AI Article Synopsis
- Ferroptosis is a newly discovered form of cell death that depends on iron and is involved in various diseases, including issues related to islet isolation and transplantation in diabetes treatment.
- The study investigates how ferroptosis affects pancreatic islets during isolation and transplantation, specifically looking at changes in oxidative stress, iron levels, MDA concentration, and protein expression related to cell death.
- Results show that inducing ferroptosis with RSL3 increases oxidative stress and negatively impacts islet viability and function, while using the inhibitor Fer1 can protect islets from these harmful effects.
Article Abstract
Ferroptosis was recently identified as a non-apoptotic, iron-dependent cell death mechanism that is involved in various pathologic conditions. There is first evidence for its significance also in the context of islet isolation and transplantation. Transplantation of pancreatic human islets is a viable treatment strategy for patients with complicated diabetes mellitus type 1 (T1D) that suffer from severe hypoglycemia. A major determinant for functional outcome is the initial islet mass transplanted. Efficient islet isolation procedures and measures to minimize islet loss are therefore of high relevance. To this end, better understanding and subsequent targeted inhibition of cell death during islet isolation and transplantation is an effective approach. In this study, we aimed to elucidate the mechanism of ferroptosis in pancreatic islets. Using a rodent model, isolated islets were characterized relating to the effects of experimental induction (RSL3) and inhibition (Fer1) of ferroptotic pathways. Besides viability, survival, and function, the study focused on characteristic ferroptosis-associated intracellular changes such as MDA level, iron concentration and the expression of ACSL4. The study demonstrates that pharmaceutical induction of ferroptosis by RSL3 causes enhancement of oxidative stress and leads to an increase of intracellular iron, zinc and MDA concentration, as well as the expression of ACSL4 protein. Consequently, a massive reduction of islet function, viability, and survival was found. Fer1 has the potential to inhibit and attenuate these cellular changes and thereby protect the islets from cell death.
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| http://dx.doi.org/10.1055/a-2190-2803 | DOI Listing |
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