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Tacrolimus- and sirolimus-induced human β cell dysfunction is reversible and preventable. | LitMetric

AI Article Synopsis

  • Posttransplantation diabetes mellitus (PTDM) is a significant complication that arises from immunosuppressive drugs used in organ transplants, particularly the agents tacrolimus (TAC) and sirolimus (SIR).
  • Research on human islets in immunodeficient mice showed that both TAC and SIR negatively affected insulin secretion and caused physical changes in the islets, although these effects could be reversed once the drugs were stopped.
  • Additionally, using a GLP-1 receptor agonist alongside these medications can help prevent TAC-induced issues and partially protect against SIR-induced dysfunction in β cells, indicating potential ways to manage PTDM.

Article Abstract

Posttransplantation diabetes mellitus (PTDM) is a common and significant complication related to immunosuppressive agents required to prevent organ or cell transplant rejection. To elucidate the effects of 2 commonly used agents, the calcineurin inhibitor tacrolimus (TAC) and the mTOR inhibitor sirolimus (SIR), on islet function and test whether these effects could be reversed or prevented, we investigated human islets transplanted into immunodeficient mice treated with TAC or SIR at clinically relevant levels. Both TAC and SIR impaired insulin secretion in fasted and/or stimulated conditions. Treatment with TAC or SIR increased amyloid deposition and islet macrophages, disrupted insulin granule formation, and induced broad transcriptional dysregulation related to peptide processing, ion/calcium flux, and the extracellular matrix; however, it did not affect regulation of β cell mass. Interestingly, these β cell abnormalities reversed after withdrawal of drug treatment. Furthermore, cotreatment with a GLP-1 receptor agonist completely prevented TAC-induced β cell dysfunction and partially prevented SIR-induced β cell dysfunction. These results highlight the importance of both calcineurin and mTOR signaling in normal human β cell function in vivo and suggest that modulation of these pathways may prevent or ameliorate PTDM.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC7030815PMC
http://dx.doi.org/10.1172/jci.insight.130770DOI Listing

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