RESUMO
The Δ133p53ß isoform is increased in many primary tumors and has many tumor-promoting properties that contribute to increased proliferation, migration and inflammation. Here we investigated whether Δ133p53ß contributed to some of the most aggressive tumors that had metastasized to the brain. Δ133p53ß mRNA expression was measured in lung, breast, melanoma, colorectal metastases and, where available, the matched primary tumor. The presence of Δ133p53ß expression was associated with the time for the primary tumor to metastasize and overall survival once the tumor was detected in the brain. Δ133p53ß was present in over 50% of lung, breast, melanoma and colorectal metastases to the brain. It was also increased in the brain metastases compared with the matched primary tumor. Brain metastases with Δ133p53ß expressed were associated with a reduced time for the primary tumor to metastasize to the brain compared with tumors with no Δ133p53ß expression. In-vitro-based analyses in Δ133p53ß-expressing cells showed increased cancer-promoting proteins on the cell surface and increased downstream p-AKT and p-MAPK signaling. Δ133p53ß-expressing cells also invaded more readily across a mock blood-brain barrier. Together these data suggested that Δ133p53ß contributes to brain metastases by making cells more likely to invade the brain.