Positional cloning of Sorcs1, a type 2 diabetes quantitative trait locus

Susanne M. Clee; Brian S. Yandell; Kathryn M. Schueler; Mary E. Rabaglia; Oliver C. Richards; Summer M. Raines; Edward A. Kabara; Daniel M. Klass; Eric T.K. Mui; Donald S. Stapleton; Mark P. Gray-Keller; Matthew B. Young; Jonathan P. Stoehr; Hong Lan; Igor Boronenkov; Philipp W. Raess; Matthew T. Flowers; Alan D. Attie

doi:10.1038/ng1796

Positional cloning of Sorcs1, a type 2 diabetes quantitative trait locus

Susanne M. Clee, Brian S. Yandell, Kathryn M. Schueler, Mary E. Rabaglia, Oliver C. Richards, Summer M. Raines, Edward A. Kabara, Daniel M. Klass, Eric T.K. Mui, Donald S. Stapleton, Mark P. Gray-Keller, Matthew B. Young, Jonathan P. Stoehr, Hong Lan, Igor Boronenkov, Philipp W. Raess, Matthew T. Flowers, Alan D. Attie

Research output: Contribution to journal › Article › peer-review

140 Scopus citations

Abstract

We previously mapped the type 2 diabetes mellitus-2 locus (T2dm2), which affects fasting insulin levels, to distal chromosome 19 in a leptin-deficient obese F₂ intercross derived from C57BL/6 (B6) and BTBR T⁺ tf/J (BTBR) mice. Introgression of a 7-Mb segment of the B6 chromosome 19 into the BTBR background (strain 1339A) replicated the reduced insulin linked to T2dm2. The 1339A mice have markedly impaired insulin secretion in vivo and disrupted islet morphology. We used subcongenic strains derived from 1339A to localize the T2dm2 quantitative trait locus (QTL) to a 242-kb segment comprising the promoter, first exon and most of the first intron of the Sorcs1 gene. This was the only gene in the 1339A strain for which we detected amino acid substitutions and expression level differences between mice carrying B6 and BTBR alleles of this insert, thereby identifying variation within the Sorcs1 gene as underlying the phenotype associated with the T2dm2 locus. SorCS1 binds platelet-derived growth factor, a growth factor crucial for pericyte recruitment to the microvasculature, and may thus have a role in expanding or maintaining the islet vasculature. Our identification of the Sorcs1 gene provides insight into the pathway underlying the pathophysiology of obesity-induced type 2 diabetes mellitus.

Original language	English (US)
Pages (from-to)	688-693
Number of pages	6
Journal	Nature genetics
Volume	38
Issue number	6
DOIs	https://doi.org/10.1038/ng1796
State	Published - Jun 2006
Externally published	Yes

ASJC Scopus subject areas

Genetics

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Clee, S. M., Yandell, B. S., Schueler, K. M., Rabaglia, M. E., Richards, O. C., Raines, S. M., Kabara, E. A., Klass, D. M., Mui, E. T. K., Stapleton, D. S., Gray-Keller, M. P., Young, M. B., Stoehr, J. P., Lan, H., Boronenkov, I., Raess, P. W., Flowers, M. T., & Attie, A. D. (2006). Positional cloning of Sorcs1, a type 2 diabetes quantitative trait locus. Nature genetics, 38(6), 688-693. https://doi.org/10.1038/ng1796

Clee, SM, Yandell, BS, Schueler, KM, Rabaglia, ME, Richards, OC, Raines, SM, Kabara, EA, Klass, DM, Mui, ETK, Stapleton, DS, Gray-Keller, MP, Young, MB, Stoehr, JP, Lan, H, Boronenkov, I, Raess, PW, Flowers, MT & Attie, AD 2006, 'Positional cloning of Sorcs1, a type 2 diabetes quantitative trait locus', Nature genetics, vol. 38, no. 6, pp. 688-693. https://doi.org/10.1038/ng1796

@article{cfd91227f2d44131b938af273b531fd0,

title = "Positional cloning of Sorcs1, a type 2 diabetes quantitative trait locus",

abstract = "We previously mapped the type 2 diabetes mellitus-2 locus (T2dm2), which affects fasting insulin levels, to distal chromosome 19 in a leptin-deficient obese F2 intercross derived from C57BL/6 (B6) and BTBR T+ tf/J (BTBR) mice. Introgression of a 7-Mb segment of the B6 chromosome 19 into the BTBR background (strain 1339A) replicated the reduced insulin linked to T2dm2. The 1339A mice have markedly impaired insulin secretion in vivo and disrupted islet morphology. We used subcongenic strains derived from 1339A to localize the T2dm2 quantitative trait locus (QTL) to a 242-kb segment comprising the promoter, first exon and most of the first intron of the Sorcs1 gene. This was the only gene in the 1339A strain for which we detected amino acid substitutions and expression level differences between mice carrying B6 and BTBR alleles of this insert, thereby identifying variation within the Sorcs1 gene as underlying the phenotype associated with the T2dm2 locus. SorCS1 binds platelet-derived growth factor, a growth factor crucial for pericyte recruitment to the microvasculature, and may thus have a role in expanding or maintaining the islet vasculature. Our identification of the Sorcs1 gene provides insight into the pathway underlying the pathophysiology of obesity-induced type 2 diabetes mellitus.",

author = "Clee, {Susanne M.} and Yandell, {Brian S.} and Schueler, {Kathryn M.} and Rabaglia, {Mary E.} and Richards, {Oliver C.} and Raines, {Summer M.} and Kabara, {Edward A.} and Klass, {Daniel M.} and Mui, {Eric T.K.} and Stapleton, {Donald S.} and Gray-Keller, {Mark P.} and Young, {Matthew B.} and Stoehr, {Jonathan P.} and Hong Lan and Igor Boronenkov and Raess, {Philipp W.} and Flowers, {Matthew T.} and Attie, {Alan D.}",

note = "Funding Information: This work was supported by US National Institute of Diabetes and Digestive and Kidney Diseases grants 58037 and 66369 to A.D.A.; American Heart Association postdoctoral fellowships 0325480Z and 0525688Z to S.M.C.; grants from the US Department of Agriculture{\textquoteright}s Cooperative State Research, Education and Extension Service to B.S.Y. and A.D.A.; a Sponsored Research Agreement with Xenon Pharmaceuticals (formerly Xenon Genetics) and an American Diabetes Association Mentor-Based Fellowship to A.D.A. We thank W.F. Dove for his advice and encouragement throughout this project, A. Steinberg for his expert assistance in preparing the figures for this manuscript and the staff in our animal care facility for their dedication to this work.",

year = "2006",

month = jun,

doi = "10.1038/ng1796",

language = "English (US)",

volume = "38",

pages = "688--693",

journal = "Nature genetics",

issn = "1061-4036",

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T1 - Positional cloning of Sorcs1, a type 2 diabetes quantitative trait locus

AU - Clee, Susanne M.

AU - Yandell, Brian S.

AU - Schueler, Kathryn M.

AU - Rabaglia, Mary E.

AU - Richards, Oliver C.

AU - Raines, Summer M.

AU - Kabara, Edward A.

AU - Klass, Daniel M.

AU - Mui, Eric T.K.

AU - Stapleton, Donald S.

AU - Gray-Keller, Mark P.

AU - Young, Matthew B.

AU - Stoehr, Jonathan P.

AU - Lan, Hong

AU - Boronenkov, Igor

AU - Raess, Philipp W.

AU - Flowers, Matthew T.

AU - Attie, Alan D.

N1 - Funding Information: This work was supported by US National Institute of Diabetes and Digestive and Kidney Diseases grants 58037 and 66369 to A.D.A.; American Heart Association postdoctoral fellowships 0325480Z and 0525688Z to S.M.C.; grants from the US Department of Agriculture’s Cooperative State Research, Education and Extension Service to B.S.Y. and A.D.A.; a Sponsored Research Agreement with Xenon Pharmaceuticals (formerly Xenon Genetics) and an American Diabetes Association Mentor-Based Fellowship to A.D.A. We thank W.F. Dove for his advice and encouragement throughout this project, A. Steinberg for his expert assistance in preparing the figures for this manuscript and the staff in our animal care facility for their dedication to this work.

PY - 2006/6

Y1 - 2006/6

N2 - We previously mapped the type 2 diabetes mellitus-2 locus (T2dm2), which affects fasting insulin levels, to distal chromosome 19 in a leptin-deficient obese F2 intercross derived from C57BL/6 (B6) and BTBR T+ tf/J (BTBR) mice. Introgression of a 7-Mb segment of the B6 chromosome 19 into the BTBR background (strain 1339A) replicated the reduced insulin linked to T2dm2. The 1339A mice have markedly impaired insulin secretion in vivo and disrupted islet morphology. We used subcongenic strains derived from 1339A to localize the T2dm2 quantitative trait locus (QTL) to a 242-kb segment comprising the promoter, first exon and most of the first intron of the Sorcs1 gene. This was the only gene in the 1339A strain for which we detected amino acid substitutions and expression level differences between mice carrying B6 and BTBR alleles of this insert, thereby identifying variation within the Sorcs1 gene as underlying the phenotype associated with the T2dm2 locus. SorCS1 binds platelet-derived growth factor, a growth factor crucial for pericyte recruitment to the microvasculature, and may thus have a role in expanding or maintaining the islet vasculature. Our identification of the Sorcs1 gene provides insight into the pathway underlying the pathophysiology of obesity-induced type 2 diabetes mellitus.

AB - We previously mapped the type 2 diabetes mellitus-2 locus (T2dm2), which affects fasting insulin levels, to distal chromosome 19 in a leptin-deficient obese F2 intercross derived from C57BL/6 (B6) and BTBR T+ tf/J (BTBR) mice. Introgression of a 7-Mb segment of the B6 chromosome 19 into the BTBR background (strain 1339A) replicated the reduced insulin linked to T2dm2. The 1339A mice have markedly impaired insulin secretion in vivo and disrupted islet morphology. We used subcongenic strains derived from 1339A to localize the T2dm2 quantitative trait locus (QTL) to a 242-kb segment comprising the promoter, first exon and most of the first intron of the Sorcs1 gene. This was the only gene in the 1339A strain for which we detected amino acid substitutions and expression level differences between mice carrying B6 and BTBR alleles of this insert, thereby identifying variation within the Sorcs1 gene as underlying the phenotype associated with the T2dm2 locus. SorCS1 binds platelet-derived growth factor, a growth factor crucial for pericyte recruitment to the microvasculature, and may thus have a role in expanding or maintaining the islet vasculature. Our identification of the Sorcs1 gene provides insight into the pathway underlying the pathophysiology of obesity-induced type 2 diabetes mellitus.

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Positional cloning of Sorcs1, a type 2 diabetes quantitative trait locus

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