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Literature DB >> 27233067

Novel compound heterozygous mutations in inositol polyphosphate phosphatase-like 1 in a family with severe opsismodysplasia.

Cori Feist¹, Paul Holden, Jamie Fitzgerald.

Abstract

This study aimed to identify the genetic basis of a severe skeletal lethal dysplasia. The main clinical features of two affected fetuses included short limbs with flared metaphyses, bowed radii, femora and tibiae, irregular ossification of hands and feet, and marked platyspondyly. Affected and nonaffected family members were subjected to whole-exome sequencing, followed by immunoblot analysis on amniocytes isolated from one of the affected individuals. Unique compound heterozygous variants in the inositol polyphosphate phosphatase-like 1 (INPPL1) gene encoding the SHIP2 protein were identified in both affected individuals. One variant was inherited from each unaffected parent. Both allelic variants, c.(2327-1G>C);(1150_1151delGA), are predicted to result in premature stop codons leading to nonsense-mediated mRNA decay of the mutant alleles and no production of SHIP2. The absence of SHIP2 was confirmed by immunoblot analysis of proband amniocytes. This skeletal disorder is caused by the complete absence of the SHIP2 protein. INPPL1 mutations have been reported in opsismodysplasia, an autosomal recessive skeletal dysplasias with significant delayed bone formation. Our finding highlights the critical role that INPPL1/SHIP2 plays in skeletal development.

Entities: CellLine Chemical Disease Gene Mutation Species

Mesh：

Substances：

Year: 2016 PMID： 27233067 PMCID： PMC4995133 DOI： 10.1097/MCD.0000000000000136

Source DB: PubMed Journal: Clin Dysmorphol ISSN： 0962-8827 Impact factor: 0.816

14 in total

Review 1. The termination of PI3K signalling by SHIP1 and SHIP2 inositol 5-phosphatases.

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Journal: Adv Enzyme Regul Date: 2003

2. A unique chondrodysplasia secondary to a defect in chondroosseous transformation.

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Journal: Birth Defects Orig Artic Ser Date: 1977

3. A second locus for Schneckenbecken dysplasia identified by a mutation in the gene encoding inositol polyphosphate phosphatase-like 1 (INPPL1).

Authors: Hane Lee; Lisette Nevarez; Ralph S Lachman; William R Wilcox; Deborah Krakow; Daniel H Cohn
Journal: Am J Med Genet A Date: 2015-05-22 Impact factor: 2.802

4. Exome sequencing identifies INPPL1 mutations as a cause of opsismodysplasia.

Authors: Céline Huber; Eissa Ali Faqeih; Deborah Bartholdi; Christine Bole-Feysot; Zvi Borochowitz; Denise P Cavalcanti; Amandine Frigo; Patrick Nitschke; Joelle Roume; Heloísa G Santos; Stavit A Shalev; Andrea Superti-Furga; Anne-Lise Delezoide; Martine Le Merrer; Arnold Munnich; Valérie Cormier-Daire
Journal: Am J Hum Genet Date: 2012-12-27 Impact factor: 11.025

5. Whole-genome analysis reveals that mutations in inositol polyphosphate phosphatase-like 1 cause opsismodysplasia.

Authors: Jennifer E Below; Dawn L Earl; Kathryn M Shively; Margaret J McMillin; Joshua D Smith; Emily H Turner; Mark J Stephan; Lihadh I Al-Gazali; Jozef L Hertecant; David Chitayat; Sheila Unger; Daniel H Cohn; Deborah Krakow; James M Swanson; Elaine M Faustman; Jay Shendure; Deborah A Nickerson; Michael J Bamshad
Journal: Am J Hum Genet Date: 2012-12-27 Impact factor: 11.025

Review 6. SHIP2 multiple functions: a balance between a negative control of PtdIns(3,4,5)P₃ level, a positive control of PtdIns(3,4)P₂ production, and intrinsic docking properties.

Authors: Christophe Erneux; William's Elong Edimo; Laurence Deneubourg; Isabelle Pirson
Journal: J Cell Biochem Date: 2011-09 Impact factor: 4.429

7. Nucleotide-sugar transporter SLC35D1 is critical to chondroitin sulfate synthesis in cartilage and skeletal development in mouse and human.

Authors: Shuichi Hiraoka; Tatsuya Furuichi; Gen Nishimura; Shunichi Shibata; Masaki Yanagishita; David L Rimoin; Andrea Superti-Furga; Peter G Nikkels; Minako Ogawa; Kayoko Katsuyama; Hidenao Toyoda; Akiko Kinoshita-Toyoda; Nobuhiro Ishida; Kyoichi Isono; Yutaka Sanai; Daniel H Cohn; Haruhiko Koseki; Shiro Ikegawa
Journal: Nat Med Date: 2007-10-21 Impact factor: 53.440

8. Identification of a second SH2-domain-containing protein closely related to the phosphatidylinositol polyphosphate 5-phosphatase SHIP.

Authors: X Pesesse; S Deleu; F De Smedt; L Drayer; C Erneux
Journal: Biochem Biophys Res Commun Date: 1997-10-29 Impact factor: 3.575

9. Identification of loss-of-function mutations of SLC35D1 in patients with Schneckenbecken dysplasia, but not with other severe spondylodysplastic dysplasias group diseases.

Authors: T Furuichi; H Kayserili; S Hiraoka; G Nishimura; H Ohashi; Y Alanay; J C Lerena; A D Aslanger; H Koseki; D H Cohn; A Superti-Furga; S Unger; S Ikegawa
Journal: J Med Genet Date: 2009-06-08 Impact factor: 6.318