Hypertension

Question 1

Why is blood P essential?

Answer 1

Distributes blood throughout body

Question 2

How is BP generated?

Answer 2

Beating of heart and resistance

Question 3

When is BP highest & lowest during the cardiac cycle?

Answer 3

Highest: Sysolic P
Lowest: Diastolic P

Question 4

What is a normal BP?

Answer 4

120/80

Question 5

What is a hypertensive BP range?

Answer 5

≥ 140/90

Question 6

What does high BP incr the risk of?

Answer 6

adverse cardiovascular outcomes

Question 7

What is the equation for BP?

Answer 7

Cardiac output x peripheral vascular resistance

Question 8

What 3 sites are targeted by drugs that treat high BP?

Answer 8

Heart (CO), resistance vessels, RAAS

Question 9

What does RAAS stand for?

Answer 9

Renin-Angiotensin-Aldosterone system

Question 10

Which section of the kidney is targeted by thiazide diuretics?

Answer 10

The distal convoluted tubule

Question 11

How do thiazides work?

Answer 11

Inhibit NaCl reabsorption by blocking Na/Cl cotransporters (NCC) which decr water reabsorption and blood V (also vasodilator)

Question 12

What is a commonly used thiazide?

Answer 12

Bendroflumethiazide

Question 13

What kind of receptors are adrenergic receptors?

Answer 13

GPCRs

Question 14

What is the major adrenergic receptor in the heart?

Answer 14

B1

Question 15

in cardiac muscle, what are 3 substrates for PKA?

Answer 15

1. L-type Ca channels (V-gated)
2. Ryanodine receptors
3. SERCA pumps

Question 16

what does activation of B1 adrenergic receptors cause in cardiac muscle cells?

Answer 16

incr Ca influx, release (CICR) and reuptake (incr F and decr time of contraction)

Question 17

what is a major receptor in the lungs and some vasculature (skeletal)?

Answer 17

B2 adrenergic receptors

Question 18

what does activation of B2 adrenergic receptors cause?

Answer 18

bronchial dilation, incr perfusion to skeletal muscle

Question 19

what is similar and different btwn B1 and B2 adrenergic receptors?

Answer 19

both Gs but have different effectors/substrates for PKA

Question 20

what is the major target for PKA in B2 signalling cascades?

Answer 20

myosin light chain kinase (MLCK)

Question 21

what is MLCK?

Answer 21

protein that enables contraction of smooth muscles

Question 22

what do V-gated L-type Ca channels do?

Answer 22

incr intracellular [Ca] from extracellular influx during heartbeat

Question 23

what do ryanodine receptors do?

Answer 23

incr [Ca] from intracellular stores during heartbeat

Question 24

what do SERCA pumps do?

Answer 24

reuptake Ca into ER stores at end of heartbeat (phospholamban: PKA target)

Question 25

what does phosphorylation of MLCK cause?

Answer 25

smooth muscle to relax (bronchial dilation, vasodilation)

Question 26

how can you remember that B1 receptors are in the heart and B2 are in the lungs?

Answer 26

“1 Heart, 2 Lungs”

Question 27

how does phosphorylation of MLCK cause muscle relaxation?

Answer 27

MLCK phosphorylates MLC for contraction, phosphorylated MLCK has inhibited phosphorylative activity and decr muscle contraction

Question 28

what are B-blockers?

Answer 28

competitive antagonists of adrenergic receptors (similar structure to agonists)

Question 29

what are the 2 anti-hypertensive effects mediated by B-blockers?

Answer 29

decr in CO and inhibition of renin secretion

Question 30

what drugs are given to treat hypertension (high BP)?

Answer 30

B-blockers

Question 31

what does inotropic refer to?

Answer 31

influences cardiac contractility (force)

Question 32

what does chronotropic refer to?

Answer 32

influences heart rate

Question 33

is the main effect of B1 adrenergic receptors inotropic or chronotropic?

Answer 33

inotropic

Question 34

what do non-specific B-blockers cause?

Answer 34

inhibit some a-adrenergic receptors which causes vasodilation

Question 35

what is a harm of B-blockers?

Answer 35

bronchospasm (B2 in bronchial smooth muscle) due to non-specific B-blockers (especially in ppl w asthma or resp issues)

Question 36

where are a-adrenergic receptors primarily?

Answer 36

in tissues that don’t require incr blood flow during flight-or-flight (intestine)

Question 37

what does stimulation of a-adrenergic receptors cause?

Answer 37

smooth muscle contraction (vasoconstriction)

Question 38

what does inhibition of a-adrenergic receptors cause?

Answer 38

vasodilation

Question 39

what kind of receptors are a-adrenergic?

Answer 39

Gq GPCR (PLC, PIP2)

Question 40

how does activation of a-adrenergic receptors cause vasoconstriction?

Answer 40

IP3 incr intracellular [Ca], interacts w calmodulin which binds to MLCK and incr phosphorylation of MLC (incr contractile F)

Question 41

what does DAG do in the cell to cause vasoconstriction?

Answer 41

DAG activates PKC which phosphorylates Rho kinase which inhibits MLCP (incr contraction)

Question 42

what does blocking a-adrenergic receptors cause?

Answer 42

vasodilation (decr smooth muscle contraction by decr MLCK and incr MLCP)

Question 43

what is an example of a B1 selective blocker?

Answer 43

atenolol

Question 44

what is an example of a non-selective B1/2 blocker?

Answer 44

propranolol (B2-lungs, can effect ppl w resp conditions)

Question 45

what is an example of a non-specific a/B adrenergic blocker?

Answer 45

carvedilol (decr peripheral R and CO)

Question 46

what are the agonist vs antagonist effects at the a1 receptor?

Answer 46

agonist: vasoconstriction (decr activity)
antagonist: vasodilation (incr activity)

Question 47

what are the agonist vs antagonist effects at the B1 receptor?

Answer 47

agonist: incr cardiac contractility and rate
antagonist: decr cardiac contractility and rate

Question 48

what are the agonist vs antagonist effects at the B2 receptor?

Answer 48

agonist: relaxation of airways and vascular smooth muscle
antagonist: constriction of airways and vascular smooth muscle

Question 49

what are 3 functions of the RAAS system?

Answer 49

regulates blood V, salt balance and BP

Question 50

what does the RAAS system include?

Answer 50

kidneys, adrenal cortex and vasculature

Question 51

what are the 4 key components of the RAAS biochemical pathway?

Answer 51

renin, ACE, AT2, aldosterone

Question 52

what is renin?

Answer 52

enzyme secreted by kidney that converts angiotensinogen to angiotensin 1 (AT1)

Question 53

what is ACE?

Answer 53

angiotensin converting enzyme that converts AT1 to AT2

Question 54

what is AT2?

Answer 54

vasoactive peptide that causes vascular smooth muscle constriction and aldosterone release

Question 55

what is aldosterone?

Answer 55

steroid hormone that promotes Na and H2O reabsorption in kidney (not pre packaged into vesicles)

Question 56

what stimulates release of renin?

Answer 56

B1 receptor activation (eg. NE)

Question 57

what would be the effect of B-blockers on renin secretion?

Answer 57

decr renin secretion (blocks B1 receptor in kidney)

Question 58

how does ACE primarily exist?

Answer 58

membrane bound protein in pulmonary capillary endothelium

Question 59

what receptor mediates effects of AT2?

Answer 59

AT2 receptor (type 1) - can be called AT1 receptor

Question 60

what kind of receptors are AT2 type 1 receptors?

Answer 60

Gq GPCR

Question 61

what are effects of AT2 binding to its receptor in adrenal cortex vs vascular smooth muscle?

Answer 61

AC: IP3 -> Ca release -> triggers release of aldosterone
VSM: Ca-CaM -> MLCK -> phos MLC -> vasoconstriction

Question 62

how does aldosterone incr Na and H20 reabsorption in distal convoluted tubule?

Answer 62

incr transcription of Na/Cl cotransporter (NCC), Na/K pump, epi Na channel (ENaC)

Question 63

what 2 drugs mediate the RAAS system?

Answer 63

ACE inhibitors, AT1 blockers (ARBs, AT2 type 1 receptor)

Question 64

what do ACE inhibitors do? ex?

Answer 64

prevents ACE from cleaving AT1 to AT2; captopril

Question 65

what is a common side effect ACE inhibitors? why?

Answer 65

dry cough; bradykinin-mediated bronchoconstriction (on-target)

Question 66

what do AT1 blockers do? ex?

Answer 66

inhibits vasoconstrictive effects of AT2 (vasodilation), decr aldosterone secretion; losartan

Question 67

are ACE inhibitors or ARBs better tolerated? why?

Answer 67

ARBs; act downstream of bradykinin (bypass bronchoconstriction/dry cough effects)

Question 68

what are aldosterone antagonists? ex?

Answer 68

competitive antagonist for aldosterone receptor; spironolactone

Question 69

what are the effects of aldosterone antagonists?

Answer 69

diuretic (incr H2O secretion)

Question 70

is it better or worse to use anti-hypertensive drugs together?

Answer 70

better, has additive effects

Question 71

what is used as a marker for overall health?

Answer 71

BP

Question 72

what type of receptors are B1 adrenergic receptors?

Answer 72

Gs GPCRs