nerve/mm/cell communication

Question 1

what is endocrine signaling? example?

Answer 1

source of the signal is distant from the target, signal travels in blood, insulin

Question 2

what is paracrine signaling?

Answer 2

cells release signals that affect neighboring cells

Question 3

examples of paracrine signaling (2)

Answer 3

1- vascular endothelial cells secrete vasodilators and vasoconstrictors that act on the neighboring smooth muscle
2- tumor derived growth factors bind nearby epithelial cells to trigger blood vessel formation

Question 4

what is juxtracrine signaling? example?

Answer 4

cells in very close proximity or direct contact, glial cells guiding axons during nervous system development

Question 5

what is autocrine signaling?

Answer 5

cell responds to a signal that it has generated

Question 6

what is an example of autocrine signaling?

Answer 6

stimulation of the EGFR receptor leads to increased levels of VEF, VEGF leaves the cell and binds to different receptors on the same cell

Question 7

what is intracrine signaling? what type of receptor is required?

Answer 7

cell responds to a signal that it generated without the signal leaving the cell, intracellular receptor is required

Question 8

what is an example of intracrine signaling?

Answer 8

estrogen-like molecules enter cell and encounter enzymes in the cell that change the molecules into signals that active receptors inside the cell

Question 9

what are the 4 basic steps of signal transduction

Answer 9

signal released
signal binds receptor
transduction
response

Question 10

what are ligand gated ion channels?

Answer 10

ligand binds to receptor causing a conformational change that opens or closes the ion channel

Question 11

describe the GABA receptor

Answer 11

GABA is an inhibitory neurotransmitter, when GABA binds to GABA receptors, it opens Cl- channel, Cl- enters the cell and hyperpolarizes

Question 12

describe IP3

Answer 12

IP3 binds IP3 channel on SER in smooth muscle, this allows Ca to leave SER and enter cytoplasm

Question 13

describe RyR

Answer 13

RyR is on SER, when activated it causes release of Ca from RER to increase cytosolic Ca

Question 14

describe K(ATP)

Answer 14

K(ATP) channel is inhibited when ATP binds, this leads to depolarization that allows for Ca release, that causes insulin release from b-cells

Question 15

what is the neurotransmitter in skeletal muscle?

Answer 15

acetylcholine

Question 16

what receptors do ACh bind on skeletal muscle?

Answer 16

nicotinic ACh receptors

Question 17

describe what happens when ACh binds nicotinic receptors on skeletal muscle

Answer 17

ACh binds nicotinic receptors, this opens the Na channels in the receptor and Na flows into cell causing depolarization, wave of depolarization travels on membrane to T-tubule where it contacts DHP receptor, DHP receptor is activated and it activates RyR-1 receptor (which is physically linked) and RyR-1 opens to release Ca from SER, Ca binds to troponin-C allowing for the myosin-binding sites on actin to be exposed

Question 18

3 general ways that signal termination occurs with ligand-gated ion channels

Answer 18

inactivation of receptors, inactivation of ion channels and membrane transporters (like SERCA)

Question 19

describe the basic structure of a G-protein receptor

Answer 19

7 membrane spanning domains, g protein with 3 subunits (a,b,y)

Question 20

describe general action of g-protein linked receptor

Answer 20

signal binds to G-protein receptor on membrane, G-protein receptor activated G-protein by GDP –> GTP, activated G-protein dissociates from receptor, a-GTP and By subunits dissociate, a-GTP and By subunits associate with effectors, a-catalyzed hydrolysis of GTP–>gdp inactivates a and promotes reassembly of aBy trimer

Question 21

what is the neurotransmitter and receptor for GaS?

Answer 21

epinephrine and B-adrenergic receptor

Question 22

explain the steps of GaS

Answer 22

epinephrine binds to B-adrenergic receptor
receptor is activated and it exchanges GDP–GTP to activate G-protein
G-protein interactions with adenylyl cyclase (effector)
activated adenylyl cyclase forms cAMP from ATP
increased cAMP levels activate protein kinase A

Question 23

what is the “effector” in GaS?

Answer 23

adenylyl cyclase

Question 24

what is the 2nd messenger in GaS?

Answer 24

cAMP

Question 25

what is the action of protein kinase A?

Answer 25

phosphorylates serene and threonine residues on proteins to active the proteins

Question 26

how is GaS terminated?

Answer 26

receptor inactivation by endocytosis, Gprotein inactivation, phosphodiesterase degradation of cAMP, phosphatase dephospho rylation of proteins

Question 27

describe the effects of cholera toxin

Answer 27

causes constitutive activation of adenylyl cyclase to increase cAMP levels

Question 28

describe the effects of pertussis toxin

Answer 28

inactivates the inhibitor of adenylyl cyclase to increase cAMP levels

Question 29

what is the neurotransmitter and receptor for Gaq?

Answer 29

norepinephrine and a-adrenergic receptor

Question 30

discuss the activity of Gaq

Answer 30

norepinephrine binds to a-adrenergic receptor
conversion of GDP to GTP activates G protein
activated G protein interacts with phospholipase C to activate it
activated phospholipase C will yield IP3 and diacyl glycerol

Question 31

what is the consequence of increased IP3?

Answer 31

IP3 binds to IP3 receptors on the SER to increase cytosolic calcium

Question 32

what is the consequence of increased diacyl glycerol?

Answer 32

diacyl glycerol activates protein kinase C

Question 33

describe Ca and calmodulin

Answer 33

Calcium binds calmodulin to activate it

activated calmodulin can then activate a protein kinase

Question 34

how is the Gaq signal terminated?

Answer 34

receptor inactivation, G protein inacgivation, degradation of IP3 or DAG, SERCA pumps or phosphatase mediated dephospho rylation of proteins

Question 35

what ligands use nuclear receptors?

Answer 35

retinoic acid, bit D, steroids, thyroid hormone

Question 36

how do intracellular receptors effect cells?

Answer 36

mainly by the alteration of transcript because ligands can directly bind DNA, this is slower than Gproteins

Question 37

what is the action of tamoxifen?

Answer 37

SERM that occupies the estrogen binding site but does not stimulate proliferation

Question 38

what are the 2 forms of guanylyl cyclase?

Answer 38

membrane bound “particulate” form

soluble form in cytosol

Question 39

what is the function of guanylyl cyclase?

Answer 39

makes cGMP from GTP

Question 40

what does cGMP regulate?

Answer 40

regulates smooth muscle tone and neurotransmission

Question 41

what class of enzymes will inactivate cGMP?

Answer 41

phosphodiesterase

Question 42

describe the MOA of viagra

Answer 42

viagra is a PDE-5 inhibitor, by inhibiting PDE-5, there are increased cGMP levels in cell, increased cGMP levels activate MLCP which causes relaxation in smooth muscle, relaxation results in vasodilation and erection