hormones (GnRH, TRH, GHRH, oxytocin)

Primary effector: phospholipase C

2nd messenger: IP3/DAG/Ca2+

Secondary effector: PKC or calmodulin

Question 28

What are hormone examples for the Steroid hormone mechanism, second messenger, act through what, and final result?

Answer 28

• Thyroid hormones, glucocorticoids, aldosterone, estrogen, testosterone, etc.
• No second messenger
• Act through cytosolic/nuclear receptors
• Hormone-receptor complex acts as a transcription factor

Question 29

What is the E domain and C domain of nuclear receptors for steroid binding?

Answer 29

E domain: steroid hormone binding domain

C domain: highly conserved, has 2 zinc fingers, responsible for DNA binding

Question 30

What is the 1st messenger, primary effector, 2nd messenger, and secondary effector of the Guanylyl cyclase mechanism?

Answer 30

1st messenger: hormones (ANP and NO)

• ANP acts thru receptor w/ guanylyl cyclase activity
• NO diffuses to cytosol and activates cytosolic guanylyl cyclase

Primary effector: guanylate cyclase

2nd messenger: cGMP

Secondary effector: PKG

Question 31

What are receptor tyrosine kinases?

Answer 31

• Have intrinsic tyrosine kinase activity within the receptor molecule
• When activated, the intrinsic tyrosine kinase phosphorylates itself and other proteins
• Examples: nerve growth factor and epidermal factor receptors. Insulin and insulin-like growth receptors

Question 32

What are Tyrosine kinase-assocated receptors?

Answer 32

• Associated non-covalently to proteins that have tyrosine kinase activity (i.e., JAK)

Question 33

What are mass lesions?

Answer 33

Enlargement of the endocrine organ due to an underlying neoplasia or hyperplasia