Autonomic Nervous System - Chemical Transmission Lecture Notes PDF

Summary

These notes describe the chemical transmission in the autonomic nervous system, including neurotransmitters like acetylcholine and noradrenaline. It also covers different receptor types (cholinergic and adrenergic) and their functions, plus related drugs. The notes are likely part of a university physiology course.

Full Transcript

THE AUTONOMIC NERVOUS
SYSTEM
CHEMICAL TRANSMISSION

BY
PROF. A. EMAD OMAR ZAKI
FALL 2024
CHEMCAL TRANSMISSON
 CHEMICAL TRENSMISSION
The principal transmitters are:

acetylcholine ( AC )

and Noradrenaline (norepinephrine ).
I - ACETYLCHOLINE (Cholinergic system)
Sites of release :
1 - All preganglionic neurons.
2 - All autonomic ganglia.
3 - All parasympathetic postganglionic
neurons.
4 - Sympathetic postganglionic neurons to
sweat glands and vasodilators of blood
vessels of skeletal muscles.
5 - Adrenal medulla.
6 - Neuromuscular junction.
Sites of the cholinergic fibers
 Acetyl choline is the Chemical
transmitter in the
Parasympathetic NS, so it is
called the cholinergic system.
Synthesis Acetyl choline :

Choline + Active acetate

choline acetyl transferase

Acetylcholine
Fate (destruction) of acetyl choline:

*Ach is broken down by choline esterase enzyme.

Acetic acid
Choline esterase enzyme
Acetyl
choline Choline base

*Destruction of the acetyl choline occurs at
faster rate compared to the destruction of
noradrenaline.
II - NORADRINALINE (Adrenergic system)
NE is present in granulated vesicles of nerve
terminals present in most sympathetic
postganglionic endings and some brain
neurons.
synthesis :
hydroxylase
Tyrosine DOPA
decarboxylase
DOPA Dopamine
Dopamine enters granulated vesicles to be
converted to NE.
 Sites of the adrenergic fibers
ADRENERGIC FIBERS

All postganglionic sympathetic fibers
Except: Sweat glands & blood vessels of
skeletal muscles
 Fate (inactivation) of catecholamine

1-Active neuronal 3-Inactivation by COMT
reuptake enzyme (catechol -O-
methyl transferase)

2-Inactivation by MAO
enzyme (monamine oxidase
enzyme)
 Autonomic receptors
They are chemical structures found mainly on
the cell membrane of the effector organs.
They are affected by the combination with
chemicals or drugs.
They are classified into 2 main groups:

Cholinergic Adrenergic
receptors receptors
 Cholinergic receptors
It is the division of the autonomic receptors
which can be stimulated by acetyl choline.
It is classified into 2 types according to its
sensitivity to drugs.

Muscarinic Nicotinic
receptors receptors

Stimulated by Stimulated by
muscarine Nicotine
 Actions Of Acetylcholine
(Cholinergic actions )
A - Muscarinic actions (Parasympathetic):
1. Cardiac inhibition and decrease heart
rate.
2. Pupillary constriction. Accomodation.
3. Stimulate salivary secretion.
4. Stimulate gastrointestinal secretion and
motility
5. Contraction of urinary bladder and
rectum.
6. Bronchoconstriction.
 Actions Of Acetylcholine
(Cholinergic actions )
B - Nicotinic action :

1 - Stimulation of autonomic ganglia.

2 - Stimulate adrenal medulla to secrete
adrenaline and nor adrenaline.

3 - Stimulate NM junction causing
skeletal muscle contraction.
 Adrenergic receptors
It is the division of the autonomic
receptors which can be stimulated by
catecholamine (epinephrine &
norepinephrine).
It is classified into 2 types according to
its sensitivity to drugs.

Alpha ( α ) Beta (ß )
receptors receptors
 Alpha ( α ) Beta ( ß )
receptors receptors

Stimulated Mainly by Mainly by
by: noradrenaline adrenaline.
Blocked by: Phentolamine Propranolol.

Subtype α1 And α2 ß 1 and ß 2

NB:
-α1 and ß 1 receptors have excitatory actions.
- α 2 and ß 2 receptors have inhibitory actions.
 Alpha ( α ) Beta ( ß )
Action
receptors receptors

mostly
On Smooth mostly excitatory.
inhibitory.
Muscle Cause contraction
Cause relaxation

On Blood
Vasoconstriction vasodilation
Vessels

Contraction of
Relaxation of
Sphincters Sphincters (GIT,
Sphincters
Bladder, and rectum)
 Drugs the action of
parasympathetic NS

They are the drugs that can increase or
decrease the action of the
parasympathetic Ns.
They are classified into:

Parasympathomimetic Parasympatholytic
drugs drugs
 Parasympathomimetic drugs
They are drugs which can induce effects
similar to the Ach. (or increase its actions).
They also called choline agonists.
They include:

1-Drugs
stimulating the 2-Drugs
cholinergic inhibiting the
receptors choline esterase
enzyme
A.Drugs stimulating the cholinergic receptors:

Muscarinic agonists Nicotinic agonists
Ex. Muscarinic Ex. Nicotine small dose

B-Choline esterase inhibitors:

Reversible choline
esterase inhibitors Irreversible choline
Its action is temporary. esterase inhibitors
* Its
*. action is permanent
Ex. Eserine
Ex. Parathion
Prostigmine
 Parasympatholytic drugs
They are drugs which can block the effects of
Ach (or decrease its actions). They include

1- Muscarinic blockers

Ex. Atropine
2-Nicotinic blockers
Used as:
-Ganglionic blockers
*Pupil dilator.
Ex. Nicotine large dose
*Spasmolytic.
Hexamethonium.
*Decrease bronchial
secretion. -Neuromuscular blockers:

Ex. Curare
 Drugs that modify the action of
sympathetic NS
They are the drugs that can increase
or decrease the action of the
sympathetic Ns.
They are classified into:

sympathomimetic sympatholytic
drugs drugs
 Sympathomimetic drugs
They are drugs which can induce effects similar to
the catecholamine (or increase its actions). They
include:
3-Drugs stimulating the
adrenergic receptors
1-Drugs stimulating
the ganglia -α agonists Ex. Noradrenaline
Ex.Nicotine small
-ß agonists Ex. Adrenaline
dose

2-Drugs increasing the release of
NE from nerve endings
Ex. Amphetamine
 Sympatholytic drugs
They are drugs which can block the effects of
catecholamine (or decrease its actions). They
include:
3-Drugs block the adrenergic
receptors

-α blockers Ex. Phentolamine
1-Drugs block the
- ß blockers Ex. Propranolol
ganglia
Ex.Nicotine large
dose

2-Drugs decreasing the release of NE from
nerve endings Ex. Reserpine
THANK YOU