Session 4 - CNS and ANS

Question 1

What are ganglia?

Answer 1

-Collections of cell bodies within the PNS

Question 2

What is a neuro-effector junction?

Answer 2

-A synapse between a post-ganglionic neurone and an effector cell

Question 3

Where do the sympathetic and parasympathetic nervous systems leave the spinal cord?

Answer 3

• Sympathetic from Thoracic and Lumbar regions

- Parasympathetic from Cranial and Sacral regions

Question 4

Which division of the ANS has long pre-panglionic fibres and short postganglionic fibres?

Answer 4

-Parasympathetic

Question 5

Which division of the ANS has short pre-ganglionic fibres and long post-ganglionic fibres?

Answer 5

-Sympathetic

Question 6

Where are most of the ganglia of the sympathetic nervous system located?

Answer 6

-Paravertebral chain

Question 7

Where are most of the ganglia of the parasympathetic nervous system located?

Answer 7

-Close to or within their effector structures

Question 8

Which fibres and of which divisions have Ach as its neurotransmitter?

Answer 8

-Preganglionic fibres of both divisions and post ganglionic of parasympathetic

Question 9

What is the neurotransmitter of the post-ganglionic fibres of the sympathetic nervous system?

Answer 9

-Noradrenaline

Question 10

What receptors are on post-ganglionic cell bodies?

Answer 10

-Nicotinic Ach receptors

Question 11

What receptors are found on effector cells of the parasympathetic system?

Answer 11

-Muscarinic 1,2,3 Ach R

Question 12

What receptors are found on the effector cells of the sympathetic nervous system?

Answer 12

-a and b adrenergic receptors

Question 13

Which functions are an exception to the sympathetic nervous system?

Answer 13

-Perspiration and Ejaculation which use Ach and muscarinic receptors

Question 14

What type of receptor are muscarinic receptors?

Answer 14

-GPCR

Question 15

What type of receptors are nicotinic receptors?

Answer 15

-Fast-acting ion channels

Question 16

What type of receptors are adrenoreceptors?

Answer 16

-GPCR

Question 17

How does the sympathetic innervation of the adrenal medulla differ from the rest?

Answer 17

-Has specialised post-ganglionic neurones called chromaffin cells which secrete adrenaline when stimulated

Question 18

Whyat effect does the ANS have on the CVS?

Answer 18

-Controls HR, force of contraction and vasomotor tone

Question 19

Through what nerve does parasympathetic input to the heart occur?

Answer 19

-Vagus

Question 20

What neurotransmitter and receptors does the parasympathetic NS use to innervate the heart?

Answer 20

• Ach

- M2 receptors

Question 21

What effect does the parasympatheric nervous system have on the heart?

Answer 21

• Decrease rate

- Decrease AV node conduction velocity

Question 22

What structures does the sympathetic NS innervate in the heart?

Answer 22

• SA node
• AV node
• Myocardium

Question 23

What receptors does the sympathetic nervous system act on in the heart?

Answer 23

-B1-adrenoreceptors

Question 24

What effect does the sympathetic nervous system have on contraction?

Answer 24

• Increase rate

- Increased force

Question 25

How does the sympathetic NS increase HR?

Answer 25

• Increases depolarising slope of funny current by stimulating b1-adrenoreceptors
• b1-adrenoreceptors -> Gas dissociates and activates adenyl cyclase -> this increases cAMP production in the cell which is a cyclic nucleotide
• cAMP activates more HCN channels increasing the speed of depolarisation, with a resulting increase in hyperpolarisation both increasing the HR

Question 26

How does the parasympathetic NS decrease HR?

Answer 26

• Ach stimulates M2 receptors which have an associated Gai subunit
• Gai inhibits adenyl cyclase which decreases cAMP -> decreased activation of HCN

Question 27

How are the divisions of the ANS arranged?

Answer 27

-Two neurones arranged in series with the pre-gangionic neurone having its cell body in the CNA and the post-ganglionic cell neurone having its body in the PNS

Question 28

The parasympathetic NS increases the conductance of K+ in cels, so why is there an overall decrease in HR?

Answer 28

-The decrease in cAMP has a greater effect than the increased hyperpolarisation caused by increased K conduction

Question 29

How does NA (from SNS) increase the force of contraction of the heart?

Answer 29

-NA binds to b1-adrenoreceptors
-This activates the GPCR and Gas dissociates from the G protein and activates AC. This increases the production of cAMP with a resultant activation of PKA
-PKA results in the phosphorylation, and thus opening of Ca channels, causing increased entry of Ca during the AP
-NA increases the uptake of Ca into the SR -> more to be released
-NA causes increased sensitivity of contractile machinery to Ca
These cause an increased force of contraction

Question 30

Which type of innervation do most blood vessels get? What is the exception to this?

Answer 30

• Sympathetic

- Erectile tissue which gets parasympathetic

Question 31

What type of adrenoreceptor do most arteries and veins have?

Answer 31

-a1-adrenoreceptors

Question 32

Which blood vessels have a1 and b2 adrenoreceptors?

Answer 32

• Coronary vessels

- Skeletal muscle vasculature

Question 33

What is the result of a decreased sympathetic output to blood vessels?

Answer 33

-Vasodilatation

Question 34

For those vessels which have B2 and a1-adrenoreceptors, which neurotransmitter does each of them respond to?

Answer 34

• a1-> circulating noradrenaline

- b2->circulating adenaline

Question 35

Why can adrenaline cause vasodilation of some vessels?

Answer 35

• Adrenaline acts on b2-adrenoreceptors in coronary or skeletal musche vessels
• B2 adrenoreceptor has Gas-type gprotein
• Gas dissociates and activates adenyl cyclase
• Increased cAMP production
• Increased activation of PKA which Increases conduction of K+
• Inhibits MLCK and causes reduced contraction of smooth muscle as myosin head not phosphorylated

Question 36

How does noradrenaline cause vasoconstriction of vessels?

Answer 36

• NA acts on a1-adrenoreceptor
• a1 has Gaq gprotein, gaq dissociates and activates PLC
• PLC cleaves PIP2 into IP3 and DAG
• IP3 acts on IP3 receptors on SR causing increased calcium release -> contraction can then occur
• DAG stimulates PKC which inhibits MLCP further influencing contraction as inhibition of MLCP causes increased phosphorylation of MLC

Question 37

What role do local metabolites have in vasodilation?

Answer 37

• Metabolising tissues produce metabolites such as adenosine, H+, K+,increased pCO2
• This local accumulation has a strong vasodilator effect

Question 38

Why is metabolites causing vasodilation so important?

Answer 38

-Allows supply to meet demand ensuring adequate perfusion as highly active tissues will produce lots of metabolites -> high vasodilatation -> increasd bloodflow

Question 39

Where are baroreceptors?

Answer 39

-Aorta and coronary sinus

Question 40

What are baroreceptors?

Answer 40

• Nerve endings which are sensitive to stretch detect increases in arterial pressure and relay the information through afferent fibres to the medulla
• The medulla can then cause bradycardia and vasodilation through efferent pathways to decrease bp

Question 41

What are sympathomimetics?

Answer 41

-Drugs which are a and b adrenoreceptor agonists, and thus mimic the effect of the sympathetic nervous system

Question 42

How does the administration of adrenaline restore function in cardiac arrest?

Answer 42

-Pharmalogical levels of adrenaline act on a1-adrenoreceptors on vessels causing vasoconstriction and increasing cardiac output

Question 43

-What is dobutamine?

Answer 43

-A b1-agonist which is used in cardiogenic shock to increase the force and rate of contraction

Question 44

How does adrenaline treat anaphylactic shock?

Answer 44

• During anaphylaxis there is widespread vasodilation

- Adrenaline acts on a1-adrenoreceptors and causes vasoconstriction through Gaq-> PLC-> IP3-> increased Ca-> contraction

Question 45

Why is salbutamol used to treat asthma?

Answer 45

• Activates b2-adrenoreceptors
• Gas dissociates and activates adenyl cyclase
• Increased cAMP-> increased PKA
• PKA phosphorylates MLCK leading to its inhibition
• Myosin not phosphorylated
• Contraction cannot occur
• Bronchi relax

Question 46

How can a-adrenoreceptor antagonists be used in the treatment of hypertension?

Answer 46

• Antagonist binds to a1-adrenoreceptor and prevents NA binding
• Prevents vasoconstriction so vasodilatation occurs
• Lowers pressure

Question 47

Name an anti-hypertensive agent which works as an a-adrenoreceptor antagonist

Answer 47

-Prazosin

Question 48

What is propranolol?

Answer 48

-Non-selective Breceptor antagonist which slows HR and reduces force of contraction by blocking b1 receptors, but also causes bronchoconstriction by blocking B2 receptors in the bronchi

Question 49

What is atenolol?

Answer 49

-Selective b1 receptor antagonist

Question 50

What is pilocarpine?

Answer 50

-Muscarinic agonist used in the treatment of glaucoma as it activates constrictor pupillae muscle

Question 51

What is atropine?

Answer 51

-Muscurinic antagonist used to increase HR by blocking the parasympathetic innervation of the heart through M2 receptors