"Omics" and "epi-omics" underlying the β-cell adaptation to insulin resistance.
| Citation | De Jesus, Dario F, and Rohit N Kulkarni. “"Omics" and ‘epi-Omics’ Underlying the β-Cell Adaptation to Insulin Resistance”. 2019. Molecular Metabolism, vol. 27S, 2019, pp. S42-S48. |
| Center | Joslin Diabetes Center |
| Author | Dario F De Jesus, Rohit N Kulkarni |
| Keywords | Epigenomics, Epitranscriptomics, genomics, Insulin resistance, transcriptomics, β-cells |
| Abstract |
BACKGROUND: Pancreatic β-cells adapt to high metabolic demand by expanding their β-cell mass and/or enhancing insulin secretion to maintain glucose homeostasis. Type 2 diabetes (T2D) is typically characterized by β-cell decompensation. SCOPE OF THE REVIEW: The current review focuses on summarizing the "omics" and "epi-omics" approaches that particularly focus on addressing the β-cell adaptation to insulin resistance and T2D. MAJOR CONCLUSIONS: The molecular mechanisms underlying successful versus compromised β-cell adaptation to insulin resistance are not entirely understood. The last decade has seen an exponential increase in the use of "omics" and "epi-omics" approaches to dissect pathophysiology of metabolic diseases. One recent example is the emergence of mA mRNA methylation as a new layer of regulation of gene expression with the potential to impact diverse physiological processes in metabolic cells. |
| Year of Publication |
2019
|
| Journal |
Molecular metabolism
|
| Volume |
27S
|
| Number of Pages |
S42-S48
|
| Date Published |
12/2019
|
| ISSN Number |
2212-8778
|
| DOI |
10.1016/j.molmet.2019.06.003
|
| Alternate Journal |
Mol Metab
|
| PMCID |
PMC6768500
|
| PMID |
31500830
|
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