AI Article Synopsis
- Missense variants in DNA mismatch repair (MMR) genes complicate the diagnosis of Lynch syndrome (LS) due to uncertainty about their significance.
- A new functional assay was created to evaluate MMR activity in mouse embryonic stem cells with specific mutations, focusing on a truncation mutant of MSH2 linked to suspected LS cases.
- The study found that this MSH2 mutation disrupts the stability of its protein complex with MSH6, leading to reduced MMR function and an increased risk of cancer in mice, confirming the mutation's harmful role in causing LS.
Article Abstract
Missense variants of DNA mismatch repair (MMR) genes pose a problem in clinical genetics as long as they cannot unambiguously be assigned as the cause of Lynch syndrome (LS). To study such variants of uncertain clinical significance, we have developed a functional assay based on direct measurement of MMR activity in mouse embryonic stem cells expressing mutant protein from the endogenous alleles. We have applied this protocol to a specific truncation mutant of MSH2 that removes 60 C-terminal amino acids and has been found in suspected LS families. We show that the stability of the MSH2/MSH6 heterodimer is severely perturbed, causing attenuated MMR in in vitro assays and cancer predisposition in mice. This mutation can therefore unambiguously be considered as deleterious and causative for LS.
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| http://dx.doi.org/10.1007/s10689-016-9945-x | DOI Listing |
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