Loss of Nephrocystin-3 Function Can Cause Embryonic Lethality, Meckel-Gruber-like Syndrome, Situs Inversus, and Renal-hepatic-pancreatic Dysplasia

Overview

Journal Am J Hum Genet

Publisher Cell Press

Specialty Genetics

Date 2008 Mar 29

PMID 18371931

Citations 163

Authors

Carsten Bergmann

Manfred Fliegauf

Nadina Ortiz Bruchle

Valeska Frank

Heike Olbrich

Jan Kirschner

Bernhard Schermer

Ingolf Schmedding

Andreas Kispert

Bettina Kranzlin

Gudrun Nurnberg

Christian Becker

Tiemo Grimm

Gundula Girschick

Sally A Lynch

Peter Kelehan

Jan Senderek

Thomas J Neuhaus

Thomas Stallmach

Hanswalter Zentgraf

Peter Nurnberg

Norbert Gretz

Cecilia Lo

Soeren Lienkamp

Tobias Schafer

Gerd Walz

Thomas Benzing

Klaus Zerres

Heymut Omran

Affiliations

Soon will be listed here.

Abstract

Many genetic diseases have been linked to the dysfunction of primary cilia, which occur nearly ubiquitously in the body and act as solitary cellular mechanosensory organelles. The list of clinical manifestations and affected tissues in cilia-related disorders (ciliopathies) such as nephronophthisis is broad and has been attributed to the wide expression pattern of ciliary proteins. However, little is known about the molecular mechanisms leading to this dramatic diversity of phenotypes. We recently reported hypomorphic NPHP3 mutations in children and young adults with isolated nephronophthisis and associated hepatic fibrosis or tapetoretinal degeneration. Here, we chose a combinatorial approach in mice and humans to define the phenotypic spectrum of NPHP3/Nphp3 mutations and the role of the nephrocystin-3 protein. We demonstrate that the pcy mutation generates a hypomorphic Nphp3 allele that is responsible for the cystic kidney disease phenotype, whereas complete loss of Nphp3 function results in situs inversus, congenital heart defects, and embryonic lethality in mice. In humans, we show that NPHP3 mutations can cause a broad clinical spectrum of early embryonic patterning defects comprising situs inversus, polydactyly, central nervous system malformations, structural heart defects, preauricular fistulas, and a wide range of congenital anomalies of the kidney and urinary tract (CAKUT). On the functional level, we show that nephrocystin-3 directly interacts with inversin and can inhibit like inversin canonical Wnt signaling, whereas nephrocystin-3 deficiency leads in Xenopus laevis to typical planar cell polarity defects, suggesting a role in the control of canonical and noncanonical (planar cell polarity) Wnt signaling.

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