1. dia - PowerPoint PPT Presentation

1 / 21

About This Presentation

Title:

1. dia

Description:

1. dia - Semmelweis University – PowerPoint PPT presentation

Number of Views:53

Avg rating:3.0/5.0

Slides: 22

Provided by: Lrn8

Category:

more less

Transcript and Presenter's Notes

Title: 1. dia

1
(No Transcript)
2
Gq
a1
Caintracellular á
a
a2
cAMP â
Gi
Gs
b1
cAMP á
b
cAMP á
b2
Gs
cAMP á
b3
3
Az adrenergic receptors (Michelotti et al,
Pharmacol.Ther. 88, 281-309, 2000)
4
Physiological actions of adrenergic receptor
stimulation (Michelotti et al, Pharmacol.Ther.
88, 281-309, 2000)
5
Subtypes of ß-adrenergic receptors
6
Noradrenergic innervation
Hormon action
positive ino- and chronotrop
relaxation
relaxation
Glycogen breakdown Vasodilation
lipolysis
relaxation
ß3
lipolysis
7
ß1 RECEPTORS IN THE HEART
8
ß1 RECEPTORS IN THE HEART

1. Immediate action
cAMP-dependent protein kinase
â
Phosphorylation of plasma membrane Ca2-channels
â
Ca2 entry à Ca2 induced Ca2 release
â å from Sarcoplasmic reticulum
Rise in intracellular Ca2
Þ
Increased force of contraction -Positive
inotropic effect
2. Late action
Activation of sarcoplasmic reticulum Ca2-ATP-ase
Þ
Ca2 sequestration

Late action
Phospholambane è inhibits SR
Ca2-ATP-ase
(only in the heart)
cAMP-dependent protein kinase è phosphorylation
of phospholambane (inhibition) è SR
Ca2-ATP-ase is activated
Increased heart rate
In the therapy ß1-selective antagonists
Arrhytmia
Angina è decrease in the frequency of
contractions

10
Noradrenergic innervation
Hormon action
positive ino- and chronotrop
relaxation
relaxation
Glycogen breakdown Vasodilation
lipolysis
relaxation
ß3
lipolysis
11
ADIPOSE TISSUE ß1 AND ß3 RECEPTORS
cAMP á
cAMP-dependent protein kinase
Hormon sensitive lipase
Glycogen phosphorylase kinase
Glycogen synthase
LIPOLYSIS
GLYCOGENOLYSIS
Inhibiton of GLYCOGEN SYNTHESIS
12
ADIPOSE TISSUE a RECEPTORS
a2 - receptor
a1 - receptor
Ca-calmodulin
cAMP â
Inhibition of LIPOLYSIS
GLYCOGENOLYSIS
Inhibition of GLYCOGEN SYNTHESIS
13
Noradrenergic innervation
Hormon action
positive ino- and chronotrop
relaxation
relaxation
Glycogen breakdown Vasodilation
lipolysis
relaxation
ß3
lipolysis
14
Bronchi ß2 Intestinal smooth muscle ß1 Uterus
ß2 (Blood vessels ß2)
Smooth muscle
cAMP é
cAMP-depentent protein kinase
Dephosphorylated Myosin light chain
kinase (active)
Phosphorylated Myosin light chain
kinase (inactive)
Catalytic subunit
Relaxation
Active myosin light chain kinase
a1 _Ca-CAM
Myosin light chain (20000 Da) phosphorylation
(19Ser-OH)
Actin - myosin
Contraction
15
ACTIONS MEDIATED THROUGH
a1 Increased glycogenolysis Smooth muscle
contraction In blood vessels
a2 Intestinal smooth muscle relaxation Inhibition
of lipolysis, platelet aggregation
ß1 Stimulation of lipolysis Increased heart rate
force
ß2 Increased glyconeogenesis Increased
glycogenolysis Smooth muscle relaxation Bronchi
Blood vessels intestine
16
Bronchi ß2 Intestinal smooth muscle ß1 Uterus
ß2 (Blood vessels ß2)
Smooth muscle
cAMP é
cAMP-depentent protein kinase
Dephosphorylated Myosin light chain
kinase (active)
Phosphorylated Myosin light chain
kinase (inactive)
Catalytic subunit
Relaxation
Active myosin light chain kinase
a1 _Ca-CAM
Myosin light chain (20000 Da) phosphorylation
(19Ser-OH)
Actin - myosin
Contraction
17
Blood vessels
a1
Adrenaline
Ergot alkaloids
Adrenaline
b2
a-receptor blocker
18
The physiological effects of a1-adrenerg receptors

Myocardium
Positiv Inotrop effect less important
than ß receptors
cardiac insufficiency - ß receptor
desenzitization and down-regulation effect of
a1 becomes significant
long-term a1 stimulation miocardial
hypertrophy
Blood vessels
vazokonstruction in the non essential
vessels (splanchnic) blood supply to the
essential organs receives priority (brain, heart)

19
in aging increased a1 receptor expression
increase in plasma
catecholamine ß receptor desenzitization
in the miocardium ?HYPERTENSION
20
ACTIONS MEDIATED THROUGH
a1 Increased glycogenolysis Smooth muscle
contraction In blood vessels
a2 Intestinal smooth muscle relaxation Inhibition
of lipolysis, platelet aggregation
ß1 Stimulation of lipolysis Increased heart rate
force
ß2 Increased glyconeogenesis Increased
glycogenolysis Smooth muscle relaxation Bronchi
Blood vessels intestine
21
a2 receptors on the cholinergic axon terminals in
the GI tract
Muszkarin
ß
kontrakció
relaxáció
NA
ACh
a2

Write a Comment

User Comments (0)