Bradykinin Notes PDF

Summary

This note details the effects of bradykinin, including its role in cardiovascular, kidney, and non-vascular smooth muscle functions. It also explains its involvement in inflammatory conditions and hereditary angioedema. Further, it discusses drugs that target bradykinin.

Full Transcript

Bradykinin

10/21/2024

Bradykinin
Peptides act as autacoid that act locally to produce pain, vasodilation,
and increased vascular permeability. But can also have beneficial
effects (e.g: heart, kidney, circulation)
Most of their activity is due to stimulation of potent mediators such
as prostaglandins, NO, or endothelium-derived hyperpolarizing
factors (EDHF)

10/21/2024
 Bradykinins: biosynthesis
Kallikreins
Type: Serine proteases
Location: Plasma and tissues (kidney, pancreas, intestine,
sweat, and salivary glands)
Function: Convert kininogen into kinin
Kininogens
Substrates for kallikrein with two forms:
High-molecular weight kininogen
Found in plasma
Substrate for plasma kallikrein
Low-molecular weight kininogen
Found in tissues
Substrate for tissue kallikrein
Kinins
Two major types in humans:
Bradykinin
Lys-bradykinin (Kallidin)
Metabolism: Rapidly degraded by kininases, also by ACE

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Bradykinin receptors:
B1 and B2 are types of GPCRs
B2 Receptor
Expression: Found in most normal
tissues
Ligands: Binds to bradykinin and
kallidin
Function: Mediates most effects of
bradykinin
B1 Receptor
Induction: Triggered by inflammatory
mediators
Role: Active in inflammatory conditions

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Bradykinins effects
Cardiovascular:
Vasodilation by activating its B2 receptor on endothelial cells → generation of NO, vasodilator prostaglandins
eg: PGE2 and PGI.
Cardioprotective effect:
Anti-proliferative effect of
Protect the heart against ischemia, reperfusion injury
Protect against myocardial infarction and stroke (via stimulation of tissue plasminogen activator (tPA) release
Pain:
Stimulates the sensory neurons and provoke the release of neuropeptides, such as: substance P, neurokinin A,
and calcitonin gene-related peptide
Inflammation:
Vasodilation
Increase permeability in the microcirculation
Increase hydrostatic pressure gradient Edema
Stimulation of nerve ending
All the above will lead to a “wheal and flare” response to intradermal injection of BK: redness, local heat,
swelling and pain

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Bradykinins effects
Kidney:
Kinins increase renal blood flow (due to vasodilation)
Causes natriuresis by inhibiting sodium reabsorption
Non-vascular smooth muscle
Contraction in the intestinal, urinal, and bronchial smooth muscle
Could be implicated in allergic airway disorders such as asthma and rhinitis:
kinin causes bronchospasm in asthmatic patients but not in normal
individuals

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Bradykinins effects
Hereditary angioedema:
A rare genetic disorder that result in the activation of kallikrein and
increased formation of bradykinin:
Increasing vascular permeability and other actions causes recurrent episodes
of angioedema of the airways, GI, extremities, and genitalia
Can be treated with drugs that inhibit the formation or action of bradykinin

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Drugs that target BK
ACE Inhibitors (ACEIs)
Function: Block conversion of ANGI to ANGII and inhibit bradykinin degradation
Increased bradykinin contributes to:
beneficial protective effects
Adverse Effects:
Common: Chronic, non-productive cough
Rare: Angioedema
Kinin Receptor Antagonists
Icatibant
Type: Selective B2 receptor antagonist
Use: Approved for hereditary angioedema-related swelling
Fasitibant
Status: Under investigation
Focus: Intra-articular injection for knee osteoarthritis-alleviate inflammation and pain through
bradykinin pathway modulation.

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Natriuretic peptides

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