Background/aims: Genetic abnormalities of the p53 gene may play a major role in the carcinogenesis of gastric stump carcinomas (GSC) and intestinal-type primary gastric carcinomas (IPGC). Also, they may modulate P-gp expression producing chemoresistance. The aim of this article is to analyze p53 genetic abnormalities and the influence of p53 gene status on P-gp expression in both types of carcinomas.
Methodology: Forty-two paraffin-embedded samples of gastric carcinomas corresponding to 17 GSC and 25 IPGC were studied. P53 genetic abnormalities in exon 5-9 were screened by direct sequencing of PCR products. P53 and P-glycoprotein (P-gp) were assessed by a standard streptavidin-biotin immunoperoxidase method. Anti-p53 DO7 and anti-P-gp C494 were used as primary antibodies.
Results: Fourteen p53 mutations were found, 5 in GSC (29%) and 9 in IPGC (36%). Thirteen mutations were base-pair substitutions that produced a change in the amino acid sequence. Eight mutations were located at exon 7 (57%). P53 nuclear immunopositivity was observed in 12 GSC (71%) and 15 IPGC (60%). Only two carcinomas (1 IPGC and 1 GSC) harboring a p53 mutation did not show any p53 expression. All except one of the gastric carcinomas having a p53 mutation showed medium or high P-gp expression. However, there was no difference in P-gp expression between tumors with and without p53 mutation.
Conclusions: The p53 genetic alterations found in GSC and IPGC could originate from a similar pathogenetic pathway. No association was demonstrated between p53 gene status and P-gp expression, although most of the carcinomas harboring a p53 mutation showed medium or high P-gp expression.