Literature DB >> 15221640

The IHPK1 gene is disrupted at the 3p21.31 breakpoint of t(3;9) in a family with type 2 diabetes mellitus.

Junichi Kamimura1,2,3, Keiko Wakui4, Hiroko Kadowaki5, Yukio Watanabe1,2, Kazuaki Miyake6, Naoki Harada1,3,7, Michiyo Sakamoto8, Akira Kinoshita1,3, Koh-Ichiro Yoshiura1,3, Tohru Ohta3,9, Tatsuya Kishino3,9, Mutsuo Ishikawa2, Masato Kasuga6, Yoshimitsu Fukushima3,4, Norio Niikawa1,3, Naomichi Matsumoto10,11,12.   

Abstract

Type 2 diabetes mellitus (T2DM) is a group of multifactorial disorders due to either defective insulin secretion or action. Despite the fact that numerous genetic researches of T2DM have been pursued, the pathogenic mechanisms remain obscure. We encountered a T2DM family associated with a balanced reciprocal translocation, t(3;9)(p21.31;q33.1). To isolate a candidate gene susceptible to T2DM, we constructed physical maps covering both the 3p and 9q breakpoints of the translocation in the family. Consequently, the inositol hexaphosphate kinase 1 gene ( IHPK1) (OMIM *606991) was found to be disrupted at the 3p21.31 breakpoint. We then carried out sequence analysis for all coding regions of IHPK1 in 405 unrelated T2DM patients in order to validate whether aberrations of the gene are common in T2DM patients, but we failed to detect any pathogenic changes. The disruption of IHPK1 or another predisposing gene affected by position effect of the translocation may explain the T2DM phenotype at least in this family. Alternatively, the IHPK1 disruption in the family is a chance association.

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Year:  2004        PMID: 15221640     DOI: 10.1007/s10038-004-0158-z

Source DB:  PubMed          Journal:  J Hum Genet        ISSN: 1434-5161            Impact factor:   3.172


  22 in total

1.  HNF-1alpha G319S, a transactivation-deficient mutant, is associated with altered dynamics of diabetes onset in an Oji-Cree community.

Authors:  Barbara L Triggs-Raine; Robert D Kirkpatrick; Sherrie L Kelly; Lisa D Norquay; Peter A Cattini; Kazuya Yamagata; Anthony J G Hanley; Bernard Zinman; Stewart B Harris; P Hugh Barrett; Robert A Hegele
Journal:  Proc Natl Acad Sci U S A       Date:  2002-03-19       Impact factor: 11.205

2.  Construction and analysis of a sequence-ready map in 4q25: Rieger syndrome can be caused by haploinsufficiency of RIEG, but also by chromosome breaks approximately 90 kb upstream of this gene.

Authors:  R H Flomen; R Vatcheva; P A Gorman; P R Baptista; J Groet; I Barisić; I Ligutic; D Nizetić
Journal:  Genomics       Date:  1998-02-01       Impact factor: 5.736

3.  Synthesis of diphosphoinositol pentakisphosphate by a newly identified family of higher inositol polyphosphate kinases.

Authors:  A Saiardi; H Erdjument-Bromage; A M Snowman; P Tempst; S H Snyder
Journal:  Curr Biol       Date:  1999-11-18       Impact factor: 10.834

4.  Closing in on the Rieger syndrome gene on 4q25: mapping translocation breakpoints within a 50-kb region.

Authors:  N A Datson; E Semina; A A van Staalduinen; H G Dauwerse; E J Meershoek; J J Heus; R R Frants; J T den Dunnen; J C Murray; G J van Ommen
Journal:  Am J Hum Genet       Date:  1996-12       Impact factor: 11.025

5.  Insulin receptor substrate-1 variants in non-insulin-dependent diabetes.

Authors:  M Laakso; M Malkki; P Kekäläinen; J Kuusisto; S S Deeb
Journal:  J Clin Invest       Date:  1994-09       Impact factor: 14.808

6.  Adolescent onset Type 2 diabetes in a non-obese Caucasian patient with an unbalanced translocation.

Authors:  K R Owen; J Roland; K Smith; A T Hattersley
Journal:  Diabet Med       Date:  2003-06       Impact factor: 4.359

7.  A Pro12Ala substitution in PPARgamma2 associated with decreased receptor activity, lower body mass index and improved insulin sensitivity.

Authors:  S S Deeb; L Fajas; M Nemoto; J Pihlajamäki; L Mykkänen; J Kuusisto; M Laakso; W Fujimoto; J Auwerx
Journal:  Nat Genet       Date:  1998-11       Impact factor: 38.330

8.  Analysis of the gene sequences of the insulin receptor and the insulin-sensitive glucose transporter (GLUT-4) in patients with common-type non-insulin-dependent diabetes mellitus.

Authors:  J Kusari; U S Verma; J B Buse; R R Henry; J M Olefsky
Journal:  J Clin Invest       Date:  1991-10       Impact factor: 14.808

9.  Purified inositol hexakisphosphate kinase is an ATP synthase: diphosphoinositol pentakisphosphate as a high-energy phosphate donor.

Authors:  S M Voglmaier; M E Bembenek; A I Kaplin; G Dormán; J D Olszewski; G D Prestwich; S H Snyder
Journal:  Proc Natl Acad Sci U S A       Date:  1996-04-30       Impact factor: 11.205

Review 10.  Position effect in human genetic disease.

Authors:  D J Kleinjan; V van Heyningen
Journal:  Hum Mol Genet       Date:  1998       Impact factor: 6.150
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  12 in total

1.  Minimal peroxide exposure of neuronal cells induces multifaceted adaptive responses.

Authors:  Wayne Chadwick; Yu Zhou; Sung-Soo Park; Liyun Wang; Nicholas Mitchell; Matthew D Stone; Kevin G Becker; Bronwen Martin; Stuart Maudsley
Journal:  PLoS One       Date:  2010-12-17       Impact factor: 3.240

2.  Chemical pyrophosphorylation of functionally diverse peptides.

Authors:  Alan M Marmelstein; Lisa M Yates; John H Conway; Dorothea Fiedler
Journal:  J Am Chem Soc       Date:  2013-12-26       Impact factor: 15.419

Review 3.  The inositol pyrophosphate pathway in health and diseases.

Authors:  Anutosh Chakraborty
Journal:  Biol Rev Camb Philos Soc       Date:  2017-12-27

4.  MODY-like diabetes associated with an apparently balanced translocation: possible involvement of MPP7 gene and cell polarity in the pathogenesis of diabetes.

Authors:  Elizabeth J Bhoj; Stefano Romeo; Marco G Baroni; Guy Bartov; Roger A Schultz; Andrew R Zinn
Journal:  Mol Cytogenet       Date:  2009-02-13       Impact factor: 2.009

5.  Convergence of IPMK and LKB1-AMPK signaling pathways on metformin action.

Authors:  Sookhee Bang; Yong Chen; Rexford S Ahima; Sangwon F Kim
Journal:  Mol Endocrinol       Date:  2014-05-30

Review 6.  Zebrafish inositol polyphosphate kinases: new effectors of cilia and developmental signaling.

Authors:  Bhaskarjyoti Sarmah; Susan R Wente
Journal:  Adv Enzyme Regul       Date:  2009-11-13

7.  Gene deletion of inositol hexakisphosphate kinase 1 reveals inositol pyrophosphate regulation of insulin secretion, growth, and spermiogenesis.

Authors:  Rashna Bhandari; Krishna R Juluri; Adam C Resnick; Solomon H Snyder
Journal:  Proc Natl Acad Sci U S A       Date:  2008-02-11       Impact factor: 11.205

8.  Identification of cellular proteins that interact with human cytomegalovirus immediate-early protein 1 by protein array assay.

Authors:  Francisco Puerta Martínez; Qiyi Tang
Journal:  Viruses       Date:  2013-12-31       Impact factor: 5.048

Review 9.  The enzymes of human diphosphoinositol polyphosphate metabolism.

Authors:  Mark P Thomas; Barry V L Potter
Journal:  FEBS J       Date:  2013-11-05       Impact factor: 5.542

Review 10.  Roles of inositol phosphates and inositol pyrophosphates in development, cell signaling and nuclear processes.

Authors:  Marco M Tsui; John D York
Journal:  Adv Enzyme Regul       Date:  2009-12-16
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