Vasopressin Receptor Antagonists
The "Vaptans" — V₁ₐ/V₁b/V₂ Pharmacology, Aquaretic Mechanism, Tolvaptan · Conivaptan · Mozavaptan · Lixivaptan in Hyponatraemia, SIADH, Heart Failure & ADPKD
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RGUHSMay '19
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RGUHSMay '11
Introduction & definition
- Vasopressin receptor antagonists ("vaptans") are mostly nonpeptide, orally or parenterally active drugs that competitively block arginine-vasopressin (AVP) at its GPCR receptors — principally the renal V2 receptor — producing solute-free water diuresis (aquaresis) rather than natriuresis.
- Signature effect — they increase free-water clearance with little or no change in Na+/K+ excretion, distinguishing them from classical diuretics, which are natriuretic. Mechanistically they are anti-antidiuretics / aquaretics — they oppose AVP's antidiuretic action and raise urine volume (KDT lists them under "Antidiuretics" only because the chapter centres on AVP physiology).
- Members in use / development — tolvaptan (oral, V2-selective; class prototype), conivaptan (IV, dual V1a+V2), mozavaptan (oral, V2-selective; Japan) and lixivaptan (oral, V2-selective; investigational).
- Two therapeutic rationales — (1) in states of inappropriately high AVP with dilutional hyponatraemia (SIADH, heart failure, cirrhosis), V2 blockade excretes retained free water and corrects serum Na+; (2) chronic V2/cAMP blockade slows cyst growth in ADPKD [FDA JYNARQUE; PMID 23121377].
- Exam framing — vaptans are the canonical example of "aquaretics" — a high-yield contrast against loop/thiazide diuretics (natriuretic) and against desmopressin (a V2 agonist, opposite goal).
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Vasopressin Receptor Antagonists
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