Genetic Contexts Characterize Dynamic Histone Modification Patterns Among Cell Types

Phase separation participates in the genetic regulation mechanism of hematopoietic stem cells: potential therapeutic methods

Hematopoietic stem cells (HSCs) are the primitive cells that give rise to common precursors for all blood cell lineages. Abnormalities in their number and/or function are important factors leading to the decline of immune function and the occurrence of various systemic diseases. Phase separation refers to a physicochemical mechanism in which intracellular liquid-liquid phase separation (LLPS) forms membrane-less organelles. It participates in various physiological activities and is related to the occurrence of diseases. Studies have shown that the functional activity of HSCs is regulated by complex mechanisms, and phase separation is closely related to these complex mechanisms such as genetic regulation, epigenetic regulation, microenvironment regulation, gene expression, autophagy degradation, and cell proliferation. With the deepening of research, the importance of phase separation in the pathogenesis and treatment of diseases such as leukemia and tumors has gradually emerged, but the deep mechanism of its regulation of HSCs genetic regulation still lacks exploration, and the direction of clinical targeted therapy is not yet clear. Here, we will summarize and elaborate the genetic regulation mechanism of HSCs, discuss the relationship between phase separation and the functional regulation of HSCs, and analyze the possibility of phase separation participating in the genetic regulation of HSCs to treat diseases, in order to provide help for the clinical implementation of targeted therapy for HSCs regulation.