YW - Histamine and 5-HT

Question 1

What are the main 3 actions of histamine on the H2 receptor?

Answer 1

• Stimulates gastric acid secretion
• Regulates cardiac output and rate
• Modulates actions of immune cells

Question 2

What common disease is associated with H2 receptor overactivity?

Answer 2

Peptic Ulcer (overproduction of gastric acid)

Question 3

Describe the mechanism of histamine (H2) in and the regulation of gastric acid

Answer 3

Mechanism of histamine (H2)

Binding of Gastrin to GR and Acetylcholine to MR produces Histamine in MC-like cells

REGULATION OF GASTRIC ACID

• Block gastrin binding to GR
• Block histamine binding to H2 receptor

Question 4

How does histamine (H2) affect the cardiac system? (3)

Answer 4

Histamine stimulates isolated (in vitro) heart preparations to increase rate and force of contraction

• This is due to direct actions on the cardiac muscle but also indirect actions via the release of noradrenaline from the adrenergic nerves

The response of the heart in vivo is largely regulated by autonomic reflexes due to change in blood pressure

Question 5

Where else are H2 receptors found and what is their effect?

Answer 5

H2 receptors are found on a number of cells in the immune system including mast cells and lymphocytes.

• They may provide a negative feedback inhibiting the release of histamine from degranulating mast cells

Question 6

Name a classical H2 receptor antagonist and its mechanism of action

Answer 6

The classical H2 receptor antagonist is cimetidine

• It is orally available and has an excellent safety profile.

Cimetidine inhibits cytochrome P450 and can retard the metabolism of a range of different drugs such as anticoagulants and tricyclic antidepressants.

• This will potentiate the actions of these drugs

Question 7

What are 3 uses of H2 receptor antagonists?

Answer 7

• Widely used to treat the symptoms of gastric ulcers
• Also used in reflux oesophagitis
• Some H2 antagonists have anti-cancer activity

Question 8

Where is the Histamine (H3) receptor found and what are its actions?

Answer 8

Histamine is found in the brain and functions as a neurotransmitter

• Histaminergic neurones originate in the hypothalmus and extend to virtually all parts of the brain
• Histamine release in the CNS follows a distinct circadian pattern with release occuring during the day but not at night

Question 9

What are the potential uses of H3 receptor antagonists? (2)

Answer 9

There are no H3 receptor antagonists in clinical use.

• Potential uses of H3 receptor antagonists include control of sleep/wake cycles and sedation.
• Other possible uses include control of food and water intake and thermoregulation

Question 10

Actions of histamine (H4)

Answer 10

H4 receptors have been identified on inflammatory cells

• They appear to regulate cytokine networks in the inflammatory response

Agonists/antagonists of H4 receptors not fully elucidated

Question 11

What is the role of histamine in tumors, and what is its assumed role in embryo-uterine interactions?

Answer 11

Mast cells are often found associated with tumours.

• It is not clear if they are facilitating tumour development (eg heparin from mast cell granules increasing angiogenesis) or part of the host defence against the tumour

Histamine has been assumed to contribute to embryo-uterine interactions due to its vasoactive, differentiation and growth-promoting properties

Question 12

What is 5-HT, and where is it found?

Answer 12

5-Hydroxytryptamine (5-HT) is also known as serotonin

• It is found in the CNS, the GI tract and in platelets
• It is an important neurotransmitter and plays key roles in the GI tract and the vascular system

Question 13

What are the effects of too much or too little serotonin?

Answer 13

Too Much Serotonin

• Anxiety
• Insomnia
• Sexual Dysfunction

Not Enough Serotonin

• Depression
• OCD
• Panic

Question 14

Structure of 5-HT (Serotonin)

Answer 14

Hydroxyl Group – Indole Ring – butyl group – Amino group

Question 15

Describe the 2-step synthesis of 5-HT

Answer 15

1) Tryptophan → 5-Hydroxytryptophan

• Tryptophan Hydroxylase (Addition of -OH group)

2) 5-Hydroxytryptophan → 5-Hydroxytryptamine

• L-aromatic acid decarboxylase (Removal of COOH group)

Question 16

Dietary sources of 5-HT

Answer 16

5-HT is found in bananas, strawberries, pineapples and tomatoes

• Dietary intake of 5-HT does not affect the body’s pools of 5-HT but is rapidly metabolised and excreted in the urine

Question 17

Metabolism of 5-HT (2)

Answer 17

1) 5-Hydroxytryptamine → Intermediate

• Monoamine oxidase (NH2 → CHO)

2) Intermediate → 5-Hydroxyindole acetic acid (5-HIAA)

• Aldehyde dehydrogenase (CHO → COOH)

Question 18

How many receptor families are there of 5-HT?

Answer 18

7 receptor families

Question 19

5-HT1 receptors

Answer 19

• These occur mainly in the CNS (5-HT1D receptors are also on cerebral blood vessels)
• Activation of these receptors results in neural inhibition and vasoconstriction

5HT1 receptors are important in mood and behaviour, thermoregulation, feeding and sleep

Agonist- Sumatriptan

Antagonists- None are currently in clinical use

• Methiothepin

Question 20

5-HT2 receptors

Answer 20

• 5-HT2 receptors occur in the CNS and are also widely distributed in the periphery

Agonist- Lysergic acid diethylamine (LSD) in CNS

• Causing hallucinations

However LSD acts as an antagonist in the periphery

Antagonists-

• Methysergide
• Ketotifen

LSD inhibits the firing of the 5-HT containing neurons of the raphe nuclei

Question 21

5-HT3 receptors

Answer 21

• 5-HT3 receptors are found mainly in the peripheral nervous system where they evoke pain
• 5-HT3 receptors are also found in the brain where they are involved in the vomiting reflex

Uses of 5-HT3 antagonists

5-HT3 antagonists such as ondansetron are used as anti-emetics

• Control severe vomiting and nausea

Question 22

5-HT4 receptors

Answer 22

• 5-HT4 receptors are found in the CNS but their main physiological role appears to be in regulating GI motility

Agonist- Tegaserod (used to relieve abdominal discomfort and bloating)

Question 23

5-HT in migraine and gut

Answer 23

5-HT in migraine

• 5-HT is known to cause vasoconstriction in the cerebral arteries
• 5-HIAA is found in the urine of patients with migraine

5-HT in gut

• 5-HT stimulates GI motility both directly via 5-HT2 receptors on the smooth muscle cells and indirectly via 5-HT3 and 5-HT4 receptors on enteric neurons
• 5-HT also stimulates fluid secretion and elicits nausea and vomiting by stimulating 5-HT receptors in the stomach

Question 24

5-HT in CVS and platelets

Answer 24

5-HT in the cardiovascular system

• 5-HT has direct effects but can also act indirectly via release of Nitrogen oxide (NO) from the endothelial cells and inhibiting noradrenaline release from the sympathetic nerve terminals
• Injection of 5-HT leads to an initial rise in blood pressure as the large vessels constrict followed by a fall as the arterioles dilate

5-HT in platelets

The 5-HT acts on 5-HT2 receptors on the platelet surface triggering the release of more 5-HT and causing the platelets to become ‘sticky’

• 5-HT serves as a vasoconstrictor and helps to regulate hemostasis and blood clotting
• Serotonin also is a growth factor for some types of cells, which may give it a role in wound healing.

Question 25

Which drugs alter 5-HT levels? (2)

Answer 25

Fenfluramine
Appetite Suppressant

• Depletes 5-HT levels in the CNS

Ecstasy

• Causes the release of 5-HT in the CNS followed by a drop in tissue levels of 5-HT

A carbohydrate rich diet can boost levels of 5-HT promoting feelings of well-being and sleepiness