Publications by authors named "Nimrod Ben-Haim"
Cancer exploits different mechanisms to escape T-cell immunosurveillance, including overexpression of checkpoint ligands, secretion of immunosuppressive molecules, and aberrant glycosylation. Herein, we report that IFNγ, a potent immunomodulator secreted in the tumor microenvironment, can induce α2,6 hypersialylation in cancer cell lines derived from various histologies. We focused on Siglec-9, a receptor for sialic acid moieties, and demonstrated that the Siglec-9+ T-cell population displayed reduced effector function.
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- NK cells play a crucial role in cancer immune defense by providing a fast response to tumors, allowing for direct attacks on cancer cells without needing prior antigen recognition.
- * Gamida Cell's NAM platform aims to boost the effectiveness of NK cells, particularly in treating multiple myeloma (MM) by targeting CD38, a protein common on MM cells.
- * Researchers have used CRISPR technology to create genetically modified NK cells that lack CD38 and have enhanced abilities to target MM cells, achieving a significant reduction in self-destruction among NK cells during treatment.
Controlling off-target editing activity is one of the central challenges in making CRISPR technology accurate and applicable in medical practice. Current algorithms for analyzing off-target activity do not provide statistical quantification, are not sufficiently sensitive in separating signal from noise in experiments with low editing rates, and do not address the detection of translocations. Here we present CRISPECTOR, a software tool that supports the detection and quantification of on- and off-target genome-editing activity from NGS data using paired treatment/control CRISPR experiments.
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