Engineering T lymphocytes is an emerging approach in a variety of biomedical applications. However, delivering large biologics to primary T lymphocytes directly in vivo is technically challenging due to the low transfection efficacy. Herein, we investigated a library of synthetic lipid-like molecules (lipidoids) for their capability of delivering mRNA into primary T lymphocytes both ex vivo and in vivo. We initially screened a library with a large structural variety of lipidoids ex vivo and identified imidazole-containing lipidoids that are particularly potent in T lymphocytes transfection. We further optimized lipidoid structures by constructing and screening a detailed lipidoid library containing imidazole or imidazole analogues to perform a structure-activity correlation analysis. Using the lead lipidoid as a delivery vehicle for Cre mRNA in vivo through intravenous injection, we achieved 8.2 % gene recombination in mouse T lymphocytes.
Keywords: T cell engineering; combinatorial chemistry; drug delivery; gene therapy; imidazole-containing lipids.
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