Article Synopsis
- Tumor protein p53 is a frequently mutated cancer driver gene, but effective drugs targeting these mutations are currently unavailable.
- Researchers developed a highly specific antibody for the common R175H mutation in p53 and its interaction with a specific human leukocyte antigen (HLA-A).
- This antibody was transformed into a bispecific single-chain diabody, which successfully activated T cells to kill cancer cells in lab settings and mouse models, offering a promising new strategy for targeting hard-to-treat tumors.
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Article Abstract
(tumor protein p53) is the most commonly mutated cancer driver gene, but drugs that target mutant tumor suppressor genes, such as , are not yet available. Here, we describe the identification of an antibody highly specific to the most common mutation (R175H, in which arginine at position 175 is replaced with histidine) in complex with a common human leukocyte antigen-A (HLA-A) allele on the cell surface. We describe the structural basis of this specificity and its conversion into an immunotherapeutic agent: a bispecific single-chain diabody. Despite the extremely low p53 peptide-HLA complex density on the cancer cell surface, the bispecific antibody effectively activated T cells to lyse cancer cells that presented the neoantigen in vitro and in mice. This approach could in theory be used to target cancers containing mutations that are difficult to target in conventional ways.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC8208645 | PMC |
| http://dx.doi.org/10.1126/science.abc8697 | DOI Listing |
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