Shalabh Srivastava scite author profile

Nephronophthisis (NPHP) is a renal ciliopathy and an autosomal recessive cause of cystic kidney disease, renal fibrosis, and end-stage renal failure, affecting children and young adults. Molecular genetic studies have identified more than 20 genes underlying this disorder, whose protein products are all related to cilia, centrosome, or mitotic spindle function. In around 15% of cases, there are additional features of a ciliopathy syndrome, including retinal defects, liver fibrosis, skeletal abnormalities, and brain developmental disorders. Alongside, gene identification has arisen molecular mechanistic insights into the disease pathogenesis. The genetic causes of NPHP are discussed in terms of how they help us to define treatable disease pathways including the cyclic adenosine monophosphate pathway, the mTOR pathway, Hedgehog signaling pathways, and DNA damage response pathways. While the underlying pathology of the many types of NPHP remains similar, the defined disease mechanisms are diverse, and a personalized medicine approach for therapy in NPHP patients is likely to be required.

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Murine Joubert syndrome reveals Hedgehog signaling defects as a potential therapeutic target for nephronophthisis

Hynes

Giles

Srivastava

et al. 2014

Proc. Natl. Acad. Sci. U.S.A.

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Significance The molecular mechanisms underlying the juvenile onset cystic kidney disease nephronophthisis, remain incompletely understood. Our mutant mouse model identifies abnormal Hedgehog signaling as the primary lesion in nephronophthisis, although currently the perceived knowledge is that aberrant wingless-int signaling is responsible. Primary kidney collecting duct cells isolated from mutant mice with nephronophthisis are morphologically and functionally rescued when Hedgehog signaling is stimulated. This finding was replicated in ex vivo cultured urine-derived renal epithelial cells from a patient with Joubert syndrome and nephronophthisis. Understanding the initial molecular mechanisms of nephronophthisis is a significant advancement of the wider field of ciliopathies and identifies Hedgehog signaling as a potential therapeutic target for these conditions.

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ARL3 Mutations Cause Joubert Syndrome by Disrupting Ciliary Protein Composition

Alkanderi

Molinari

Shaheen

et al. 2018

The American Journal of Human Genetics

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Joubert syndrome (JBTS) is a genetically heterogeneous autosomal-recessive neurodevelopmental ciliopathy. We investigated further the underlying genetic etiology of Joubert syndrome by studying two unrelated families in whom JBTS was not associated with pathogenic variants in known JBTS-associated genes. Combined autozygosity mapping of both families highlighted a candidate locus on chromosome 10 (chr10: 101569997–109106128, UCSC Genome Browser hg 19), and exome sequencing revealed two missense variants in ARL3 within the candidate locus. The encoded protein, ADP ribosylation factor-like GTPase 3 (ARL3), is a small GTP-binding protein that is involved in directing lipid-modified proteins into the cilium in a GTP-dependent manner. Both missense variants replace the highly conserved Arg149 residue, which we show to be necessary for the interaction with its guanine nucleotide exchange factor ARL13B, such that the mutant protein is associated with reduced INPP5E and NPHP3 localization in cilia. We propose that ARL3 provides a potential hub in the network of proteins implicated in ciliopathies, whereby perturbation of ARL3 leads to the mislocalization of multiple ciliary proteins as a result of abnormal displacement of lipidated protein cargo.

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