Glucose Regulates m6A Methylation of RNA in Pancreatic Islets

Bornaque, Florine; Courty, Émilie; Rabhi, Nabil; Carney, Charlène; Rolland, Laure; Moreno, Maeva; Gromada, Xavier; Bourouh, Cyril; Petit, P.; Durand, Emmanuelle; Pattou, François; Kerr–Conte, Julie; Froguel, Philippe; Bonnefond, Amélie; Oger, Frédérik; Annicotte, Jean-Sébastien

doi:10.3390/cells11020291

Cited by 19 publications

(19 citation statements)

References 57 publications

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Section: Postnatal Mex Mir Signaling Promotes Pancreatic β Cell Proli...mentioning

confidence: 99%

“…The N6-methyladenosine (m6A) RNA modification is essential during the embryonic development of various organs including human islet β cell homeostasis [ 190 , 191 , 192 , 193 ]. The use of siRNA and/or specific inhibitors against selected m6A enzymes demonstrates that these enzymes modulate the expression of genes involved in pancreatic β cell identity and GSIS [ 192 ]. Increased expression of m6A methylation upregulates the IGF-1/AKT/PDX-1 pathway in human β cells, which ultimately inhibits cell-cycle arrest and protects insulin secretion [ 190 ].…”

Section: Postnatal Mex Mir Signaling Promotes Pancreatic β Cell Proli...mentioning

confidence: 99%

“…FTO-deficient Min6 cells exhibited decreased levels of INS1 mRNA [ 192 ]. In accordance, mRNA silencing of FTO in GRINCH (Glucose-Responsive Insulin-secreting C-peptide-modified Human proinsulin) clonal rat β cells showed a significant reduction in GSIS [ 198 ].…”

Section: Postnatal Mex Mir Signaling Promotes Pancreatic β Cell Proli...mentioning

confidence: 99%

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Milk Exosomal microRNAs: Postnatal Promoters of β Cell Proliferation but Potential Inducers of β Cell De-Differentiation in Adult Life

Melnik

Schmitz

2022

IJMS

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Pancreatic β cell expansion and functional maturation during the birth-to-weaning period is driven by epigenetic programs primarily triggered by growth factors, hormones, and nutrients provided by human milk. As shown recently, exosomes derived from various origins interact with β cells. This review elucidates the potential role of milk-derived exosomes (MEX) and their microRNAs (miRs) on pancreatic β cell programming during the postnatal period of lactation as well as during continuous cow milk exposure of adult humans to bovine MEX. Mechanistic evidence suggests that MEX miRs stimulate mTORC1/c-MYC-dependent postnatal β cell proliferation and glycolysis, but attenuate β cell differentiation, mitochondrial function, and insulin synthesis and secretion. MEX miR content is negatively affected by maternal obesity, gestational diabetes, psychological stress, caesarean delivery, and is completely absent in infant formula. Weaning-related disappearance of MEX miRs may be the critical event switching β cells from proliferation to TGF-β/AMPK-mediated cell differentiation, whereas continued exposure of adult humans to bovine MEX miRs via intake of pasteurized cow milk may reverse β cell differentiation, promoting β cell de-differentiation. Whereas MEX miR signaling supports postnatal β cell proliferation (diabetes prevention), persistent bovine MEX exposure after the lactation period may de-differentiate β cells back to the postnatal phenotype (diabetes induction).

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Section: Postnatal Mex Mir Signaling Promotes Pancreatic β Cell Proli...mentioning

confidence: 99%

Section: Postnatal Mex Mir Signaling Promotes Pancreatic β Cell Proli...mentioning

confidence: 99%

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Milk Exosomal microRNAs: Postnatal Promoters of β Cell Proliferation but Potential Inducers of β Cell De-Differentiation in Adult Life

Melnik

Schmitz

2022

IJMS

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“…Thus, deficient MEX miR signaling during formula feeding may explain the significant exacerbation of FTO expression in blood mononuclear cells of formula-fed infants compared to breastfed infants (249,256). Increased expression of FTO is not only involved in the pathogenesis of obesity (236)(237)(238)(239)(240)(241) but also of T2DM (257)(258)(259). Notably, m6A mRNA methylation plays a key role in human β-cell biology in physiological states and in T2DM (260).…”

Section: Fat Mass and Obesity Gene-dependent Pathologiesmentioning

confidence: 99%

Milk exosomal microRNAs: friend or foe?—a narrative review

Melnik¹,

Weiskirchen²,

Schmitz³

2022

ExRNA

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Background and Objective: Milk exosomes (MEX) and their inherent microRNAs (miRs) were recently promoted as promising effectors and drug carrier systems for the treatment of various chronic human diseases. It is the intention of this review to provide a comprehensive view on the potential beneficial and adverse health effects of MEX miRs.Methods: English literature published between 1990-2022 were searched using the PubMed database focusing on publications including human and bovine MEX, milk extracellular vesicles (EVs), miRs, and reported beneficial and adverse effects of MEX miRs. KeyContent and Findings: MEX are regarded as signalosomes produced under control of the lactation genome to support species-specific growth of the offspring during the lactation period. Physiologically, mammals are not exposed to MEX miRs after the lactation period. MEX miRs are important for epigenetic postnatal programming and tissue maturation. Direct and translational evidence indicates that MEX miRs are involved in p53-mediated transcription, DNA methyltransferase-regulated gene silencing as well as Polycomb repressive complex-mediated gene repression and chromatin remodeling. MEX miRs are deficient in artificial formula, but may accidentally modify human gene expression by consumption of pasteurized cow milk. The continuous impact of bovine MEX miRs on the human epigenome and epitranscriptome remains a matter of concern.Conclusions: MEX miRs are supportive for the growing neonate, whereas continuous exposure of adult humans to bovine MEX miRs may promote obesity, diabetes, cancer and neurodegeneration. Bovine MEX miRs should be removed from the human food chain of adults. The efficacy and long-term safety of MEX miRs has to be carefully assessed in future studies before bovine MEX could be introduced for therapeutic purposes.

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“…In parallel to the changes in m 6 A levels, expression levels of m 6 A methyltransferases (writers) and demethylases (erasers) also change appropriately in cancer cell lines tested. [10][11][12] N6-methylations in RNA are also recognized by m 6 A reader proteins leading to the regulation of cellular protein levels. [13] We find targeting m 6 A-modified mRNA a feasible approach to inhibit the binding of methyl readers and erasers, thus altering the expression of many oncoproteins and tumor suppressor proteins.…”

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confidence: 99%

Peptides Targeting RNA m⁶A Methylations Influence the Viability of Cancer Cells

et al. 2023

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N6‐methyladenosine (m6A) is the most abundant nucleotide modification observed in eukaryotic mRNA. Changes in m6A levels in transcriptome are tightly correlated to expression levels of m6A methyltransferases and demethylases. Abnormal expression levels of methyltransferases and demethylases are observed in various diseases and health conditions such as cancer, male infertility, and obesity. This research explores the efficacy of m6A‐modified RNA as an anticancer drug target. We discovered a 12‐mer peptide that binds specifically to m6A‐modified RNA using phage display experiments. Our fluorescence‐based assays illustrate the selected peptide binds to methylated RNA with lower micromolar affinity and inhibit the binding of protein FTO, a demethylase enzyme specific to m6A modification. When cancer cell lines were treated with mtp1, it led to an increase in m6A levels and a decrease in cell viability. Hence our results illustrate the potential of mtp1 to be developed as a drug for cancer.

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Glucose Regulates m6A Methylation of RNA in Pancreatic Islets

Cited by 19 publications

References 57 publications

Milk Exosomal microRNAs: Postnatal Promoters of β Cell Proliferation but Potential Inducers of β Cell De-Differentiation in Adult Life

Milk Exosomal microRNAs: Postnatal Promoters of β Cell Proliferation but Potential Inducers of β Cell De-Differentiation in Adult Life

Milk exosomal microRNAs: friend or foe?—a narrative review

Peptides Targeting RNA m⁶A Methylations Influence the Viability of Cancer Cells

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Glucose Regulates m6A Methylation of RNA in Pancreatic Islets

Cited by 19 publications

References 57 publications

Milk Exosomal microRNAs: Postnatal Promoters of β Cell Proliferation but Potential Inducers of β Cell De-Differentiation in Adult Life

Milk Exosomal microRNAs: Postnatal Promoters of β Cell Proliferation but Potential Inducers of β Cell De-Differentiation in Adult Life

Milk exosomal microRNAs: friend or foe?—a narrative review

Peptides Targeting RNA m6A Methylations Influence the Viability of Cancer Cells

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Peptides Targeting RNA m⁶A Methylations Influence the Viability of Cancer Cells