UCLA

Background

Lynch Syndrome (LS) is caused by germline mutations in the DNA mismatch repair (MMR) genes with mutations in MLH1 accounting for ~40% of LS-related alterations.

Methods

MSK-IMPACT analysis was performed on peripheral blood from a patient with early- onset colorectal cancer. Subsequently PCR and sequencing was performed to characterize the insertion. Immunohistochemistry for MMR genes and MLH1 promoter methylation were analyzed on patient's tumor.

Results

MSK-IMPACT germline testing revealed an insertion into c.588+8_588+9 of MLH1 intron 7. The insertion was further characterized as an AluSx-like element with ~115 bp in length. Functional studies demonstrated that the AluSx-like element led to complete disruption of mRNA splicing and probably resulted in transcriptional termination at the poly (A) region of the AluSx-like insertion.

Conclusions

The insertion of a truncated AluSx like element into MLH1 intron 7 results in aberrant splicing and transcription, thereby causing Lynch syndrome. This study confirms that retrotransposon insertions may be an important mechanism for cancer predisposition.