Chromatin organization is critical for cell growth, differentiation, and disease development, however, its functions in peripheral myelination and myelin repair remain elusive. Here we observed a global diminution of chromatin accessibility during Schwann cell differentiation and demonstrated that the chromatin organizer CCCTC-binding factor (CTCF) is critical for Schwann cell myelination and myelin regeneration after nerve injury. Inhibition of Ctcf or its deletion blocked Schwann cell differentiation at the pre-myelinating stage, whereas overexpression of CTCF promoted the myelination program. CTCF establishes the chromatin interaction loop between promoters and regulatory elements to promote expression of key pro-myelinogenic factors such as EGR2. In addition, CTCF interacts with SUZ12, a component of polycomb-repressive-complex 2, to repress expression of immature Schwann cell-associated regulators including HES1, RSPO2, and CALCA. Together, our findings reveal the dual role of CTCF-dependent chromatin organization in promoting myelinogenic programs and recruiting chromatin-repressive complexes to block differentiation inhibitors to control peripheral myelination and myelin repair. SOURCE: Richard LuLu Lab,T6.525 Cincinnati Children's Hospital Medical Center

Pluto Bioinformatics

GSE138117: CTCF-dependent chromatin architecture and SUZ12/PRC2 complex recruitment are required for peripheral myelination and repair