Publications by authors named "M J Laisne"
In the past decade, remarkable progress in cancer medicine has been achieved by the development of treatments that target DNA sequence variants. However, a purely genetic approach to treatment selection is hampered by the fact that diverse cell states can emerge from the same genotype. In multicellular organisms, cell-state heterogeneity is driven by epigenetic processes that regulate DNA-based functions such as transcription; disruption of these processes is a hallmark of cancer that enables the emergence of defective cell states.
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- Under neuroinflammatory conditions, astrocytes adopt a reactive phenotype that exacerbates inflammation and contributes to neurodegeneration, with the study focusing on the role of astrocytic DLL4 and its interaction with NOTCH1 in regulating this reactivity.
- The research found that during neuroinflammation, DLL4 is upregulated in both mice and humans, leading to increased astrocyte reactivity, blood-brain barrier permeability, and inflammatory responses through the DLL4-NOTCH1 signaling pathway.
- Blocking DLL4 with antibodies showed promise in alleviating symptoms of experimental autoimmune encephalomyelitis in mice, suggesting a new potential therapeutic approach for treating CNS autoimmune diseases.
DNA methylation is an essential epigenetic chromatin modification, and its maintenance in mammals requires the protein UHRF1. It is yet unclear if UHRF1 functions solely by stimulating DNA methylation maintenance by DNMT1, or if it has important additional functions. Using degron alleles, we show that UHRF1 depletion causes a much greater loss of DNA methylation than DNMT1 depletion.
View Article and Find Full Text PDFBreast cancer is the most prevalent type of cancer in women worldwide. Within breast tumors, the basal-like subtype has the worst prognosis, prompting the need for new tools to understand, detect, and treat these tumors. Certain germline-restricted genes show aberrant expression in tumors and are known as Cancer/Testis genes; their misexpression has diagnostic and therapeutic applications.
View Article and Find Full Text PDFIn mammals, only the zygote and blastomeres of the early embryo are totipotent. This totipotency is mirrored in vitro by mouse '2-cell-like cells' (2CLCs), which appear at low frequency in cultures of embryonic stem cells (ESCs). Because totipotency is not completely understood, we carried out a genome-wide CRISPR knockout screen in mouse ESCs, searching for mutants that reactivate the expression of Dazl, a gene expressed in 2CLCs.
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