Muscarinic Acetylcholine Receptor M3 Mutation Causes Urinary Bladder Disease and a Prune-Belly-like Syndrome | Zendy

Stefanie Weber | Zendy; Hölger Thiele | Zendy; Sevgı Mır | Zendy; Mohammad R. Toliat | Zendy; Betül Sözeri | Zendy; Heiko Reutter | Zendy; Markus Draaken | Zendy; Michael Ludwig | Zendy; Janine Altmüller | Zendy; Peter Frommolt | Zendy; Helen M. Stuart | Zendy; Parisa Ranjzad | Zendy; Neil A. Hanley | Zendy; Rachel Jennings | Zendy; William G. Newman | Zendy; Duncan T. Wilcox | Zendy; Uwe Thiel | Zendy; Karl P. Schlingmann | Zendy; Rolf Beetz | Zendy; Peter F. Hoyer | Zendy; Martin Konrad | Zendy; Franz Schaefer | Zendy; Peter Nürnberg | Zendy; Adrian S. Woolf | Zendy

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Muscarinic Acetylcholine Receptor M3 Mutation Causes Urinary Bladder Disease and a Prune-Belly-like Syndrome

Author(s) -

Stefanie Weber,

Hölger Thiele,

Sevgı Mır,

Mohammad R. Toliat,

Betül Sözeri,

Heiko Reutter,

Markus Draaken,

Michael Ludwig,

Janine Altmüller,

Peter Frommolt,

Helen M. Stuart,

Parisa Ranjzad,

Neil A. Hanley,

Rachel Jennings,

William G. Newman,

Duncan T. Wilcox,

Uwe Thiel,

Karl P. Schlingmann,

Rolf Beetz,

Peter F. Hoyer,

Martin Konrad,

Franz Schaefer,

Peter Nürnberg,

Adrian S. Woolf

Publication year - 2011

Publication title -

the american journal of human genetics

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 6.661

H-Index - 302

eISSN - 1537-6605

pISSN - 0002-9297

DOI - 10.1016/j.ajhg.2011.10.007

Subject(s) - muscarinic acetylcholine receptor , prune belly syndrome , muscarinic acetylcholine receptor m3 , medicine , acetylcholine , mutation , acetylcholine receptor , urinary bladder , urinary system , receptor , urology , biology , genetics , gene

Urinary bladder malformations associated with bladder outlet obstruction are a frequent cause of progressive renal failure in children. We here describe a muscarinic acetylcholine receptor M3 (CHRM3) (1q41-q44) homozygous frameshift mutation in familial congenital bladder malformation associated with a prune-belly-like syndrome, defining an isolated gene defect underlying this sometimes devastating disease. CHRM3 encodes the M3 muscarinic acetylcholine receptor, which we show is present in developing renal epithelia and bladder muscle. These observations may imply that M3 has a role beyond its known contribution to detrusor contractions. This Mendelian disease caused by a muscarinic acetylcholine receptor mutation strikingly phenocopies Chrm3 null mutant mice.

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