Integrated Network Analysis Reveals an Association between Plasma Mannose Levels and Insulin Resistance

Sunjae Lee; Cheng Zhang; Murat Kilicarslan; Brian D. Piening; Elias Bjornson; Björn M. Hallström; Albert K. Groen; Ele Ferrannini; Markku Laakso; Michael Snyder; Matthias Blüher; Mathias Uhlen; Jens Nielsen; Ulf Smith; Mireille J. Serlie; Jan Boren; Adil Mardinoglu

doi:https://doi.org/10.1016/j.cmet.2016.05.026

Integrated Network Analysis Reveals an Association between Plasma Mannose Levels and Insulin Resistance

Sunjae Lee, Cheng Zhang, Murat Kilicarslan, Brian D. Piening, Elias Bjornson, Björn M. Hallström, Albert K. Groen, Ele Ferrannini, Markku Laakso, Michael Snyder, Matthias Blüher, Mathias Uhlen, Jens Nielsen, Ulf Smith, Mireille J. Serlie, Jan Boren, Adil Mardinoglu

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

119 Citations (Scopus)

Abstract

To investigate the biological processes that are altered in obese subjects, we generated cell-specific integrated networks (INs) by merging genome-scale metabolic, transcriptional regulatory and protein-protein interaction networks. We performed genome-wide transcriptomics analysis to determine the global gene expression changes in the liver and three adipose tissues from obese subjects undergoing bariatric surgery and integrated these data into the cell-specific INs. We found dysregulations in mannose metabolism in obese subjects and validated our predictions by detecting mannose levels in the plasma of the lean and obese subjects. We observed significant correlations between plasma mannose levels, BMI, and insulin resistance (IR). We also measured plasma mannose levels of the subjects in two additional different cohorts and observed that an increased plasma mannose level was associated with IR and insulin secretion. We finally identified mannose as one of the best plasma metabolites in explaining the variance in obesity-independent IR

Original language	English
Pages (from-to)	172-184
Journal	Cell metabolism
Volume	24
Issue number	1
DOIs	https://doi.org/10.1016/j.cmet.2016.05.026
Publication status	Published - 2016

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Cite this

Lee, S., Zhang, C., Kilicarslan, M., Piening, B. D., Bjornson, E., Hallström, B. M., Groen, A. K., Ferrannini, E., Laakso, M., Snyder, M., Blüher, M., Uhlen, M., Nielsen, J., Smith, U., Serlie, M. J., Boren, J., & Mardinoglu, A. (2016). Integrated Network Analysis Reveals an Association between Plasma Mannose Levels and Insulin Resistance. Cell metabolism, 24(1), 172-184. https://doi.org/10.1016/j.cmet.2016.05.026

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title = "Integrated Network Analysis Reveals an Association between Plasma Mannose Levels and Insulin Resistance",

abstract = "To investigate the biological processes that are altered in obese subjects, we generated cell-specific integrated networks (INs) by merging genome-scale metabolic, transcriptional regulatory and protein-protein interaction networks. We performed genome-wide transcriptomics analysis to determine the global gene expression changes in the liver and three adipose tissues from obese subjects undergoing bariatric surgery and integrated these data into the cell-specific INs. We found dysregulations in mannose metabolism in obese subjects and validated our predictions by detecting mannose levels in the plasma of the lean and obese subjects. We observed significant correlations between plasma mannose levels, BMI, and insulin resistance (IR). We also measured plasma mannose levels of the subjects in two additional different cohorts and observed that an increased plasma mannose level was associated with IR and insulin secretion. We finally identified mannose as one of the best plasma metabolites in explaining the variance in obesity-independent IR",

author = "Sunjae Lee and Cheng Zhang and Murat Kilicarslan and Piening, {Brian D.} and Elias Bjornson and Hallstr{\"o}m, {Bj{\"o}rn M.} and Groen, {Albert K.} and Ele Ferrannini and Markku Laakso and Michael Snyder and Matthias Bl{\"u}her and Mathias Uhlen and Jens Nielsen and Ulf Smith and Serlie, {Mireille J.} and Jan Boren and Adil Mardinoglu",

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Lee, S, Zhang, C, Kilicarslan, M, Piening, BD, Bjornson, E, Hallström, BM, Groen, AK, Ferrannini, E, Laakso, M, Snyder, M, Blüher, M, Uhlen, M, Nielsen, J, Smith, U, Serlie, MJ, Boren, J & Mardinoglu, A 2016, 'Integrated Network Analysis Reveals an Association between Plasma Mannose Levels and Insulin Resistance', Cell metabolism, vol. 24, no. 1, pp. 172-184. https://doi.org/10.1016/j.cmet.2016.05.026

TY - JOUR

T1 - Integrated Network Analysis Reveals an Association between Plasma Mannose Levels and Insulin Resistance

AU - Lee, Sunjae

AU - Zhang, Cheng

AU - Kilicarslan, Murat

AU - Piening, Brian D.

AU - Bjornson, Elias

AU - Hallström, Björn M.

AU - Groen, Albert K.

AU - Ferrannini, Ele

AU - Laakso, Markku

AU - Snyder, Michael

AU - Blüher, Matthias

AU - Uhlen, Mathias

AU - Nielsen, Jens

AU - Smith, Ulf

AU - Serlie, Mireille J.

AU - Boren, Jan

AU - Mardinoglu, Adil

PY - 2016

Y1 - 2016

N2 - To investigate the biological processes that are altered in obese subjects, we generated cell-specific integrated networks (INs) by merging genome-scale metabolic, transcriptional regulatory and protein-protein interaction networks. We performed genome-wide transcriptomics analysis to determine the global gene expression changes in the liver and three adipose tissues from obese subjects undergoing bariatric surgery and integrated these data into the cell-specific INs. We found dysregulations in mannose metabolism in obese subjects and validated our predictions by detecting mannose levels in the plasma of the lean and obese subjects. We observed significant correlations between plasma mannose levels, BMI, and insulin resistance (IR). We also measured plasma mannose levels of the subjects in two additional different cohorts and observed that an increased plasma mannose level was associated with IR and insulin secretion. We finally identified mannose as one of the best plasma metabolites in explaining the variance in obesity-independent IR

AB - To investigate the biological processes that are altered in obese subjects, we generated cell-specific integrated networks (INs) by merging genome-scale metabolic, transcriptional regulatory and protein-protein interaction networks. We performed genome-wide transcriptomics analysis to determine the global gene expression changes in the liver and three adipose tissues from obese subjects undergoing bariatric surgery and integrated these data into the cell-specific INs. We found dysregulations in mannose metabolism in obese subjects and validated our predictions by detecting mannose levels in the plasma of the lean and obese subjects. We observed significant correlations between plasma mannose levels, BMI, and insulin resistance (IR). We also measured plasma mannose levels of the subjects in two additional different cohorts and observed that an increased plasma mannose level was associated with IR and insulin secretion. We finally identified mannose as one of the best plasma metabolites in explaining the variance in obesity-independent IR

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DO - https://doi.org/10.1016/j.cmet.2016.05.026

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SN - 1550-4131

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