Pharmacologie: Partie 2: Pharmacologie du système nerveux autonome, Bases anatomiques et physiologiques du SNA

Question 1

What is the job of the SNA?

Answer 1

Contrôle des fonctions viscérales du corps human —> independent

SNP “rest and digest” —> ergotropic: requires energy expenditure

SNS “fight or flight” —> trophotrophic: facilitator of metabolic processes

Question 2

What are the different components of the nervous system and their jobs?

Answer 2

Afferent: propagation of nerve influxes to SNC

Efferent: propagation of nerve influxes from SNC to muscles and glands

1. SNA: propagation of nerve influxes from SNC —> heart, smooth muscle and glands (INVOLUNTARY)
   
   1. SYMP: emergency situations
   2. PSYMP: conserve energy, normal day to day functions
2. SNS: propagation of nerve influxes from SNC to skeletal muscle (VOLUNTARY)

Question 3

What are the different parts of the SNA? (5)

Answer 3

1. Cerebral cortex (frontal lobe)
2. Limbic system (emotions)
3. Hypothalamus (principal integration center)
4. Reticular formation of cerebral trunk (regulation of: pupil diameter, breathing, heart, BP, etc.)
5. Spinal cord (responsable for: miction, defecation, erection/ejaculation)

Question 4

What is the anatomical structure of neurons in the SNA?

Answer 4

1st neuron:

• pré-ganglionnaire, myelinated (type B)
• synapses in the ganglion with the 2nd neuron (usually)
• In parasympathetic: VERY LONG
• In sympathetic: short

2nd neuron:

• post-ganglionnaire, unmyelinated (type C)
• synapses directly on effector organ/gland
• In parasympathetic: short
• In sympathetic: VERY LONG

Question 5

Which nerves are involved in parasympathetic nervous system?

Answer 5

All of cranial/sacral origin:

• Cranial:
  
  • III —> ganglion ciliaire
    
    • Effects: miosis et accomodation
  • VII —> ganglion pterygo-palatin et submandibulaire (splits before the ganglia)
    
    • Effects: augmentation des sécrétions
  • IX —> ganglion otique
    
    • Effects: augmentation des sécétions
  • X (vagus nerve)
    
    • Effect: dim. of inotropism (a bit) and chronotropy of the heart, bronchoconstriction, aug. digestive motility and secretions, dim. of tonus of sphincters (relaxation)
• Sacral: S2, S3, S4
  
  • Effects: contraction of rectum and bladder, relaxation of sphincters, erection

Question 6

Important parasympathetic information:

Answer 6

• Activated during: calm times, rest, digestion, after sudden scary thing (vagal rxn)
• A limited number of effects but essential for life
• More limited distribution than that of the sympathetic

Question 7

What is the ratio of post to pre ganglia neurons in PNS?

Answer 7

1-3:1

Question 8

What is the primary NT in the PNS?

Answer 8

Acetylcholine

Question 9

What is the action of the PNS on the eyes?

Answer 9

Iris (muscle sphincter): contraction (miosis)

Ciliary muscle: contraction to accommodates for viewing near objects

Question 10

What is the action of the PNS on the lacrymal glands?

Answer 10

Increase secretions

Question 11

What is the action of the PNS on the salivary glands?

Answer 11

Increase secretions (diluted)

Question 12

What is the action of the PNS on the heart?

Answer 12

dim. frequency and contractility

Question 13

What is the action of the PNS on the bronchi and trachea?

Answer 13

Bronchoconstriction and inc. secretions

Question 14

What is the action of the PNS on the GI tract?

Answer 14

Increase motility, tonus, and secretions, relax sphincters

Question 15

What is the action of the PNS on the bladder?

Answer 15

Contraction of the detrusor muscle, relaxation of trigone muscle and sphincter

Question 16

What is the action of the PNS on the penis/the clitoris?

Answer 16

Erection

Question 17

What is the action of the PNS on the uterus during pregnancy?

Answer 17

Variable (Symp. and parasym. both have effects)

Question 18

What nerves are involved in the sympathetic nervous system?

Answer 18

T1-T4: head and neck

T1-T6: thorax and superior limbs

T5-L2: abdomen

T10-L2: pelvic region

T12-L2: inferior limbs

Question 19

How many synapse options are there in the SNS?

Answer 19

4…

1. Sympathetic trunk:
   
   1. Same level
   2. Different level
2. Collateral ganglia (or prevertebral ganglia) —> between chain and organ
3. Adrenal glands

Question 20

Important sympathetic information:

Answer 20

“Réaction en bloc” induced by: stress, fear, low blood sugar, cold, exercise, trauma/very strong emotions

Essential for our body to adapt to changing internal and external conditions (homeostasis)

Simultaneous activity on more than one organ

NOT ESSENTIAL FOR SURVIVAL

Question 21

What is the ratio of post to pre ganglia neurons in SNS?

Answer 21

20-30:1 —> distribution diffuse et étendue

Question 22

What is the action of the SNS on the eyes?

Answer 22

Iris: contraction (opens up… mydriase)

Ciliary muscle: relaxation to accommodate for far away vision

Question 23

What is the action of the SNS on the salivary glands?

Answer 23

Production of thicker secretion but in diminished quantities

Question 24

What is the action of the SNS on the heart?

Answer 24

Increase frequency and contractility

Question 25

What is the action of the SNS on the trachea and bronchi?

Answer 25

Dilation

Question 26

What is the action of the SNS on the GI tract?

Answer 26

Dim. motility and overall tonus BUT contraction of sphincters

Question 27

What is the action of the SNS on the bladder?

Answer 27

Relax detrusor muscle, contract trigone muscle and sphincter

Question 28

What is the action of the SNS on the penis, prostate, and seminal vesicles?

Answer 28

Decrease erection and contract, ejaculation

Question 29

What is the action of the SNS on the blood vessels?

Answer 29

Blood vessels —> follow motor neurons.. PNS doesn’t

• Skeletal muscles: dilation or contraction depending on muscles
• Skin, mucous membranes and splanchnic regions: constriction

Question 30

What is the action of the SNS on the sudoriparous glands?

Answer 30

Increase sweating (due to ACh)

Question 31

What are the primary NTs in the SNS?

Answer 31

The primary neurotransmitter in preganglionic sympathetic neurons is acetylcholine (ACh), which activates neurons in the sympathetic ganglion neurons and adrenal medulla via ganglion-type nicotinic ACh receptors.

Question 32

How do the adrenal glands work? (weird form of SNS)

Answer 32

Pre-ganglionic nerve synapses directly with an organ that releases NTs that act more like hormones and have impact on the body as a whole, not just nerve endings

• Systemic action
• Stimulated by: pre-ganglionic neurons or directly by cortisol

Question 33

Which neurons are cholinergic (release ACh)?

Answer 33

Motor neurons of skeletal muscles

Preganglionic neurons in SNA

Postganglionic neurons in PNS

Some postganglionic neurons in SNS

Neurons in SNC

Question 34

How is acetylcholine synthesized?

Answer 34

Acetylcholine acetyltransferase catalyses the combination of choline and Acetyl-CoA in the cytoplasm of the axon terminal

Question 35

How is acetylcholine stored?

Answer 35

In vesicles in the axon terminals

Question 36

How is acetylcholine degraded?

Answer 36

By the enzyme Acetylcholinesterase (AChE) —> produces choline and acetate

Question 37

Information about cholinergic neurons:

Answer 37

Nerve endings have presynaptic receptors that can be the target of many endo and exogenous substances that can + or - impact ACh liberation

What are the two possible receptors?

1. autoreceptors: negative feedback from ACh liberated by that neuron
2. heteroreceptors: ligand comes from elsewhere that stimulates or inhibits ACh release

Question 38

Which neurons are adrenergic (release NA)?

Answer 38

Postganglionic neurons in SNS

Neurons in the CNS

Question 39

How is noradrenaline synthesized?

Answer 39

Tyrosine (diet) —> dihydroxyphenylalanine (by tyrosine hydroxylase) —> dopamine —> noradrenaline —> adrenaline (in adrenal glands)

noradrenaline —> inhibition of tyrosine hydroxylase if there is too much

Question 40

Comment est-ce qu’on peut mettre fin à l’action de la NA? (3 ways)

Answer 40

1. Reuptake into adrenergic neuron (most impact mechanism)
2. Diffusion towards circulation/other nearby tissues
3. Metabolism by enzymes into vanillylmandelic acid (important in dx)
   
   1. MAO: nerve endings
   2. COMT: liver and tissues

Question 41

What are receptors?

Answer 41

NT binding to specific receptor —> modification of its configuration

• Activate/inhibit enzyme (adenylate cyclase)
• Alter ionic flow

What is the net effect?

transduction of an external stimulus into an intracellular signal —> action

Question 42

What are the two main types of cholinergic receptors?

Answer 42

Nicotinic and muscarinic

Question 43

What are the main types of nicotinic receptors?

Answer 43

N1: ganglionic nicotinic receptors

• What? Ionic canals: open Na, Ca and K, neuronal depolarization
• Where? ANS ganglia, adrenal medulla (inside of adrenal gland)

N2: muscular nicotinic receptors

• What? Ionic canals: open Na, Ca and K, sarcolemma depolarization
• Where? Neuromuscular junctions

OTHERS: ionic canals in CNS

Question 44

What are the main types of muscarinic receptors?

Answer 44

1. M1, M3, M5 —> protein coupled (Gq), activation of phospholipase
2. M2 and M4 —> protein coupled (Go and Gi), inhibition of adenylate cyclase

Question 45

Where are cholinergic receptors found?

Answer 45

N1: ANS ganglia (including adrenal medulla)

N2: Neuromuscular junction

M: (4 ish)

1. Postsynaptic parasympathetic and sympathetic (sweat glands)
2. Presynaptic
3. SNC
4. Vessels

Question 46

What are the two main types of adrenergic receptors?

Answer 46

Alpha and beta

Question 47

What are the main types of alpha receptors?

Answer 47

α1: post-synaptic

α2: post-synaptic

α2: pre-synaptic (between 2nd neuron and organ)

Question 48

Effect of a-1 post-synaptic receptors on SNS?

Answer 48

Vasoconstriction of vessels, mydriase, contraction of GI and vesical sphincters

Question 49

Effect of a-2 post-synaptic receptors on…?

Answer 49

Peripheral receptors (SNS)… effect?

platelet aggregation, inhibition of insulin release, stimulation of GH, and inhibition of ADH

Central receptors… effect?

Sedation, analgesic effect, diminish perfusion of tissues and CV function

Question 50

What are the functions of a-2 pre-synaptic receptors?

Answer 50

Sympathetic: autoreceptors —> inhibit release of NA

Parasympathetic: heteroreceptors —> inbibit release of ACh

Question 51

What are the main types of beta receptors?

Answer 51

β1: post-synaptic

β2: post-synaptic

β2: pre-synaptic

Question 52

Effect of B-1 post-synaptic receptors?

Answer 52

Sympathetic nervous system… effect?

Increase speed, automaticity, and contractility of heart and lipolysis (β3)

Question 53

Effect of B-2 post-synaptic receptors?

Answer 53

Sympathetic nervous system.. effects?

Vasodilation of vessels and bronchi,

GI, uterine and bladder relaxation,

Glycogenolysis and secretion of insulin

Question 54

What are the functions of B-2 pre-synaptic receptors?

Answer 54

Sympathetic: heteroreceptors —> increase release of NA

Parasympathetic: autoreceptors —> increase release of ACh

Question 55

How and where do auto and heteroreceptors work?

Answer 55

Muscarinic:

• PNS: autoreceptor —> inhibits release of ACh
• SNS: heteroreceptor —> inhibits release of NA

a2:

• SNS: autoreceptors —> inhibit release of NA
• PNS: heteroreceptors —> inhibit release of ACh

​β2:

• PNS: heteroreceptors —> increase release of ACh
• SNS: autoreceptors —> increase release of NA

Question 56

What impacts regulation of receptors?

Answer 56

Repeated stimulation of a receptor can lead to what?

• Desensitization to stimulus… decrease response
• Decrease of number of receptors (downregulation)

Absence of stimulation of a receptor can lead to what?

• Hypersensitivity: increase the response of the same effect
• Increase of number of receptors (upregulation)

Question 57

What are the baroreceptor reflexes?

Answer 57

Receptors:

• baroreceptors in sinus carotidien and aortic arch

Neurones sensitifs (afferent)

• IX —> carotid sinus
• X —> aortic arch

SNC

Autonomic neurons (efferent)

• Parasympathetic (X)
• Sympathetic

Effectors:

• Cardiac muscles and muscles surrounding blood vessels

Question 58

What is the pupillary reflex?

Answer 58

Receptors:

Cells in retina

Sensitive neurons (afferent)

• II optic nerve

SNC

Autonomic neurons (efferent)

• Parasympathetic (III)
• Sympathetic

Effectors:

• Muscles in the iris

Question 59

What are the potential targets for Rx in SNA?

Answer 59

Synthesis, storage, release, inactivation, action of neurotransmitters (agonists/antagonists)

Question 60

Which classes of medications target the SNA? (4)

Answer 60

Cholinomimetics, anticholinergics, sympathomimetics, sympatholytics

Question 61

Iris:

Answer 61

Sphincter muscle: parasympathetic

• Myosis

Radial muscle: sympathetic (alpha-1 receptors)

• Mydriasis

Question 62

Ciliary muscle:

Answer 62

Sympathetic (beta-2 receptor)

• relaxation

Parasympathetic STRONGER RESPONSE

• contraction

Question 63

Salivary glands:

Answer 63

Sympathetic (alpha-1 receptor)

• Thickening of saliva

Parasympathetic STRONGER RESPONSE

• Dilution of saliva

Question 64

Heart:

Answer 64

Sympathetic (beta-1 receptors) STRONGER RESPONSE

• increase HR and contractility

Parasympathetic

• decrease HR and contractility

Question 65

Arterioles:

Answer 65

Artérioles (alpha-1)

• sympathetic: constriction

Artérioles (beta-2 except beta-1 in coronary arteries)

• sympathetic: dilation

Question 66

Veins:

Answer 66

Sympathetic

• Constriction

Question 67

Lungs:

Answer 67

Sympathetic (beta-2 receptors)

• Bronchodilation

Parasympathetic STRONGER RESPONSE

• Bronchoconstriction

Question 68

GI tract:

Answer 68

Sympathetic (alpha-1 and beta-2)

• Decrease motility and secretions
• Constriction of sphincters (alpha-1 only)

Parasympathetic STRONGER RESPONSE

• Increased motility and secretions and relaxation of sphincters

Question 69

Sudoriparous glands:

Answer 69

Sympathetic ACh (IMPORTANT EXCEPTION)

• Sweating

Question 70

Urinary system:

Answer 70

Sympathetic

• beta-2: relaxation of detrusor muscle
• alpha-1: contraction or trigone, sphincters, and ureters
• beta-1: renin secretion

Parasympathetic STRONGER RESPONSE

• Contraction of detrusor, relaxation of trigone, sphincters, and ureters

Question 71

Genital tract:

Answer 71

Sympathetic

Ejaculation

Parasympathetic

Erection

Question 72

Adrenal medulla:

Answer 72

Sympathetic (ACh)

liberation of catecholamines

Question 73

Liver:

Answer 73

Sympathetic (beta-2)

glycogenesis and gluconeogenesis

Question 74

Pancreas:

Answer 74

Sympathetic

• alpha-1 —> decrease secretions from beta cells
• beta-2 —> increase secretions from beta cells
• beta-1 —> lipolysis