Small intestinal adenocarcinoma is an uncommon neoplasm with poor prognosis. It is clinically approached similarly to colorectal carcinoma (CRC). The prognostic value of DNA mismatch repair protein deficiency (dMMR) in CRC is well established, but its role in small intestinal adenocarcinoma remains inconclusive. Recently, loss of expression of ARID1A, a tumor suppressor gene product, by immunohistochemistry (IHC) was linked to dMMR and poor outcome in small intestinal adenocarcinoma, suggesting that it may be an emerging prognostic biomarker. We hypothesized that dMMR and/or ARID1A loss may be associated with clinical outcome in small intestinal adenocarcinoma. We examined dMMR and ARID1A loss by IHC in 120 surgically resected, nonampullary small intestinal adenocarcinomas collected from 2 tertiary centers. ARID1A loss was detected in 6 (7%) of 92 ARID1A-stained adenocarcinomas, whereas 21 (18%) of 120 adenocarcinomas demonstrated dMMR. ARID1A loss was not associated with survival or dMMR. dMMR adenocarcinomas had no distant metastasis, whereas 22 (22%) of 99 MMR-proficient adenocarcinomas had (P = .01). dMMR was an independent, positive predictor of disease-free survival (P = .035, hazard ratio: 0.2). Compared with dMMR CRC, dMMR small intestinal adenocarcinomas more frequently demonstrated loss of MSH2 and MSH6 and less often showed loss of MLH1 and PMS2 (both P < .001). In summary, ARID1A loss by IHC is uncommon in small intestinal adenocarcinomas. dMMR small intestinal adenocarcinomas are nonmetastatic tumors, frequently demonstrate loss of MSH2 and MSH6, and have superior disease-free survival. Our results suggest that all small intestinal adenocarcinomas should be tested for MMR protein deficiency.
Keywords: BAF250a; Duodenal adenocarcinoma; MSH2; MSH6; Microsatellite instability; Nonampullary.
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