PRMT5 regulates epigenetic changes in suppressive Th1-like iTregs in response to IL-12 treatment

Jadon, Nidhi; Shanthalingam, Sudarvili; Tew, Gregory N.; Minter, Lisa M.

doi:10.3389/fimmu.2023.1292049

Cited by 2 publications

(1 citation statement)

References 49 publications

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“…Targeting intracellular pathways that contribute to enhanced Treg suppressive function have been shown to be promising therapeutic strategies. Increased expression of specific proteins like FOXP3, PRMT5, PD-1, and CTLA4 characterize highly suppressive Tregs, and targeting these proteins or their pathways have the potential to optimize outcomes in adoptive Treg therapy ( 65 ). These and other proteins and signaling pathways are accessible to polymers with cell penetrating properties that can deliver gene editing tools (i.e.…”

Section: Concluding Remarks and Perspectivementioning

confidence: 99%

Combating bone marrow failure with polymer materials

Koch,

Jadon,

Thesmar

et al. 2024

Front. Immunol.

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Bone marrow failure (BMF) has become one of the most studied autoimmune disorders, particularly due to its prevalence both as an inherited disease, but also as a result of chemotherapies. BMF is associated with severe symptoms such as bleeding episodes and susceptibility to infections, and often has underlying characteristics, such as anemia, thrombocytopenia, and neutropenia. The current treatment landscape for BMF requires stem cell transplantation or chemotherapies to induce immune suppression. However, there is limited donor cell availability or dose related toxicity associated with these treatments. Optimizing these treatments has become a necessity. Polymer-based materials have become increasingly popular, as current research efforts are focused on synthesizing novel cell matrices for stem cell expansion to solve limited donor cell availability, as well as applying polymer delivery vehicles to intracellularly deliver cargo that can aid in immunosuppression. Here, we discuss the importance and impact of polymer materials to enhance therapeutics in the context of BMF.

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Section: Concluding Remarks and Perspectivementioning

confidence: 99%

Combating bone marrow failure with polymer materials

Koch,

Jadon,

Thesmar

et al. 2024

Front. Immunol.

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Potential of ginsenoside Rg1 to treat aplastic anemia via mitogen activated protein kinase pathway in cyclophosphamide-induced myelosuppression mouse model

Park

2024

World J Stem Cells

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Aplastic anemia (AA) is a rare but serious condition in which the bone marrow fails to produce sufficient new blood cells, leading to fatigue, increased susceptibility to infection, and uncontrolled bleeding. In this editorial, we review and comment on an article by Wang et al published in 2024. This study aimed to evaluate the potential therapeutic benefits of ginsenoside Rg1 in AA, focusing on its protective effects and uncovering the underlying mechanisms. Cyclophosphamide (CTX) administration caused substantial damage to the structural integrity of the bone marrow and decreased the number of hematopoietic stem cells, thereby establishing an AA model. Compared with the AA group, ginsenoside Rg1 alleviated the effects of CTX by reducing apoptosis and inflammatory factors. Mechanistically, treatment with ginsenoside Rg1 significantly mitigated myelosuppression in mice by inhibiting the mitogen activated protein kinase signaling pathway. Thus, this study indicates that ginsenoside Rg1 could be effective in treating AA by reducing myelosuppression, primarily through its influence on the mitogen activated protein kinase signaling pathway. We expect that our review and comments will provide valuable insights for the scientific community related to this research and enhance the overall clarity of this article.

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PRMT5 regulates epigenetic changes in suppressive Th1-like iTregs in response to IL-12 treatment

Cited by 2 publications

References 49 publications

Combating bone marrow failure with polymer materials

Combating bone marrow failure with polymer materials

Potential of ginsenoside Rg1 to treat aplastic anemia via mitogen activated protein kinase pathway in cyclophosphamide-induced myelosuppression mouse model

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