Chronic pain is a highly prevalent and disabling condition with a well-documented female predominance in incidence, severity and persistence. These sex differences are driven by sexually dimorphic neu Show more
Chronic pain is a highly prevalent and disabling condition with a well-documented female predominance in incidence, severity and persistence. These sex differences are driven by sexually dimorphic neuroimmune mechanisms rather than psychosocial factors alone. This systematic review was conducted to comprehensively synthesize human clinical and translational evidence on sex-specific neuroimmune and glial cell pathways underlying chronic pain. Scientific literature was systematically searched from database inception to December 2025 across multiple biomedical databases to identify relevant clinical and translational studies. Across pain conditions, convergent evidence demonstrated that chronic pain mechanisms diverge by sex at cellular and molecular levels. Male-predominant pathways were characterized by microglial activation, particularly P2X4 receptor-mediated signaling and brain-derived neurotrophic factor-dependent neuronal disinhibition, supported by neuroimaging, transcriptomic, and pharmacological data. In contrast, female-predominant mechanisms involved adaptive immune processes, including CD4 Show less
Chromatin regulation involves the selective recruitment of chromatin factors to facilitate DNA repair, replication and transcription. Here we demonstrate the utility of coupling unbiased functional ge Show more
Chromatin regulation involves the selective recruitment of chromatin factors to facilitate DNA repair, replication and transcription. Here we demonstrate the utility of coupling unbiased functional genomics with chromatin immunoprecipitation (CRISPR-ChIP) to identify the factors associated with active chromatin modifications in mammalian cells. Specifically, an integrated reporter containing a cis-regulatory element of interest and a single guide RNA provide a chromatinized template for a direct readout for regulators of histone modifications associated with actively transcribed genes such as H3K4me3 and H3K79me2. With CRISPR-ChIP, we identify all the nonredundant COMPASS complex members required for H3K4me3 and demonstrate that RNA polymerase II is dispensable for the maintenance of H3K4me3. As H3K79me2 has a putative oncogenic function in leukemia cells driven by MLL translocations, using CRISPR-ChIP we reveal a functional partitioning of H3K79 methylation into two distinct regulatory units: an oncogenic DOT1L complex directed by the MLL fusion protein in a Menin-dependent manner and a separate endogenous DOT1L complex, where catalytic activity is directed by MLLT10. Overall, CRISPR-ChIP provides a powerful tool for the unbiased interrogation of the mechanisms underpinning chromatin regulation. Show less
Modulators of epithelial-to-mesenchymal transition (EMT) have recently emerged as novel players in the field of leukemia biology. The mechanisms by which EMT modulators contribute to leukemia pathogen Show more
Modulators of epithelial-to-mesenchymal transition (EMT) have recently emerged as novel players in the field of leukemia biology. The mechanisms by which EMT modulators contribute to leukemia pathogenesis, however, remain to be elucidated. Here we show that overexpression of SNAI1, a key modulator of EMT, is a pathologically relevant event in human acute myeloid leukemia (AML) that contributes to impaired differentiation, enhanced self-renewal, and proliferation of immature myeloid cells. We demonstrate that ectopic expression of Snai1 in hematopoietic cells predisposes mice to AML development. This effect is mediated by interaction with the histone demethylase KDM1A/LSD1. Our data shed new light on the role of SNAI1 in leukemia development and identify a novel mechanism of LSD1 corruption in cancer. This is particularly pertinent given the current interest surrounding the use of LSD1 inhibitors in the treatment of multiple different malignancies, including AML. Show less