Suying Liu scite author profile

Summary Vaccination approaches have generally focused on the antigen rather than the resultant antibodies generated, which differ greatly in quality and function between individuals. The ability to replace the variable regions of the native B cell receptor (BCR) heavy and light chain loci with defined recombined sequences of a preferred monoclonal antibody could enable curative adoptive cell transfer. We report CRISPR-mediated homologous recombination (HR) into the BCR of primary human B cells. Ribonucleoprotein delivery enabled editing at the model CXCR4 locus, as demonstrated by T7E1 assay, flow cytometry, and TIDE analysis. Insertion via HR was confirmed by sequencing, cross-boundary PCR, and restriction digest. Optimized conditions were used to achieve HR at the BCR variable heavy and light chains. Insertion was confirmed at the DNA level, and transgene expression from the native BCR promoters was observed. Reprogramming the specificity of antibodies in the genomes of B cells could have clinical importance.

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The miR-181 family regulates colonic inflammation through its activity in the intestinal epithelium

Jimenez

Clark

Wright

et al. 2022

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The intestinal epithelium is a key physical interface that integrates dietary and microbial signals to regulate nutrient uptake and mucosal immune cell function. The transcriptional programs that regulate intestinal epithelial cell (IEC) quiescence, proliferation, and differentiation have been well characterized. However, how gene expression networks critical for IECs are posttranscriptionally regulated during homeostasis or inflammatory disease remains poorly understood. Herein, we show that a conserved family of microRNAs, miR-181, is significantly downregulated in IECs from patients with inflammatory bowel disease and mice with chemical-induced colitis. Strikingly, we showed that miR-181 expression within IECs, but not the hematopoietic system, is required for protection against severe colonic inflammation in response to epithelial injury in mice. Mechanistically, we showed that miR-181 expression increases the proliferative capacity of IECs, likely through the regulation of Wnt signaling, independently of the gut microbiota composition. As epithelial reconstitution is crucial to restore intestinal homeostasis after injury, the miR-181 family represents a potential therapeutic target against severe intestinal inflammation.

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Suying Liu

CRISPR-Mediated Editing of the B Cell Receptor in Primary Human B Cells

The miR-181 family regulates colonic inflammation through its activity in the intestinal epithelium

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