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Recessive mutations in the INS gene result in neonatal diabetes through reduced insulin biosynthesis.


ABSTRACT: Heterozygous coding mutations in the INS gene that encodes preproinsulin were recently shown to be an important cause of permanent neonatal diabetes. These dominantly acting mutations prevent normal folding of proinsulin, which leads to beta-cell death through endoplasmic reticulum stress and apoptosis. We now report 10 different recessive INS mutations in 15 probands with neonatal diabetes. Functional studies showed that recessive mutations resulted in diabetes because of decreased insulin biosynthesis through distinct mechanisms, including gene deletion, lack of the translation initiation signal, and altered mRNA stability because of the disruption of a polyadenylation signal. A subset of recessive mutations caused abnormal INS transcription, including the deletion of the C1 and E1 cis regulatory elements, or three different single base-pair substitutions in a CC dinucleotide sequence located between E1 and A1 elements. In keeping with an earlier and more severe beta-cell defect, patients with recessive INS mutations had a lower birth weight (-3.2 SD score vs. -2.0 SD score) and were diagnosed earlier (median 1 week vs. 10 weeks) compared to those with dominant INS mutations. Mutations in the insulin gene can therefore result in neonatal diabetes as a result of two contrasting pathogenic mechanisms. Moreover, the recessively inherited mutations provide a genetic demonstration of the essential role of multiple sequence elements that regulate the biosynthesis of insulin in man.

SUBMITTER: Garin I 

PROVIDER: S-EPMC2840338 | biostudies-literature | 2010 Feb

REPOSITORIES: biostudies-literature

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Recessive mutations in the INS gene result in neonatal diabetes through reduced insulin biosynthesis.

Garin Intza I   Edghill Emma L EL   Akerman Ildem I   Rubio-Cabezas Oscar O   Rica Itxaso I   Locke Jonathan M JM   Maestro Miguel Angel MA   Alshaikh Adnan A   Bundak Ruveyde R   del Castillo Gabriel G   Deeb Asma A   Deiss Dorothee D   Fernandez Juan M JM   Godbole Koumudi K   Hussain Khalid K   O'Connell Michele M   Klupa Thomasz T   Kolouskova Stanislava S   Mohsin Fauzia F   Perlman Kusiel K   Sumnik Zdenek Z   Rial Jose M JM   Ugarte Estibaliz E   Vasanthi Thiruvengadam T   Johnstone Karen K   Flanagan Sarah E SE   Martínez Rosa R   Castaño Carlos C   Patch Ann-Marie AM   Fernández-Rebollo Eduardo E   Raile Klemens K   Morgan Noel N   Harries Lorna W LW   Castaño Luis L   Ellard Sian S   Ferrer Jorge J   Perez de Nanclares Guiomar G   Hattersley Andrew T AT  

Proceedings of the National Academy of Sciences of the United States of America 20100128 7


Heterozygous coding mutations in the INS gene that encodes preproinsulin were recently shown to be an important cause of permanent neonatal diabetes. These dominantly acting mutations prevent normal folding of proinsulin, which leads to beta-cell death through endoplasmic reticulum stress and apoptosis. We now report 10 different recessive INS mutations in 15 probands with neonatal diabetes. Functional studies showed that recessive mutations resulted in diabetes because of decreased insulin bios  ...[more]

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