PHARMACOLOGY OF PERIPHERAL
NERVOUS SYSTEM
AUTONOMIC NERVOUS SYSTEM
Department of Pharmacology
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Nervous system
Central nervous
system
Peripheral nervous
system
Somatic nervous
system
Autonomic nervous
system
afferent system
central part
HYPOTHALAMUS
MEDULLA OBLONG. efferent system
vegetative nerves + ggl.
SYMPATHETIC
NERVOUS SYSTEM
PARASYMPATHETIC
NERVOUS SYSTEM
Autonomic nervous system
peripheral part
- non - myelinized fibers
- pain perception
- visceral perception
Main functions of ANS
• contractions and relaxations of smooth
muscles
• function of all exocrine and some of
endocrine glands
• heart functions
• metabolic functions
ANS
Sympathetic
= adrenergnic system
• thoracolumbal s.
• fight or flight
• noradrenaline(NA)
•  a ß receptors
Parasympathetic
= cholinergnic system
• craniosacral s.
• rest and digest
• acetylcholine
• N a M receptors
Autonomic nervous system
The activity is mutually regulated
• heterotropic interactions
• homotropic interactions
• most of visceral organs is inervated by
both S and PS
• opposite activity - bronchi, heart,
bladder,,…
• similar action – salivary glands
• only S – blood vessels
Note: ggl. S a PS NN receptors
neuromusc. plate NMreceptors
Autonomic nervous system
Autonomic acting pharmaceuticals
On the basis of mechanism of action - drugs:
1. binding to the receptors for Ach or NA:
⚫ a) starting reaction = agonist - DIRECT MIMETICS
⚫ b) receptor blockade = antagonist – DIRECT LYTICS
.....................................................................................
2. changing the synaptic concentration of NT –
intervene in the fate of the Ach or NA (affect the
synthesis, storage, release from nerve endings,
inactivation); do not bind directly to receptors on the
effector organs
⚫ a) increase of NT effect = INDIRECT MIMETICS
⚫ b) decrease of NT effect = INDIRECT LYTICS
sympathotropic drugs
sympatomimetics sympatolytics
direct indirect
alfa beta
alfa1 alfa2 beta1 beta3
indirect direct
alfa beta
alfa1 alfa2 beta1 beta3
beta2 beta2
Vegetative acting drugs
2. sympatotropic
Vegetative acting drugs
2. cholinotropic
cholinotropic
drugs
cholinomimetics
direct
N M
indirect
cholinolytics
indirect direct
N M
cholinotropic
drugs
cholinomimetics
direct
NN M
indirect
cholinolytics
indirect direct
NN M
parasympatomimetics
choline derivatives
acetylcholinesterase (ACHE) inhibitors parasympatolytics
ganglioplegics
neuromuscular-blocking
drugs
NM
Vegetative acting drugs
2. cholinotropic
ANS RECEPTORS
cholinergic receptors
NICOTINE: N
-skeletal muscle NM
-vegetative ganglia NN
-(CNS)
MUSCARINIC:
M1, M2, M3, M4, M5
adrenergic receptors
 1
2

1
2
3
organ receptor sympathetic parasympathetic
system system
heart ß1 M + chrono, dromo, - chrono, dromo
bathmo, inotropic bathmo, inotrop.
eye 1 M
2
mydriasis miosis
acomodation into
the distance acom.to close
respiratory
tract
(1) M
2
bronchoconstriction bronchoconstriction
bronchodilatation secretion
blood vessels 1 M
(2)
2
vasoconstriction dilatation
vasoconstr.
dilatation (coronary,
blood vessels in
skeletal muscles)
organ receptor sympathetic parasympathetic
system system
GIT 1 M
2
2>1 M
↓ motility and tone ↑ motility
sphincter contraction sphincter relaxation
secretion inhibition secretion stimulation
↑ gastr. secretion
urinary
bladder
1 M3
2, 3
sphinct. contraction sphinct. relaxation
relax. of the bladder contract. of the
wall bladder wall
kidney 1>2
↑ renin secretion
uterus 1
2
contraction
relaxation-tocolysis
organ receptor sympathetic parasympathetic
system system
liver 1,ß2 glycogenolysis
gluconeogenesis
pancreas 2
2
insulin secretion
insulin secretion
sexual
organs
1 M ejaculation erection
glands 1 M
2
sparse secretion sparse
significantly
viscous secretion increased secretion
Note: HEART positive chronotropic effect
positive inotropic effect
positive dromotropic effect
positive bathmotropic effect
Adrenergic receptors
• metabotropic
• 1, 2 a 1, 2 a 3
• stimulated by noradrenaline (norepinephrine)
Receptor 1 stimulation:
• vasoconstriction (skin, mucous membranes, splanchnic
area,..)
• mydriasis
(+ ↓ intraocular pressure)
• contraction of pregnant uterus
• ejaculation
• urinary bladder sphincter contraction, GIT sphincter
contraction
• glycogenolysis and gluconeogenesis stimulation
• (reduce secretion of bronchial glands)
• (presynaptic) increased NA release (espec. in CNS)
• stimulation of platelet aggregation
• vasoconstriction in local application, otherwise the influence of
stimulation of central receptors to reduce sympathetic tone and BP
• hypotensive effect of central mechanism
• inhibition GIT secretion
• inhibition of lipolysis, increased fat storage
Receptor 2 stimulation:
heart:
•  HR (+ chronotropic effect) SA node
•  automaticity (+ bathmotropic) AV node, ventricles
•  force of heart contraction (inotropic effect)
•  conduction (dromotropic effect)
•  oxygen consumption
kidney:
•  renin secretion
Receptor 1 stimulation :
• vasodilatation, espec. in skeletal muscles ("preparation for
fight or flight"),  diastol. BP, vasodilatation in coronar
blood vessels
• bronchodilatation
• relaxation of uterus (indic. in impending preterm birth)
• intestine wall relaxation
• intestinal passage decrease
• urinary bladder wall relaxation
• glycogenolysis - ↑ glycemia, increased insulin secretion
• blockade of mast cells degranulation
Receptor 2 stimulation:
• lipolysis
• urinary bladder wall relaxation (m. detrusor)
Receptor 3 stimulation:
MUSCARINIC: M1(„neural“) – CNS, peripheral
neurons,parietal cells of stomach,
(glands with external secretion)
M2 („heart“) - heart (SA, atria, AV,
ventricles), (smooth muscle (GIT),
neuronal tissue), presynapt.
neur.endings
M3 – glands, blood vessels (smooth
muscle, hl. sval, endothelium),
smooth muscles: bronchial
muscles, GIT,
urinary bladder, eye
M4 – salivary glands, GIT (muscles),
eye, CNS
M5 – lungs, CNS
Cholinergic receptors
Cholinergic receptors
• M – metabotropic
• stimulated by acetylcholine
• N – coupled with ion channels
• stimulated by nicotine