Exam 1 --Pt1 Intro to Endocrinology

Question 1

What is the endocrine system?

Answer 1

the system of ductless glands that synthesize and secrete chemical messengers (hormones) carried to target tissue by the blood

Question 2

The endocrine system is tightly coupled to what other system? And what are the both sometimes called together?

Answer 2

the nervous system

called the “neuroendocrine system”

Question 3

What are some of the chemical messengers that interact with one another and coordinate cells, tissues, and organs, to maintain homeostasis?

Answer 3

• NT (neuropeptides)
• endocrine hormones
• neuroendocrine hormones
• paracrines
• autocrines
• cytokines

Question 4

What two glands secrete their hormones primarily in response to neural stimuli?

Answer 4

the adrenal medulla (primarily NE) and pituitary gland

Question 5

Where are the three places that hormonal receptors are located?

Answer 5

• in the cell membrane (for peptide hormones)
• in the cell cytoplasm (for steroid hormones)
• in the cell nucleus

Question 6

What body functions do hormonal systems play a key role in regulating?

Answer 6

• metabolism
• growth and development
• H2O and electrolyte balance
• reproduction
• behavior

Question 7

What are the three levels that hormones act at?

Answer 7

1. Whole body level
2. Molecular level
3. cellular level

Question 8

At the Whole body level, what do hormones regulate and integrate?

Answer 8

• ionic and fluid balance
• E balance (metabolism)
• coping with env.
• growth and development
• reproduction

Question 9

At the molecular level, what do hormones regulate?

Answer 9

• gene transcription
• protein synthesis and degradation
• enzyme activity
• protein conformation
• protein-protein interaction

Question 10

At the cellular level, what do hormones regulate?

Answer 10

• cell division
• differentiation
• apoptosis
• motility
• secretion
• nutrient uptake

Question 11

What is a classical hormone?

Answer 11

one secreted by tissue, picked up by blood, and transported to other tissue

Question 12

What are three general classes of hormones?

Answer 12

1. Proteins and polypeptides
2. Steroids
3. Tyrosine derivatives (biogenic amines)

Question 13

Anterior and posterior pituitary hormones, insulin and glucagon, parathyroid hormone, and many others are examples of what class of hormones? Where are they stored in the cell?

Answer 13

proteins and polypeptides; stored in secretory vesicles until needed

Question 14

What is the precursor for all steroid hormones? Where are they stored? What are two examples?

Answer 14

cholesterol; they are NOT stored; Ex: cortisol and aldosterone

Question 15

What are three examples of Tyrosine derivatives?

Answer 15

• dopamine
• thyroxine (T4)/ triiodothyronine (T3)
• Norepinephrine/ epinephrine

Question 16

T/F. Onset of hormone secretion after stimulus is the same for all locations.

Answer 16

False

Question 17

What does the Adrenal medulla secrete (and it what ratio) and is it fast or slow?

Answer 17

epinephrine/NE in a 80:20 ratio; and it is rapid, w/in seconds

Question 18

How long does the effect take for Pituitary and Thyroid hormones?

Answer 18

it is slower, and may take months for full effect

Question 19

T/F. The concentration of hormones required for most functions is very large.

Answer 19

False–the conc. needed is usually very small; therefore rates of secretion are extremely small

Question 20

What type of feedback prevents over-activity of hormonal systems? What are the two variables that could be used to control this?

Answer 20

negative feedback; controlled via secretory rate or degree of activity of target tissue

Question 21

What levels can Negative feedback occur at?

Answer 21

• gene transcription
• gene translation
• steps in processing hormones
• steps in releasing stored hormones

Question 22

What is positive feedback control of hormones and give an example?

Answer 22

ass. with surges of hormone; Ex: Luteinizing hormone ass. with ovulation

Question 23

What is an example of a hormone ass. with a Diural cyclical variation ?

Answer 23

(diurnal = daily or circadian)

Growth hormone

Question 24

What is a gland and hormone involved in a seasonal cyclical variation?

Answer 24

(seasonal = circannual)

Pineal gland–> melatonin effect on reproduction in seasonal breeders (shuts down reproduction)

Question 25

What type of activity usually governs hormonal release and cyclical variation in hormone secretion?

Answer 25

due to changes in neural activity

Question 26

What type of hormones are water soluble and how are they transported?

Answer 26

Peptides and catecholamines; dissolve in plasma and transported from sites of synthesis to target tissue where diffuse out of capillaries–> ISF–> cells

Question 27

What hormones circulate through blood by being primarily bound to plasma proteins? Example?

Answer 27

Steroid and thyroid hormones; (<10% exists free in solution)

Ex: 99% of T4 in blood is bound to plasma protein

Question 28

How is the clearance of steroid and thyroid hormones affected due to being bound to plasma proteins? How do they get across capillaries?

Answer 28

greatly slows clearance of these hormones; serves as reservoirs; have to dissociate to diffuse across capillaries

Question 29

What two things will affect the hormonal concentration?

Answer 29

hormonal secretion and hormonal removal

Question 30

What is the “equation” for hormonal concentration?

Answer 30

= rate of secretion - rate of clearance

if rate of secretion > rate of clearance = conc. increases

if rate of secretion < rate of clearance = conc. decreases

Question 31

What is the “equation” for the Metabolic clearance rate (MCR)?

Answer 31

= rate of disappearance of hormone from plasma/ conc. of hormone

Question 32

What are four ways in which hormones are “cleared” from plasma?

Answer 32

1. metabolic/enzymatic degradation by the tissue
2. binding with the tissues
3. excretion by the liver into the bile
4. urinary excretion by the kidneys

Question 33

Clinical Note: What disease can cause abnormally high levels of steroid hormones and why?

Answer 33

liver disease; b/c these hormones are conjugated mainly by the liver and excreted in the bile

Question 34

Where are the 3 locations where hormonal receptors are located?

Answer 34

1. in/on the surface of the cell membrane
2. in the cell cytoplasm
3. in the cell nucleus

~# and sensitivity of hormone receptors are regulated

Question 35

What are four intracellular signaling pathways, after receptor activation?

Answer 35

1. ion channel-linked receptors
2. G protein-linked receptors
3. enzyme-linked receptors
4. intracellular receptors and activation of genes (for steroids)

~1-3 are primarily protein receptors

Question 36

What are second messengers?

Answer 36

• they are mechanisms for mediating intracellular hormonal function
• allow hormones that can’t cross the cell membrane (proteins/peptides) to affect intracellular fxns/processes
• create signal amplification

Question 37

What are four cell membrane receptors ass. with second messengers?

Answer 37

1. Adenylyl Cyclase- cAMP
2. Phospholipase C mechanism (IP3/Ca++)
3. Calcium-Calmodulin
4. Enzyme linked receptor

Question 38

Describe the way the Ca++ - calmodulin pathway works in smooth muscle.

Answer 38

Ca++ and calmodulin can combine and active MLCK–> will phosphorylate stuff and muscle contracts

Myosin phosphatase will dephosphorylate stuff and muscle relaxes

Question 39

What is the most common 2nd messenger pathway for mechanism of action of protein/peptide hormones?

What is second most common?

Answer 39

Adenylyl Cyclase (cAMP)

Phospholipase C (IP3/Ca++)

Question 40

What are the general steps for the Adenylyl Cyclase-cAMP pathway? (MC second messenger pathway)

Answer 40

Hormone binds to receptor on cell surface that is coupled with G protein –> alpha subunit binds and activated adenylyl cyclase–> which converts ATP into cAMP–> cAMP activates PKA–> which phosphorylates proteins and causes physiologic actions

Question 41

What inactivates cAMP (adenylyl cyclase)?

Answer 41

phosphodieesterase (which would stop the phosphorylation rxn and therefore the effect of the hormone)

Question 42

What are the general steps for the Phopholipase C (IP3/Ca++) pathway? (2nd MC second messenger pathway)

Answer 42

Hormone binds to receptor on cell surface–> HR complex coupled to Gq protein–> alpha-q–GTP complex migates w/in cell membrane and binds to and activates phospholipase C –> which frees IP3 and IP3 cuases release of Ca++ from ER–> Ca++ and diacylglycerol activate PKC–> which phsophorylates proteins and causes physiologic effects

Question 43

What do the Adenylyl cyclase (cAMP) and Phospholipase C pathways have in common? In other words, what is important for hormonal response?

Answer 43

they both require phosphorylation in order for the hormone to exert their effect

Question 44

What do 2nd messenger systems allow for that is significantly important?

Answer 44

signal amplification

Question 45

What are two hormones that can cross the membrane and act directly on genes? And what do they do?

Answer 45

1. Steroid hormones – increase protein synthesis

2. Thyroid hormones – increase gene transcription in nucleus

Question 46

What is the pathway for Steroid hormones acting directly on genes?

Answer 46

1. Steroid hormone binds to receptor in cytoplasm
2. H-R complex diffuses OR is transported into nucleus
3. binds to DNA–> transcription–> mRNA
4. mRNA diffuses into cytoplasm where translation occurs at ribosomes to form protein

Question 47

What is the pathway for Thyroid hormones acting directly on genes?

Answer 47

1. T3 and T4 bind directly to receptor proteins in nucleus
   - form many intracellular proteins (many are enzymes)
2. once bound to intranuclear receptors, can express control for days-weeks

Question 48

Glucocorticoids, estrogen, progesterone, testosterone, aldosterone, 1,25-Dihydroxycholecalciferol, and T3 and T4, are all what type of homrones?

Answer 48

steroid hormones

~recall: precursor = cholesterol

Question 49

GH, insulin, leptin, prolactin, vascular endothelial growth factor, hepatocyte growth factor, and fibroblast growth factor, are all what type of hormone?

Answer 49

require Tyrosine kinase

Question 50

What two hormones fall under the category of using Guanylyl Cyclase (cGMP)?

Answer 50

• Atrial natriuretic peptide

- Nitric oxide

Question 51

What three things influence the magnitude of hormonal responses?

Answer 51

1. Conc. of hormone at target cell membrane
2. Sensitivity of target cell to hormone
3. Number of functional target cells

Question 52

What 3 things does the conc. of hormone at target cell membrane depend on?

Answer 52

1. rate of secretion
2. rate of delivery via circulation
3. rate of degradation

Question 53

What 4 things does sensitivity of target cell to hormone depend on?

Answer 53

1. number of functional receptors
2. receptor affinity for the hormone
3. post receptor amplification
4. abundance of available effector molecules

Question 54

What three things influence the Duration of hormonal responses?

Answer 54

1. Duration of hormonal availability
2. Mode of production of cellular response
3. Rapidity of onset of compensatory changes

Question 55

When it comes to duration of hormonal availability what three things are taken into consideration?

Answer 55

• duration of secretion
• amount secreted
• half-life in the blood

Question 56

What are two ways the rapidity of onset of compensatory changes are influenced?

Answer 56

• counteracting responses (insulin vs glucagon)

- receptor desensitization or down regulation (turn down # receptors)

Question 57

What are two way to measure Hormones in blood?

Answer 57

1. Radioiummoassay (RIA)

2. Enzyme-linked immunosorbent assay (ELISAs)

Question 58

How is Radioimmunoassay (RIA) done?

Answer 58

• specific antibody to the hormone is produced
• radioactive labeled hormones
• hormone to be measured competes with labeled hormone for binding sites on antibody
• standard curve

Question 59

What is the relationship between % of antibody bound with radioactive antibody to hormone in test sample of the RIA standard curve?

Answer 59

increase the amount of hormone, then decrease the amount of radioactive hormone

Question 60

What are the advantages of ELISA?

Answer 60

• NO radioactive isotopes required
• easily automated
• cost effective
• accurate for assessing hormone levels
• method of choice for clinical labs

Question 61

What can ELISA be used to measure and how is it done?

Answer 61

• can be made to measure any protein
• combines specificity of antibodies with sensitivity of simple enzyme assays
• Quantified with colorimetric or fluorescent optical methods