The role of DNA demethylation in liver to pancreas transdifferentiation

Article Cell & Tissue Engineering

DNA methylation status correlates with adult β-cell regeneration capacity

Ishant Khurana et al.

Summary: The study showed that during induced cell reprogramming, the methylation content of the Ngn3 and Sox11 genes decreased, indicating that DNA methylation plays a barrier role in beta-cell regeneration in adults.

NPJ REGENERATIVE MEDICINE (2021)

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Review Endocrinology & Metabolism

Epigenetic Regulation of β Cell Identity and Dysfunction

Xiaoqiang Sun et al.

Summary: Epigenetic signatures play a crucial role in defining beta cell identity during development and maintaining function in homeostatic states, but they are disrupted during the progression of T2DM.

FRONTIERS IN ENDOCRINOLOGY (2021)

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Review Oncology

Epigenetic reprogramming of cell identity: lessons from development for regenerative medicine

Amitava Basu et al.

Summary: Cellular reprogramming involves rewiring the underlying epigenome to convert one cell type into another, holding great promise for therapeutic use in repairing damaged tissues and organs but facing key challenges in application.

CLINICAL EPIGENETICS (2021)

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Article Biochemistry & Molecular Biology

Knockdown of DNA methyltransferase 1 reduces DNA methylation and alters expression patterns of cardiac genes in embryonic cardiomyocytes

Xiefan Fang et al.

Summary: Our study demonstrates the important role of DNMT1 in embryonic cardiomyocytes by regulating DNA methylation, gene expression, gene splicing, and cell function. The knockdown of DNMT1 expression resulted in changes in cardiomyocyte morphology, electrophysiology, gene expression, and methylation levels of cardiac gene promoters. This highlights the significance of DNMT1 in embryonic cardiomyocyte development and function.

FEBS OPEN BIO (2021)

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Article Cell & Tissue Engineering

Phenotypic assessment of liver-derived cell cultures during in vitro expansion

Razvan Iacob et al.

Summary: The study found that human liver cells can be efficiently propagated in vitro with stable characteristics, however, cells from some elderly male donors may lose the Y chromosome during expansion.

REGENERATIVE MEDICINE (2021)

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Article Cell & Tissue Engineering

The effect of liver donors' age, gender and metabolic state on pancreatic lineage activation

Ioan Matei et al.

Summary: The study showed that liver cell proliferation and transdifferentiation efficiency are not directly correlated with the age, gender, or metabolic state of the donors. Therefore, human liver cells from a wide range of ages and metabolic states can be used for autologous cell therapies for diabetes.

REGENERATIVE MEDICINE (2021)

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Article Multidisciplinary Sciences