UNIPROT:Q00604 - FACTA Search

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Query: UNIPROT:Q00604 (X-linked)
16,883 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The oculocerebrorenal syndrome of Lowe (OCRL) is a rare X-linked disorder with a severe phenotype characterized by congenital cataracts, renal tubular dysfunction and neurological deficits. The gene has been characterized and mutations have been identified in patients. Owing to the allelic heterogeneity exhibited by this gene, prenatal diagnosis by molecular analysis is limited to families in which the mutation is already known or in which linkage is informative. A more generally applicable diagnostic test would be valuable for families at risk for Lowe syndrome. Since ocrl1 is now known to encode a phosphatidylinositol 4,5-bisphosphate 5-phosphatase (Ptdlns(4,5)P2 phosphatase), we assessed whether biochemical testing could be used for prenatal diagnosis. We report here the first case of prenatal diagnosis for Lowe syndrome by measuring phosphatidylinositol 4,5-bisphosphate 5-phosphatase activity in cultured amniocytes.
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PMID:First report of prenatal biochemical diagnosis of Lowe syndrome. 985 17

Lowe syndrome is a rare X-linked disorder characterized by bilateral congenital cataracts, renal Fanconi syndrome, and mental retardation. Lowe syndrome results from mutations in the OCRL1 gene, which encodes a phosphatidylinositol 4,5 bisphosphate 5-phosphatase located in the trans-Golgi network. As a first step in identifying the link between ocrl1 deficiency and the clinical disorder, we have identified a reproducible cellular abnormality of the actin cytoskeleton in fibroblasts from patients with Lowe syndrome. The cellular abnormality is characterized by a decrease in long actin stress fibers, enhanced sensitivity to actin depolymerizing agents, and an increase in punctate F-actin staining in a distinctly anomalous distribution in the center of the cell. We also demonstrate an abnormal distribution of two actin-binding proteins, gelsolin and alpha-actinin, proteins regulated by both PIP(2) and Ca(+2) that would be expected to be altered in Lowe cells. Actin polymerization plays a key role in the formation, maintenance, and proper function of tight junctions and adherens junctions, which have been demonstrated to be critical in renal proximal tubule function, and in the differentiation of the lens. These findings point to a general mechanism to explain how this PIP(2) 5-phosphatase deficiency might produce the Lowe syndrome phenotype.
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PMID:The deficiency of PIP2 5-phosphatase in Lowe syndrome affects actin polymerization. 1242 11

Lowe syndrome is a rare X-linked disease characterized by congenital cataracts, defects in renal tubule cell function, and mental retardation. Mutations in the OCRL1 gene, which encodes ocrl1, a phosphatidylinositol-4,5-bisphosphate (PtdIns(4,5)P(2)) 5-phosphatase, are the cause of Lowe syndrome. PtdIns(4,5)P(2), a substrate of ocrl1, is an important signaling molecule within the cell. OCRL1 is ubiquitously expressed and co-localizes with the trans-Golgi network (TGN) and endosomal proteins. The ocrl1 protein contains two recognizable domains, one a conserved Ptd(4,5)P(2) 5-phosphatase domain and the other with homology to Rho GTPase activating proteins (RhoGAPs). The objective of our study was to further characterize the ocrl1 RhoGAP-homology domain by analyzing the effect of two missense mutations in this domain, I751N and A780P, which were previously reported in Lowe syndrome patients. Both mutant proteins were expressed at levels similar to wild-type but their enzyme activity was reduced by 85-90%, indicating that the RhoGAP-homology domain is important for the enzymatic function of ocrl1. Study of a C-terminal region of wild-type ocrl1 containing this domain detected no GAP activity, eliminating the possibility of an effect by mutations in this domain on GTPase activation. Because members of the Arf family of small G-proteins are directly involved in (Ptd(4,5)P(2)) signaling and localize to the TGN like ocrl1, we analyzed by immunoprecipitation the interaction of ocrl1 with Arf1 and Arf6 via its RhoGAP-homology domain. Wild-type ocrl1, but not the I751N mutant protein, co-immunoprecipitated with these two Arf proteins. These results indicate that wild-type ocrl1 and Arf proteins can interact and that this interaction is disrupted by the mutation. It remains unknown whether a disrupted interaction between Arf and ocrl1 plays a role in the Lowe syndrome phenotype.
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PMID:The effect of missense mutations in the RhoGAP-homology domain on ocrl1 function. 1677 52

The oculocerebrorenal syndrome of Lowe (Lowe syndrome) is an X-linked disorder of phosphatidylinositol metabolism characterized by congenital cataracts, renal proximal tubulopathy and neurological deficits. The disorder is due to the deficiency of the phosphatidylinositol 4,5-bisphosphate (PIP(2)) 5-phosphatase, ocrl1. PIP(2) is critical for numerous cellular processes, including cell signalling, actin reorganization and protein trafficking, and is chronically elevated in patients with Lowe syndrome. The elevation of PIP(2) cells of patients with Lowe syndrome provides the unique opportunity to investigate the roles of this phospholipid in fundamental cellular processes. We previously demonstrated that ocrl1 deficiency causes alterations in the actin cytoskeleton. Since actin remodelling is strongly activated by [Ca(+2)], which increases in response to IP(3) production, we hypothesized that altered calcium signalling might contribute to the observed abnormalities in actin organization. Here we report a specific increase in bradykinin-induced Ca(+2) mobilization in Lowe fibroblasts. We show that the abnormal bradykinin signalling occurs in spite of normal total cellular receptor content. These data point to a novel role for ocrl1 in agonist-induced calcium release.
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PMID:Abnormal bradykinin signalling in fibroblasts deficient in the PIP(2) 5-phosphatase, ocrl1. 1917 11

Lowe syndrome (LS) is a lethal X-linked genetic disease caused by functional deficiencies of the phosphatidlyinositol 5-phosphatase, Ocrl1. In the past four years, our lab described the first Ocrl1-specific cellular phenotypes using dermal fibroblasts from LS patients. These phenotypes, validated in an ocrl1-morphant zebrafish model, included membrane remodeling (cell migration/spreading, fluid-phase uptake) defects and primary cilia assembly abnormalities. On one hand, our findings unraveled cellular phenotypes likely to be involved in the observed developmental defects; on the other hand, these discoveries established LS as a ciliopathy-associated disease. This article discusses the possible mechanisms by which loss of Ocrl1 function may affect RhoGTPase signaling pathways leading to actin cytoskeleton rearrangements that underlie the observed cellular phenotypes.
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PMID:Lowe syndrome: Between primary cilia assembly and Rac1-mediated membrane remodeling. 2373 14