Pharmacology of inflammation

Question 1

What are the three main types of inflammations ?

Answer 1

Acute
Chronic
Contributory

Question 2

What did John Hunter say about inflammation ?

Answer 2

“Inflammation is a salutary process”

Treatise on the blood, Inflammation and Gun-shot Wounds. (1794)

Question 3

What is the purpose of inflammation ?

Answer 3

Kill
Dilute
Wall-off
Prepare

Question 4

What kind of dysfunctional inflammations exist ?

Answer 4

Primary immunodeficiency

Acquired immunodeficiency

Question 5

What are the 5 principal symptoms of inflammation ?

What are these symptoms due to (inflammatory mediators) ?

Answer 5

Heat (calor) + Redness (rubor) --> increased blood flow
- Histamine
- 5-HT
- Platelet Activating Factor (PAF)
- NO
- Bradykinin
- PGE2
- PGI2
Swelling (tumor) --> Increased vascular permeability + cellular infiltration 
- Histamine
- Anaphylatoxins  C3a C5a
- LTB4
- TNF-alpha + IL-1
- PGE2
- IL-8
- VEGF
- PAF
- Bradykinin
Pain (dolor)
- SP
- CGRP
- Bradykinin
Loss of Function (functio laesa)
- Lipases
- Proteases
- Free radicals

Question 6

What is the Lewis triple response ?

Answer 6

The triple response of Lewis is a cutaneous response that occurs from firm stroking of the skin, which produces an initial red line, followed by a flare around that line, and then finally a wheal. The triple response of Lewis is due to the release of histamine.

Question 7

What is the precursor of histamine ?

Answer 7

Histidine (converted to histamine by histidine decarboxylase)

Question 8

Where is histamine found ?

Answer 8

Mast cells (found in complex with acidic protein & heparin (1:6:3))
Basophils (blood)
Histaminergic Neurons

Question 9

In response to which molecules is histamine released ? - inhibited ?

Answer 9

Stimulate histamine release :
- IgE
- C5a, C3a
- Substance P, VIP
- Tubocurarine
- Morphine
Inhibit histamine release : 
- cAMP

Question 10

How is histamine metabolized ?

Answer 10

Metabolism
Oxidation : Diamine oxidase
N-Methylation : N-methyltransferase
Acetylation : Gut flora

Question 11

How many histamine receptors do we know ?

Answer 11

Four histamine receptors : 
H1 --> Gq 	
Increases in Ca2+
- ileum contraction
- modulate circadian cycle
- itching
- systemic vasodilatation
- bronchoconstriction (allergy-induced asthma)
H2 --> Gs
↑ cAMP2+ 	
- Speed up sinus rhythm
- Stimulation of gastric acid secretion
- Smooth muscle relaxation
- Inhibit antibody synthesis, T-cell proliferation and cytokine production
H3 --> Gi 	
Inhibition of cAMP
- Decrease Acetylcholine, Serotonin and Norepinephrine 
- Neurotransmitter release in CNS
- Presynaptic autoreceptors
H4 --> Gi 	
Increases in Ca2+
- Mediate mast cell chemotaxis

Question 12

Name 2 first generation H1 antagonists you know.

Answer 12

Diphenhydramine

Chlorpheniramine

Question 13

Name 4 second generation H1 antagonists you know.

Answer 13

Loratadine
Fexofenadine
Cetirizine
Terfenadine

Question 14

Name 2 H2 antagonists you know.

Answer 14

Cimetidine

Ranitidine

Question 15

What effects does histamine have on :

• smooth muscle
• endothelial cells
• glands
• heart
• C-fibers

Answer 15

Smooth muscle :
- contraction (H1) EXCEPT in arteries and arterioles (relaxation
Endothelial  :
- increased permeability (H1)
Glands :
- stimulates gastric secretion (H2) & adrenal medulla, pancreas,salivary, lacrymal and bronchial gland secretion (H1)
Heart :
- Positive chronotropic H2
- Positive inotropic H2+ H1
- Induction of arrhythmia's
C fibers : 
- stimulation (H1) --> pain

Question 16

Can histamine act as a NT ?

Answer 16

Histaminergic neurons.

• Involved in vasopressin release
• Emesis, consciousness & temperature regulation.
• Presynaptic histamine receptors (H1)

Question 17

How do antihistamines work ?

Answer 17

Antihistamines work by preventing the histamine affects via H1 receptors main affect is on vascular permeability.

Question 18

In what cases are antihistamines used ?

Answer 18

Insect bites
Allergic rhinitis
Drug hypersensitivity
Urticaria

Question 19

What are the side effects of antihistamines ?

What about the newer antihistamines ?

Answer 19

• Side effect associated with these drugs is usually due to other receptor interactions and may be clinically beneficial i.e. sedative & anti-emetic
• Some drugs cross CNS therefor cause such as dizziness, tinnitus & fatigue
• Older drugs also have atropine- like actions (muscarine antagonists)
• Newer H1 antihistamines do not cross CNS e.g. astemizole, terfenadine, cetirizine

Question 20

What are the 2 bradykinin receptors ?

Answer 20

B1 (353)
- GPCR (Gaq/Gai)
- Induced, via cytokines, LPS
- G protein-linked receptor
- Not internalised, thus resistant todesensitization
- Agonist des-Arg10 kallidin;
- des-Arg 9 bradykinin (DABK)
- Antagonist des-Arg HOE140
B2 (391)
- GPCR (Gaq/Gai) (PLC, PLA2)
- Constitutive
- Acts through release of other mediators
- Nitric oxide and prostaglandins
- Quickly desensitised throughinternalisation
- Agonist bradykinin, kallidin
- Antagonist HOE140 (icatibant)

Question 21

Where are the 2 bradykinin B1 and B2 receptors expressed ?

Answer 21

Endothelial cells
Vascular smooth muscle
Fibroblast
Epithelial
Sensory Nerves
Leukocytes (limited research)

Question 22

How can B1 receptors be up-regulated ?

Answer 22

• LPS treatment of smooth muscle preparations
• Kinins can cause contraction.
• IL-1, IL-2 LPS EGF, TNFa, oncostatin M
  NFkB signalling

Question 23

What are anaphylatoxins ?

How are the inactivated ?

Answer 23

Anaphylatoxins, or complement peptides, are fragments (C3a, C4a and C5a) that are produced as part of the activation of the complement system. They cause smooth muscle contraction, histamine release from mast cells, and enhanced vascular permeability.
They are inactivated/cleaved by carboxypeptidase N, B and R.

Question 24

How are prostoglandins synthesized ?

Answer 24

Prostaglandin E synthase (PGES) produced by most cells
Cytosolic PGES constitutive production
Membrane PGES induced with inflammatory mediators

Question 25

What are the prostoglandin receptors ?

What effects do these receptors mediate ?

Answer 25

EP1 : Contraction of bronchial & gastrointestinal muscle smooth muscle, Pain
EP2 : Bronchodilatation, vasodilatation, stimulation of intestinal fluid secretion & relaxation of GI smooth muscle
EP3 : Contraction of intestinal smooth muscle, inhibition of gastric acid secretion, increase gastric mucus secretion, inhibition of lipolysis, Inhibition of autonomic
neurotransmitter
EP4 : Contraction of bronchial & vasodilation, leukocyte supression

Question 26

How do prostoglandins cause :
- fever ?
- pain ?
- oedema ?
What effects does PGE2 have on leukocytes ?

Answer 26

Fever : PGE2 causes an increase in body temperature via hypothalamus
Pain : PGE2 induces hyperalgesia working both at the peripheral terminals ofprimary afferent nociceptors and in the spine
Oedema : PGE2 is a powerful vasodilator and synergises with other mediators. It does not directly induce vascular permeability but potentates the action of other inflammatory mediators.
Leukocytes : PGE2 inhibits the actions of many leukocytes

Question 27

How is PGD2 synthesized ?

What effects does it have ?

Answer 27

Prostaglandin D2 (PGD2)
DP-receptors : Vasodilatation, inhibit platelet aggregation, relaxation GI muscle & uterine
TP-receptors : Bronchoconstrictor
Prostaglandin D synthase found predominantly in Mast cells also brain
CRTH 2 : Chemoattractant for Th2 cells

Question 28

Where does PGF2-alpha have ?

What effects does it have ?

Answer 28

FP-receptors : Smooth muscle contraction, bronchoconstriction, reproductive physiology

Question 29

Where are PGI2 and Thromboxane A2 synthesized ?

What effect do they have >

Answer 29

PGI2
IP-receptors : Vasodilatation, Inhibit platelet aggregation, renin release
Prostaglandin I synthase found predominantly in vascular endothelium
TXA2
TP-receptors : Vasoconstriction, platelet aggregation
Thromboxane A synthase found predominantly in platelets

Question 30

How do NSAIDs act ?

WHat are the side effects of the old Vs newer NSAIDs ?

Answer 30

Inhibition of COX enzymes.
Non-specific COX inhibitors : old NSAIDs, serious side-effects : 
- Inhibit gastric acid
- Contract the uterus
- Increase renal blood flow
COX-1 specific inhibitors : newer NSAIDs, more efficient and selective :
- Anti- Pyretic
- Anti-inflammatory
- Anaalgesic

Question 31

What are the COX enzymes ?

Answer 31

The enzymes that produce prostaglandins are called cyclooxygenase (COX). There are two types of COX enzymes, COX-1 and COX-2. Both enzymes produce prostaglandins that promote inflammation, pain, and fever; however, only COX-1 produces prostaglandins that activate platelets and protect the stomach and intestinal lining.

Question 32

Name a few glucocorticoid-suppressed proteins with potential pro-inflammatory activity.

Answer 32

Chemokine receptors CCR1 and CCR2
Complement components C1q, C3 and C5
Complement receptors C3aR1, CR2 and C5aR1
IL-1 receptor-I
IL-8 receptor
Interferon-γ receptor I
Interferon-γ receptor II
Macrophage migration inhibitory factor
Matrix metalloproteinases 7, 10, 16 and 19
Thrombospondins 1, 2 and 4
Tumour necrosis factor receptor family members
(including GITR)
Toll-like receptors 2 and 4
COX-2
IL-2

Question 33

Name a few glucocorticoid-induced proteins with potential anti-inflammatory activity.

Answer 33

Anx-A1
β2-adrenergic receptor
Clara cell protein
GILZ
HbSR CD163
IkB
IL-10
IL-10 receptor
IL-1 receptor-2 (IL-1 decoy receptor)
MPK-1
Transforming growth factor-β3

Question 34

What is the overall effect of GCs ?

Answer 34

Decreased migration of neutrophils
Decreased activation of neutrophils and macrophages
Decreased activation of T-lymphocytes and clonal expansion
Decreased fibroblast activation, matrix deposition
Decreased osteoblast activation.

Question 35

Name 5 SAIDs.

State their duration of action.

Answer 35

Short : 
- cortisol
Intermediate : 
- prednisolone 
- prednisone
Long : 
- dexamethasone
- betamethasone

Question 36

What are cytokines and chemokines ?

Answer 36

Cytokines are simple polypeptides or glycoproteins
with a molecular weight <30kD
Constitutive production cytokines is uncommon:
production regulated by including stimuli at the level
of transcription and translation
Cytokine production is transient and the action radius
is usually short
Cytokines act by binding to high-affinity cell-surface
receptors Kd=1E-9 - 1E-12M
Most cytokine actions are attributed to altered gene
expression in the target cells

Question 37

What are the effects of TNF-alpha ?

Answer 37

• Induces fever
• Stimulates acute phase protein release
• Cytotoxic/cytostatic for cells
• Activates granulocytes and macrophages
• Promotes bone reabsorption by osteoclasts
• Inhibits collagen synthesis and promotes breakdown
• Induces cytokine synthesis
• Promotes fibroblast proliferation
• Activates endothelial cells
• Promotes angiogenesis

Question 38

What treatment has is being developed that targets TNF-alpha ?

Answer 38

Anti-TNA-alpha antibodies.