Control of diabetic hyperglycaemia and insulin resistance through TSC22D4

Bilgen Ekim Üstünel; Kilian Friedrich; Adriano Maida; Xiaoyue Wang; Anja Krones-Herzig; Oksana Seibert; Anke Sommerfeld; Allan Jones; Tjeerd P. Sijmonsma; Carsten Sticht; Norbert Gretz; Thomas Fleming; Peter P. Nawroth; Wolfgang Stremmel; Adam J. Rose; Mauricio Berriel-Diaz; Matthias Blüher; Stephan Herzig

doi:10.1038/ncomms13267

Control of diabetic hyperglycaemia and insulin resistance through TSC22D4

Bilgen Ekim Üstünel
, Kilian Friedrich
, Adriano Maida
, Xiaoyue Wang
, Anja Krones-Herzig
, Oksana Seibert
, Anke Sommerfeld
, Allan Jones
, Tjeerd P. Sijmonsma
, Carsten Sticht
, Norbert Gretz
, Thomas Fleming
, Peter P. Nawroth
, Wolfgang Stremmel
, Adam J. Rose
, Mauricio Berriel-Diaz
, Matthias Blüher
, Stephan Herzig

Helmholtz Zentrum München German Research Center for Environmental Health
University Hospital Heidelberg
Heidelberg University
Heidelberg University
University of Leipzig

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

32 Scopus citations

Abstract

Obesity-related insulin resistance represents the core component of the metabolic syndrome, promoting glucose intolerance, pancreatic beta cell failure and type 2 diabetes. Efficient and safe insulin sensitization and glucose control remain critical therapeutic aims to prevent diabetic late complications Here, we identify transforming growth factor beta-like stimulated clone (TSC) 22 D4 as a molecular determinant of insulin signalling and glucose handling. Hepatic TSC22D4 inhibition both prevents and reverses hyperglycaemia, glucose intolerance and insulin resistance in diabetes mouse models. TSC22D4 exerts its effects on systemic glucose homeostasis - at least in part - through the direct transcriptional regulation of the small secretory protein lipocalin 13 (LCN13). Human diabetic patients display elevated hepatic TSC22D4 expression, which correlates with decreased insulin sensitivity, hyperglycaemia and LCN13 serum levels. Our results establish TSC22D4 as a checkpoint in systemic glucose metabolism in both mice and humans, and propose TSC22D4 inhibition as an insulin sensitizing option in diabetes therapy.

Original language	English
Article number	13267
Journal	Nature Communications
Volume	7
DOIs	https://doi.org/10.1038/ncomms13267
State	Published - 9 Nov 2016
Externally published	Yes

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SDG 3 Good Health and Well-being

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10.1038/ncomms13267

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Ekim Üstünel, B., Friedrich, K., Maida, A., Wang, X., Krones-Herzig, A., Seibert, O., Sommerfeld, A., Jones, A., Sijmonsma, T. P., Sticht, C., Gretz, N., Fleming, T., Nawroth, P. P., Stremmel, W., Rose, A. J., Berriel-Diaz, M., Blüher, M., & Herzig, S. (2016). Control of diabetic hyperglycaemia and insulin resistance through TSC22D4. Nature Communications, 7, Article 13267. https://doi.org/10.1038/ncomms13267

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title = "Control of diabetic hyperglycaemia and insulin resistance through TSC22D4",

abstract = "Obesity-related insulin resistance represents the core component of the metabolic syndrome, promoting glucose intolerance, pancreatic beta cell failure and type 2 diabetes. Efficient and safe insulin sensitization and glucose control remain critical therapeutic aims to prevent diabetic late complications Here, we identify transforming growth factor beta-like stimulated clone (TSC) 22 D4 as a molecular determinant of insulin signalling and glucose handling. Hepatic TSC22D4 inhibition both prevents and reverses hyperglycaemia, glucose intolerance and insulin resistance in diabetes mouse models. TSC22D4 exerts its effects on systemic glucose homeostasis - at least in part - through the direct transcriptional regulation of the small secretory protein lipocalin 13 (LCN13). Human diabetic patients display elevated hepatic TSC22D4 expression, which correlates with decreased insulin sensitivity, hyperglycaemia and LCN13 serum levels. Our results establish TSC22D4 as a checkpoint in systemic glucose metabolism in both mice and humans, and propose TSC22D4 inhibition as an insulin sensitizing option in diabetes therapy.",

author = "\{Ekim {\"U}st{\"u}nel\}, Bilgen and Kilian Friedrich and Adriano Maida and Xiaoyue Wang and Anja Krones-Herzig and Oksana Seibert and Anke Sommerfeld and Allan Jones and Sijmonsma, \{Tjeerd P.\} and Carsten Sticht and Norbert Gretz and Thomas Fleming and Nawroth, \{Peter P.\} and Wolfgang Stremmel and Rose, \{Adam J.\} and Mauricio Berriel-Diaz and Matthias Bl{\"u}her and Stephan Herzig",

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Ekim Üstünel, B, Friedrich, K, Maida, A, Wang, X, Krones-Herzig, A, Seibert, O, Sommerfeld, A, Jones, A, Sijmonsma, TP, Sticht, C, Gretz, N, Fleming, T, Nawroth, PP, Stremmel, W, Rose, AJ, Berriel-Diaz, M, Blüher, M & Herzig, S 2016, 'Control of diabetic hyperglycaemia and insulin resistance through TSC22D4', Nature Communications, vol. 7, 13267. https://doi.org/10.1038/ncomms13267

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T1 - Control of diabetic hyperglycaemia and insulin resistance through TSC22D4

AU - Ekim Üstünel, Bilgen

AU - Friedrich, Kilian

AU - Maida, Adriano

AU - Wang, Xiaoyue

AU - Krones-Herzig, Anja

AU - Seibert, Oksana

AU - Sommerfeld, Anke

AU - Jones, Allan

AU - Sijmonsma, Tjeerd P.

AU - Sticht, Carsten

AU - Gretz, Norbert

AU - Fleming, Thomas

AU - Nawroth, Peter P.

AU - Stremmel, Wolfgang

AU - Rose, Adam J.

AU - Berriel-Diaz, Mauricio

AU - Blüher, Matthias

AU - Herzig, Stephan

PY - 2016/11/9

Y1 - 2016/11/9

N2 - Obesity-related insulin resistance represents the core component of the metabolic syndrome, promoting glucose intolerance, pancreatic beta cell failure and type 2 diabetes. Efficient and safe insulin sensitization and glucose control remain critical therapeutic aims to prevent diabetic late complications Here, we identify transforming growth factor beta-like stimulated clone (TSC) 22 D4 as a molecular determinant of insulin signalling and glucose handling. Hepatic TSC22D4 inhibition both prevents and reverses hyperglycaemia, glucose intolerance and insulin resistance in diabetes mouse models. TSC22D4 exerts its effects on systemic glucose homeostasis - at least in part - through the direct transcriptional regulation of the small secretory protein lipocalin 13 (LCN13). Human diabetic patients display elevated hepatic TSC22D4 expression, which correlates with decreased insulin sensitivity, hyperglycaemia and LCN13 serum levels. Our results establish TSC22D4 as a checkpoint in systemic glucose metabolism in both mice and humans, and propose TSC22D4 inhibition as an insulin sensitizing option in diabetes therapy.

AB - Obesity-related insulin resistance represents the core component of the metabolic syndrome, promoting glucose intolerance, pancreatic beta cell failure and type 2 diabetes. Efficient and safe insulin sensitization and glucose control remain critical therapeutic aims to prevent diabetic late complications Here, we identify transforming growth factor beta-like stimulated clone (TSC) 22 D4 as a molecular determinant of insulin signalling and glucose handling. Hepatic TSC22D4 inhibition both prevents and reverses hyperglycaemia, glucose intolerance and insulin resistance in diabetes mouse models. TSC22D4 exerts its effects on systemic glucose homeostasis - at least in part - through the direct transcriptional regulation of the small secretory protein lipocalin 13 (LCN13). Human diabetic patients display elevated hepatic TSC22D4 expression, which correlates with decreased insulin sensitivity, hyperglycaemia and LCN13 serum levels. Our results establish TSC22D4 as a checkpoint in systemic glucose metabolism in both mice and humans, and propose TSC22D4 inhibition as an insulin sensitizing option in diabetes therapy.

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DO - 10.1038/ncomms13267

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SN - 2041-1723

VL - 7

JO - Nature Communications

JF - Nature Communications

M1 - 13267

ER -

Control of diabetic hyperglycaemia and insulin resistance through TSC22D4

Abstract

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