Identification of biomarkers for glycaemic deterioration in type 2 diabetes
We identify biomarkers for disease progression in three type 2 diabetes cohorts encompassing 2,973 individuals across three molecular classes, metabolites, lipids and proteins. Homocitrulline, isoleucine and 2-aminoadipic acid, eight triacylglycerol species, and lowered sphingomyelin 42:2;2 levels a...
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Science::Medicine Biological Marker Glucose Blood Level Slieker, Roderick C. Donnelly, Louise A. Akalestou, Elina Lopez-Noriega, Livia Melhem, Rana Güneş, Ayşim Azar, Frederic Abou Efanov, Alexander Georgiadou, Eleni Muniangi-Muhitu, Hermine Sheikh, Mahsa Giordano, Giuseppe N. Åkerlund, Mikael Ahlqvist, Emma Ali, Ashfaq Banasik, Karina Brunak, Søren Barovic, Marko Bouland, Gerard A. Burdet, Frédéric Canouil, Mickaël Dragan, Iulian Elders, Petra J. M. Fernandez, Celine Festa, Andreas Fitipaldi, Hugo Froguel, Phillippe Gudmundsdottir, Valborg Gudnason, Vilmundur Gerl, Mathias J. van der Heijden, Amber A. Jennings, Lori L. Hansen, Michael K. Kim, Min Leclerc, Isabelle Klose, Christian Kuznetsov, Dmitry Aly, Dina Mansour Mehl, Florence Marek, Diana Melander, Olle Niknejad, Anne Ottosson, Filip Pavo, Imre Duffin, Kevin Syed, Samreen K. Shaw, Janice L. Cabrera, Over Pullen, Timothy J. Simons, Kai Solimena, Michele Suvitaival, Tommi Wretlind, Asger Rossing, Peter Lyssenko, Valeriya Quigley, Cristina Legido Groop, Leif Thorens, Bernard Franks, Paul W. Lim, Gareth E. Estall, Jennifer Ibberson, Mark Beulens, Joline W. J. Hart, Leen M. 't Pearson, Ewan R. Rutter, Guy A. Identification of biomarkers for glycaemic deterioration in type 2 diabetes |
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We identify biomarkers for disease progression in three type 2 diabetes cohorts encompassing 2,973 individuals across three molecular classes, metabolites, lipids and proteins. Homocitrulline, isoleucine and 2-aminoadipic acid, eight triacylglycerol species, and lowered sphingomyelin 42:2;2 levels are predictive of faster progression towards insulin requirement. Of ~1,300 proteins examined in two cohorts, levels of GDF15/MIC-1, IL-18Ra, CRELD1, NogoR, FAS, and ENPP7 are associated with faster progression, whilst SMAC/DIABLO, SPOCK1 and HEMK2 predict lower progression rates. In an external replication, proteins and lipids are associated with diabetes incidence and prevalence. NogoR/RTN4R injection improved glucose tolerance in high fat-fed male mice but impaired it in male db/db mice. High NogoR levels led to islet cell apoptosis, and IL-18R antagonised inflammatory IL-18 signalling towards nuclear factor kappa-B in vitro. This comprehensive, multi-disciplinary approach thus identifies biomarkers with potential prognostic utility, provides evidence for possible disease mechanisms, and identifies potential therapeutic avenues to slow diabetes progression. |
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Lee Kong Chian School of Medicine (LKCMedicine) |
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Lee Kong Chian School of Medicine (LKCMedicine) Slieker, Roderick C. Donnelly, Louise A. Akalestou, Elina Lopez-Noriega, Livia Melhem, Rana Güneş, Ayşim Azar, Frederic Abou Efanov, Alexander Georgiadou, Eleni Muniangi-Muhitu, Hermine Sheikh, Mahsa Giordano, Giuseppe N. Åkerlund, Mikael Ahlqvist, Emma Ali, Ashfaq Banasik, Karina Brunak, Søren Barovic, Marko Bouland, Gerard A. Burdet, Frédéric Canouil, Mickaël Dragan, Iulian Elders, Petra J. M. Fernandez, Celine Festa, Andreas Fitipaldi, Hugo Froguel, Phillippe Gudmundsdottir, Valborg Gudnason, Vilmundur Gerl, Mathias J. van der Heijden, Amber A. Jennings, Lori L. Hansen, Michael K. Kim, Min Leclerc, Isabelle Klose, Christian Kuznetsov, Dmitry Aly, Dina Mansour Mehl, Florence Marek, Diana Melander, Olle Niknejad, Anne Ottosson, Filip Pavo, Imre Duffin, Kevin Syed, Samreen K. Shaw, Janice L. Cabrera, Over Pullen, Timothy J. Simons, Kai Solimena, Michele Suvitaival, Tommi Wretlind, Asger Rossing, Peter Lyssenko, Valeriya Quigley, Cristina Legido Groop, Leif Thorens, Bernard Franks, Paul W. Lim, Gareth E. Estall, Jennifer Ibberson, Mark Beulens, Joline W. J. Hart, Leen M. 't Pearson, Ewan R. Rutter, Guy A. |
| format |
Article |
| author |
Slieker, Roderick C. Donnelly, Louise A. Akalestou, Elina Lopez-Noriega, Livia Melhem, Rana Güneş, Ayşim Azar, Frederic Abou Efanov, Alexander Georgiadou, Eleni Muniangi-Muhitu, Hermine Sheikh, Mahsa Giordano, Giuseppe N. Åkerlund, Mikael Ahlqvist, Emma Ali, Ashfaq Banasik, Karina Brunak, Søren Barovic, Marko Bouland, Gerard A. Burdet, Frédéric Canouil, Mickaël Dragan, Iulian Elders, Petra J. M. Fernandez, Celine Festa, Andreas Fitipaldi, Hugo Froguel, Phillippe Gudmundsdottir, Valborg Gudnason, Vilmundur Gerl, Mathias J. van der Heijden, Amber A. Jennings, Lori L. Hansen, Michael K. Kim, Min Leclerc, Isabelle Klose, Christian Kuznetsov, Dmitry Aly, Dina Mansour Mehl, Florence Marek, Diana Melander, Olle Niknejad, Anne Ottosson, Filip Pavo, Imre Duffin, Kevin Syed, Samreen K. Shaw, Janice L. Cabrera, Over Pullen, Timothy J. Simons, Kai Solimena, Michele Suvitaival, Tommi Wretlind, Asger Rossing, Peter Lyssenko, Valeriya Quigley, Cristina Legido Groop, Leif Thorens, Bernard Franks, Paul W. Lim, Gareth E. Estall, Jennifer Ibberson, Mark Beulens, Joline W. J. Hart, Leen M. 't Pearson, Ewan R. Rutter, Guy A. |
| author_sort |
Slieker, Roderick C. |
| title |
Identification of biomarkers for glycaemic deterioration in type 2 diabetes |
| title_short |
Identification of biomarkers for glycaemic deterioration in type 2 diabetes |
| title_full |
Identification of biomarkers for glycaemic deterioration in type 2 diabetes |
| title_fullStr |
Identification of biomarkers for glycaemic deterioration in type 2 diabetes |
| title_full_unstemmed |
Identification of biomarkers for glycaemic deterioration in type 2 diabetes |
| title_sort |
identification of biomarkers for glycaemic deterioration in type 2 diabetes |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/169758 |
| _version_ |
1779156597489008640 |
| spelling |
sg-ntu-dr.10356-1697582023-08-06T15:38:20Z Identification of biomarkers for glycaemic deterioration in type 2 diabetes Slieker, Roderick C. Donnelly, Louise A. Akalestou, Elina Lopez-Noriega, Livia Melhem, Rana Güneş, Ayşim Azar, Frederic Abou Efanov, Alexander Georgiadou, Eleni Muniangi-Muhitu, Hermine Sheikh, Mahsa Giordano, Giuseppe N. Åkerlund, Mikael Ahlqvist, Emma Ali, Ashfaq Banasik, Karina Brunak, Søren Barovic, Marko Bouland, Gerard A. Burdet, Frédéric Canouil, Mickaël Dragan, Iulian Elders, Petra J. M. Fernandez, Celine Festa, Andreas Fitipaldi, Hugo Froguel, Phillippe Gudmundsdottir, Valborg Gudnason, Vilmundur Gerl, Mathias J. van der Heijden, Amber A. Jennings, Lori L. Hansen, Michael K. Kim, Min Leclerc, Isabelle Klose, Christian Kuznetsov, Dmitry Aly, Dina Mansour Mehl, Florence Marek, Diana Melander, Olle Niknejad, Anne Ottosson, Filip Pavo, Imre Duffin, Kevin Syed, Samreen K. Shaw, Janice L. Cabrera, Over Pullen, Timothy J. Simons, Kai Solimena, Michele Suvitaival, Tommi Wretlind, Asger Rossing, Peter Lyssenko, Valeriya Quigley, Cristina Legido Groop, Leif Thorens, Bernard Franks, Paul W. Lim, Gareth E. Estall, Jennifer Ibberson, Mark Beulens, Joline W. J. Hart, Leen M. 't Pearson, Ewan R. Rutter, Guy A. Lee Kong Chian School of Medicine (LKCMedicine) Science::Medicine Biological Marker Glucose Blood Level We identify biomarkers for disease progression in three type 2 diabetes cohorts encompassing 2,973 individuals across three molecular classes, metabolites, lipids and proteins. Homocitrulline, isoleucine and 2-aminoadipic acid, eight triacylglycerol species, and lowered sphingomyelin 42:2;2 levels are predictive of faster progression towards insulin requirement. Of ~1,300 proteins examined in two cohorts, levels of GDF15/MIC-1, IL-18Ra, CRELD1, NogoR, FAS, and ENPP7 are associated with faster progression, whilst SMAC/DIABLO, SPOCK1 and HEMK2 predict lower progression rates. In an external replication, proteins and lipids are associated with diabetes incidence and prevalence. NogoR/RTN4R injection improved glucose tolerance in high fat-fed male mice but impaired it in male db/db mice. High NogoR levels led to islet cell apoptosis, and IL-18R antagonised inflammatory IL-18 signalling towards nuclear factor kappa-B in vitro. This comprehensive, multi-disciplinary approach thus identifies biomarkers with potential prognostic utility, provides evidence for possible disease mechanisms, and identifies potential therapeutic avenues to slow diabetes progression. Published version The ANDIS study was financed by Swedish governmental funding of clinical research (ALF), the Faculty of Medicine at Lund University, the Swedish Research Council project grant no. 2020-02191 and strategic research area grant no. 2009-1039 (EXODIAB), from the Swedish Foundation for Strategic Research IRC15-0067 (LUDC-IRC) and Vinnova Swelife. E.R.P. holds a Wellcome Trust New Investigator Award (102820/Z/13/Z). G.A.R. was supported by a Wellcome Trust Investigator Award (212625/Z/18/Z), MRC Programme grants (MR/R022259/1, MR/J0003042/1, MR/L020149/1), an Experimental Challenge Grant (DIVA, MR/L02036X/1), a Diabetes UK Project grant (BDA16/0005485) and Innovation Canada for a John R Evans Leader Award. G.E.L. was supported by a CIHR Project Grant (PJT-153144) and holds the Canada Research Chair in Adipocyte Development. This project has received funding from the Innovative Medicines Initiative 2 Joint Undertaking, under grant agreement no. 115881 (RHAPSODY). This Joint Undertaking receives support from the European Union’s Horizon 2020 research and innovation programme and EFPIA. This work is supported by the Swiss State Secretariat for Education‚ Research and Innovation (SERI), under contract no. 16.0097. Va.G. is supported by the Icelandic Research Fund (grant no. 184845-051). The Hoorn DCS cohort was supported by grants from the Netherlands Organisation for Health Research and Development (113102006, 459001015). J.E. is supported by the CIHR (PJT-168853). 2023-08-02T02:39:50Z 2023-08-02T02:39:50Z 2023 Journal Article Slieker, R. C., Donnelly, L. A., Akalestou, E., Lopez-Noriega, L., Melhem, R., Güneş, A., Azar, F. A., Efanov, A., Georgiadou, E., Muniangi-Muhitu, H., Sheikh, M., Giordano, G. N., Åkerlund, M., Ahlqvist, E., Ali, A., Banasik, K., Brunak, S., Barovic, M., Bouland, G. A., ...Rutter, G. A. (2023). Identification of biomarkers for glycaemic deterioration in type 2 diabetes. Nature Communications, 14(1), 2533-. https://dx.doi.org/10.1038/s41467-023-38148-7 2041-1723 https://hdl.handle.net/10356/169758 10.1038/s41467-023-38148-7 37137910 2-s2.0-85158018722 1 14 2533 en Nature Communications © The Author(s) 2023. Open Access. 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