Hormonal regulation of metabolism

Question 1

what tissues are for fuel storage

Answer 1

1. liver and muscle: carbohydrates; glycogen
2. adipose: lipids; triglycerides
3. tissue and blood proteins: protein (no other storage form)

Question 2

what is the fuel usage time line

Answer 2

after 8 hr; liver glycogen is depleted
after 24 hr; TGs provide energy for all tissues except for the brain and RBC; protein degradation provides glucose for brain
Several days: OAA depleted as shunted for gluconeogenesis; AcCoA builds up as FA’s oxidized; Ketone bodies used as alternative fuel.

Question 3

what insures brain function

Answer 3

glucagon; releases fuel from liver glycogen and adipose tryglycerides.

Question 4

Epinephrine targets

Answer 4

adipose, liver and muscle

Question 5

what are longer term metabolic control hormones

Answer 5

1. Cortisol
2. Thyroid hormone
3. Leptin
4. Adiponectin
   - first is steroid hormone
   - second behaves like steroid hormone
   - last two made by adipose tissue and are protein hormones

Question 6

as fat stores increase adiponectin ___ whereas as fat stores increase leptin increases

Answer 6

decreases

Question 7

what does stress trigger

Answer 7

cortisol secretion; responds to hypothalmic/pituitary signals Hypothalamus secretes CRH into portal system, anterior pituitary secretes ACTH into systemic circulation, adrenal cortex responds with secretion of cortisol.

Question 8

Where does ACTH come from

Answer 8

a large precursor protein: made by a gene called Pro oplomelanocortin (POMC) gene

Question 9

What are features of cortisol

Answer 9

fuel mobilizer, elevates blood glucose, mobilizes fat, inc muscle protein catabolism, is well known for its anti inflammatory effects

Question 10

what is cushings syndrome

Answer 10

excess cortisol; weight gain of upper body and trunk, skin changes inc darkening of the skin and easy bruising, excess hair growth/acne in women, personality changes/mood swings and fatigue.

Question 11

what is addisons disease

Answer 11

cortisol deficiency; changes in BP or heart rate, chronic diarreah, darkening of the skin, paleness, extreme weakness and fatigue. Loss of apetite and mouth lesions on the buccal mucosa

Question 12

what happens if you have hyporthyroidism

Answer 12

cold sensitive, weight gain, fatigue, constipation, depression, brittle hair, and nails
congenital hypothyroidism: cretinism

Question 13

what is hyperthyroidism

Answer 13

heat sensitive, weight loss, exopthalmia, insomnia, diarrehea, tremor

Question 14

what is leptin

Answer 14

the “set point” hormone. when it gets knocked out you are hungry all the time. as fat tissue biulds up, more leptin produced to shut off hunger response

Question 15

what kind of receptor does leptin use

Answer 15

“orphan” receptor:

Question 16

what does leptin and insulin inhibit

Answer 16

production of oriexgenic neuropeptide Y which is a neurotransmitter that activates hunger response.

Question 17

leptin and insulin activate:

Answer 17

anorexigenic peptides which are derived from proopiomelanocortin (POMC)

Question 18

Receptor that responds to leptin is called

Answer 18

JAK/STAT receptor –> goes to nucleus and ponds to POMC and causes them to be inc in transcription

Question 19

Receptors bind and dimerize and recruit JAK kinase to them phosophorylates a transcription factor which goes into nucleus and activates:

Answer 19

anorexigenic peptides

Question 20

what is adiponectin

Answer 20

opp of leptin. Less FAT more adiponectin. Gets turned on as you lose weight thus low levels in obseity. Related to type 2 diabites. Inc sensitivity to insulin.

Question 21

what is a receptor for adiponectin

Answer 21

AMPK; major target for diabetic drugs. Impt in blood glucose regulation. Inc fatty acid and glucose uptake. Inc beta oxidation. Decreases gluconeogenesis and fatty acid synthesis. In summary, it inhibits energy consuming processes and activates energy producing processes

Question 22

what is a target for AMPK

Answer 22

acetyl CoA carboxylase which is first enzyme inv in FA synthesis and inactivates it.

Question 23

Excerise and AMP Kinase increases what

Answer 23

mobilize glut 4 transporters in membrane which lowers blood glucose levels. This is impt for diabetics

Question 24

what is the signaling mechanism for bacterial products

Answer 24

toll receptor/NFgammaB

Question 25

what is the signaling mech for glucocorticoids

Answer 25

transcriptional regulation

Question 26

what is the signaling mechanism for cytokines

Answer 26

JAK/STAT

Question 27

what is the signaling mechanism for thromboxane A2

Answer 27

serpentine/PKC

Question 28

what is the signaling mechanism for nitric oxide

Answer 28

guanylate cyclase/PKG

Question 29

what are toll receptors activated by

Answer 29

PAMPs such as lipopolysaccharide or flagella proteins; activates two major proinflammatory transcription factors: AP-1 and NFkB

Question 30

what is the NFkB pathway

Answer 30

IkB kinase phophorylates IkB which is inhibitor of NFkB. But when IkB gets phosphorylated it gets ubiquinated and degraded then NFkB enters the nucleus and enhances the expression of inflammatory proteins.

Question 31

what are some NFkB regulated genes

Answer 31

many interleukins, tumor necrosis factor alpha, cyclooxygenase, nitric oxide synthase, inhibitors of apoptosis, cyclin D and MMPs

Question 32

what do glucocorticouids do

Answer 32

go into nucleus and repress NFkB and AP-1 binding (you wont get inflammatory response) but enhance STAT

Question 33

what do glucocorticoids decrease transcription of

Answer 33

1. chemokines
2. cytokines
3. inducible enzymes
4. adhesion molecules

Question 34

what do glucorticoids increase transcription of

Answer 34

1. lipocortin
2. IkBa
3. MAPK phosphatase
4. beta 2 adrenergic receptors

Question 35

what is pathway for thromboxane A2 receptor and angiotensin II?

Answer 35

G protein (Gq)–> phospholipase C –> hydrolyzes phosphatidylinositol - 4,5 bisphosphate –> releases DAG and inositol 1, 4, 5, triphosphate (IP3) –> opens up Ca++ channels and DAG activates PKC

Question 36

what are some phospholipase C/IP3 mediated hormones

Answer 36

1. acetylcholine
2. glutamate
3. oxytocin/vasopressin
4. thryotropin releasing hormone
5. gonadotropin releasing hormone
6. thromboxane A2
7. Angiotensin II

Question 37

what is the receptor enzyme guanylate cyclase

Answer 37

its a hormone receptor; no G protein required. Ultimately activates cGMP dependent protein kinase (PKG). its important in BP regulation. important for smooth muscle and ion channels

Question 38

what are two types of guanylate cyclase

Answer 38

1. integral membrane proteins: activated by atrial natriuretic factor (ANF) and E. coli endotoxin
2. cytosolic protein with associated heme: activated by nitric oxide (NO)

Question 39

which aa is precursor for NO

Answer 39

argenine

Question 40

ANF goes to 2 places:

Answer 40

1. Kidneys: ANF binds type 1 GC receptor –> inc cGMP levels–>activates PKG which enhances Na+ channels which gets excreted and water gets excreted as well.
2. ANF receptors in vasculature, PKG targets Ca+ channels, which lowers cystolic Ca levels and dec smooth muscle contraction

Both even decrease BP

Question 41

Nitric oxide

Answer 41

first gas to be recognized as hormone.

• Free radical
• short half life
• “BP police”

Question 42

what is the basis for nitroglycerin’s action

Answer 42

NO: angina due to ischemia in area of heart muscle. Nitroglycerin is slowly degraded to NO which binds guanylate cyclase and inc cGMP levels which activates PKG which results in low cystolic Ca which causes relaxation of heart muscle

Question 43

what is cGMP phosphodiesterase

Answer 43

breaks down cGMP to halt signal from ANF or NO. Subtypes are inhibted by viagra, thus potentiating localized vasodilation