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Literature DB >> 34183850

Multi-omics profiling of living human pancreatic islet donors reveals heterogeneous beta cell trajectories towards type 2 diabetes.

Leonore Wigger¹, Marko Barovic^2,3,4, Andreas-David Brunner⁵, Flavia Marzetta¹, Eyke Schöniger^2,3,4, Florence Mehl¹, Nicole Kipke^2,3,4, Daniela Friedland^2,3,4, Frederic Burdet¹, Camille Kessler¹, Mathias Lesche⁶, Bernard Thorens⁷, Ezio Bonifacio^3,4,8, Cristina Legido-Quigley^9,10, Pierre Barbier Saint Hilaire¹¹, Philippe Delerive¹², Andreas Dahl⁶, Christian Klose¹³, Mathias J Gerl¹³, Kai Simons¹³, Daniela Aust^14,15, Jürgen Weitz¹⁶, Marius Distler¹⁶, Anke M Schulte¹⁷, Matthias Mann¹⁸, Mark Ibberson¹⁹, Michele Solimena^20,21,22.

Abstract

Most research on human pancreatic islets is conducted on samples obtained from normoglycaemic or diseased brain-dead donors and thus cannot accurately describe the molecular changes of pancreatic islet beta cells as they progress towards a state of deficient insulin secretion in type 2 diabetes (T2D). Here, we conduct a comprehensive multi-omics analysis of pancreatic islets obtained from metabolically profiled pancreatectomized living human donors stratified along the glycemic continuum, from normoglycemia to T2D. We find that islet pools isolated from surgical samples by laser-capture microdissection display remarkably more heterogeneous transcriptomic and proteomic profiles in patients with diabetes than in non-diabetic controls. The differential regulation of islet gene expression is already observed in prediabetic individuals with impaired glucose tolerance. Our findings demonstrate a progressive, but disharmonic, remodelling of mature beta cells, challenging current hypotheses of linear trajectories toward precursor or transdifferentiation stages in T2D. Furthermore, through integration of islet transcriptomics with preoperative blood plasma lipidomics, we define the relative importance of gene coexpression modules and lipids that are positively or negatively associated with HbA1c levels, pointing to potential prognostic markers.

Entities: Chemical

Mesh：

Substances：

Year: 2021 PMID： 34183850 DOI： 10.1038/s42255-021-00420-9

Source DB: PubMed Journal: Nat Metab ISSN： 2522-5812

41 in total

1. Evidence of stress in β cells obtained with laser capture microdissection from pancreases of brain dead donors.

Authors: Aref Ebrahimi; Min-Ho Jung; Jonathan M Dreyfuss; Hui Pan; Dennis Sgroi; Susan Bonner-Weir; Gordon C Weir
Journal: Islets Date: 2017-03-04 Impact factor: 2.694

2. Pancreatic β cell dedifferentiation in diabetes and redifferentiation following insulin therapy.

Authors: Zhiyu Wang; Nathaniel W York; Colin G Nichols; Maria S Remedi
Journal: Cell Metab Date: 2014-04-17 Impact factor: 27.287

3. Activation of macrophage-associated molecules after brain death in islets.

Authors: Hirochika Toyama; Moriatsu Takada; Yasuyuki Suzuki; Yoshikazu Kuroda
Journal: Cell Transplant Date: 2003 Impact factor: 4.064

4. Pancreatic β cell dedifferentiation as a mechanism of diabetic β cell failure.

Authors: Chutima Talchai; Shouhong Xuan; Hua V Lin; Lori Sussel; Domenico Accili
Journal: Cell Date: 2012-09-14 Impact factor: 41.582

5. The Expression of Aldolase B in Islets Is Negatively Associated With Insulin Secretion in Humans.

Authors: Felicia Gerst; Benjamin A Jaghutriz; Harald Staiger; Anke M Schulte; Estela Lorza-Gil; Gabriele Kaiser; Madhura Panse; Sieglinde Haug; Martin Heni; Monika Schütz; Mandy Stadion; Annette Schürmann; Flavia Marzetta; Mark Ibberson; Bence Sipos; Falko Fend; Thomas Fleming; Peter P Nawroth; Alfred Königsrainer; Silvio Nadalin; Silvia Wagner; Andreas Peter; Andreas Fritsche; Daniela Richter; Michele Solimena; Hans-Ulrich Häring; Susanne Ullrich; Robert Wagner
Journal: J Clin Endocrinol Metab Date: 2018-12-01 Impact factor: 5.958

6. Evidence of β-Cell Dedifferentiation in Human Type 2 Diabetes.

Authors: Francesca Cinti; Ryotaro Bouchi; Ja Young Kim-Muller; Yoshiaki Ohmura; P R Sandoval; Matilde Masini; Lorella Marselli; Mara Suleiman; Lloyd E Ratner; Piero Marchetti; Domenico Accili
Journal: J Clin Endocrinol Metab Date: 2015-12-29 Impact factor: 5.958

7. Reversal of type 2 diabetes: normalisation of beta cell function in association with decreased pancreas and liver triacylglycerol.

Authors: E L Lim; K G Hollingsworth; B S Aribisala; M J Chen; J C Mathers; R Taylor
Journal: Diabetologia Date: 2011-06-09 Impact factor: 10.122

8. Glucolipotoxicity, β-Cells, and Diabetes: The Emperor Has No Clothes.

Authors: Gordon C Weir
Journal: Diabetes Date: 2019-09-13 Impact factor: 9.337

9. Systems biology of the IMIDIA biobank from organ donors and pancreatectomised patients defines a novel transcriptomic signature of islets from individuals with type 2 diabetes.

Authors: Michele Solimena; Anke M Schulte; Lorella Marselli; Florian Ehehalt; Daniela Richter; Manuela Kleeberg; Hassan Mziaut; Klaus-Peter Knoch; Julia Parnis; Marco Bugliani; Afshan Siddiq; Anne Jörns; Frédéric Burdet; Robin Liechti; Mara Suleiman; Daniel Margerie; Farooq Syed; Marius Distler; Robert Grützmann; Enrico Petretto; Aida Moreno-Moral; Carolin Wegbrod; Anke Sönmez; Katja Pfriem; Anne Friedrich; Jörn Meinel; Claes B Wollheim; Gustavo B Baretton; Raphael Scharfmann; Everson Nogoceke; Ezio Bonifacio; Dorothée Sturm; Birgit Meyer-Puttlitz; Ugo Boggi; Hans-Detlev Saeger; Franco Filipponi; Mathias Lesche; Paolo Meda; Andreas Dahl; Leonore Wigger; Ioannis Xenarios; Mario Falchi; Bernard Thorens; Jürgen Weitz; Krister Bokvist; Sigurd Lenzen; Guy A Rutter; Philippe Froguel; Manon von Bülow; Mark Ibberson; Piero Marchetti
Journal: Diabetologia Date: 2017-11-28 Impact factor: 10.122

10. Laser capture microdissection of human pancreatic islets reveals novel eQTLs associated with type 2 diabetes.

Authors: Amna Khamis; Mickaël Canouil; Afshan Siddiq; Hutokshi Crouch; Mario Falchi; Manon von Bulow; Florian Ehehalt; Lorella Marselli; Marius Distler; Daniela Richter; Jürgen Weitz; Krister Bokvist; Ioannis Xenarios; Bernard Thorens; Anke M Schulte; Mark Ibberson; Amelie Bonnefond; Piero Marchetti; Michele Solimena; Philippe Froguel
Journal: Mol Metab Date: 2019-03-18 Impact factor: 7.422

12 in total

1. Deciphering regulatory protein activity in human pancreatic islets via reverse engineering of single-cell sequencing data.

Authors: Yumi Imai
Journal: J Clin Invest Date: 2021-12-15 Impact factor: 14.808

2. A multi-omics roadmap of β-cell failure in type 2 diabetes mellitus.

Authors: Gaowei Wang; Maike Sander
Journal: Nat Rev Endocrinol Date: 2021-11 Impact factor: 43.330

Review 3. Inflammation-Related Epigenetic Modification: The Bridge Between Immune and Metabolism in Type 2 Diabetes.

Authors: Qiyou Ding; Zezheng Gao; Keyu Chen; Qiqi Zhang; Shiwan Hu; Linhua Zhao
Journal: Front Immunol Date: 2022-05-06 Impact factor: 8.786

Review 4. Lipid Droplets' Role in the Regulation of β-Cell Function and β-Cell Demise in Type 2 Diabetes.

Authors: Xin Tong; Siming Liu; Roland Stein; Yumi Imai
Journal: Endocrinology Date: 2022-03-01 Impact factor: 5.051

5. Mitofusin 1 and 2 regulation of mitochondrial DNA content is a critical determinant of glucose homeostasis.

Authors: Vaibhav Sidarala; Jie Zhu; Elena Levi-D'Ancona; Gemma L Pearson; Emma C Reck; Emily M Walker; Brett A Kaufman; Scott A Soleimanpour
Journal: Nat Commun Date: 2022-04-29 Impact factor: 17.694

Review 6. Islet Inflammation and β Cell Dysfunction in Type 2 Diabetes.

Authors: Joyceline Cuenco; Elise Dalmas
Journal: Handb Exp Pharmacol Date: 2022

Review 7. The Unfolded Protein Response as a Guardian of the Secretory Pathway.

Authors: Toni Radanović; Robert Ernst
Journal: Cells Date: 2021-10-31 Impact factor: 6.600

Review 8. β-Cell Death in Diabetes: Past Discoveries, Present Understanding, and Potential Future Advances.

Authors: Noyonika Mukherjee; Li Lin; Christopher J Contreras; Andrew T Templin
Journal: Metabolites Date: 2021-11-22

9. Single-cell analysis of the human pancreas in type 2 diabetes using multi-spectral imaging mass cytometry.

Authors: Minghui Wu; Michelle Y Y Lee; Varun Bahl; Daniel Traum; Jonathan Schug; Irina Kusmartseva; Mark A Atkinson; Guanjie Fan; Klaus H Kaestner
Journal: Cell Rep Date: 2021-11-02 Impact factor: 9.423

10. Time-restricted feeding prevents deleterious metabolic effects of circadian disruption through epigenetic control of β cell function.

Authors: Matthew R Brown; Satish K Sen; Amelia Mazzone; Tracy K Her; Yuning Xiong; Jeong-Heon Lee; Naureen Javeed; Christopher S Colwell; Kuntol Rakshit; Nathan K LeBrasseur; Alexandre Gaspar-Maia; Tamas Ordog; Aleksey V Matveyenko
Journal: Sci Adv Date: 2021-12-15 Impact factor: 14.136