Project description:This SuperSeries is composed of the SubSeries listed below.

Project description:SETD1A catalyzes methylation of histone 3 lysine 4 (H3K4) and plays a critical role in development of multiple cancers. The abrrent expression of SETD1A relates to poor prognosis of gastric cancer (GC) patients. Here, we revealed that SETD1A is required for GC cell proliferation. Rescue experiment showed catalytic function is not necessary for GC cell growth and gene expression, whereas a novel non-catalytic FLOS domain is indispensable. The CRISPR screening targeting SETD1A targets identified that TAF6 acts as a downstream target of SETD1A which is essential for GC cell survival. Both SETD1A and TAF6 are required for G1/S cell cycle progression in GC cells. Non-catalytic component of SETD1A regulating expression of TAF6 through coactivating with E2F4s. These results demonstrate that non-canonical roles of SETD1A in GC cell, which supplys a potential therapeutic opportunity for GC.

Project description:SETD1A catalyzes methylation of histone 3 lysine 4 (H3K4) and plays a critical role in development of multiple cancers. The abrrent expression of SETD1A relates to poor prognosis of gastric cancer (GC) patients. Here, we revealed that SETD1A is required for GC cell proliferation. Rescue experiment showed catalytic function is not necessary for GC cell growth and gene expression, whereas a novel non-catalytic FLOS domain is indispensable. The CRISPR screening targeting SETD1A targets identified that TAF6 acts as a downstream target of SETD1A which is essential for GC cell survival. Both SETD1A and TAF6 are required for G1/S cell cycle progression in GC cells. Non-catalytic component of SETD1A regulating expression of TAF6 through coactivating with E2F4s. These results demonstrate that non-canonical roles of SETD1A in GC cell, which supplys a potential therapeutic opportunity for GC.

Project description:Non-catalytic role of SETD1A promotes gastric cancer cell proliferation through the E2F4-TAF6 axis in the cell cycle

Project description:Non-catalytic role of SETD1A promotes gastric cancer cell proliferation through the E2F4-TAF6 axis in the cell cycle (ChIP-seq)

Project description:Non-catalytic role of SETD1A promotes gastric cancer cell proliferation through the E2F4-TAF6 axis in the cell cycle (RNA-seq)

Project description: Not available

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Project description:Colorectal cancer (CRC) progression and recurrence persist as major clinical challenges despite standard therapies. Emerging evidence underscores that tumor relapse arises from crosstalk between malignant cells and the immunosuppressive microenvironment, yet the role of non-histone lysine methylation in this interplay remains unclear. Here, we identify di-methylation of lysine 513 (K513) on methyltransferase-like 3 (METTL3) as a key epigenetic modification associated with CRC progression and recurrence. Mechanistically, we reveal that SETD1A catalyzes METTL3 K513 methylation, enhancing its binding affinity to S-adenosylmethionine (SAM) and augmenting RNA m⁶A deposition. Strikingly, METTL3 methylation suppresses endogenous retroelements expression, leading to impaired type I interferon responses and tumor immune evasion. We further uncover a fluorouracil-induced E2F4/SETD1A/METTL3 regulatory axis, wherein E2F4 self-regulation activates SETD1A to drive METTL3 methylation. Targeting this axis through pharmacological inhibition of E2F4 or genetic disruption of METTL3 methylation synergizes with immune checkpoint blockade (ICB), significantly suppressing tumor growth. Our findings unveil a methylation-dependent regulatory mechanism that reshapes the tumor immune microenvironment, offering a novel therapeutic strategy for CRC.

Project description: Not available