Expression of nuclear and cytoplasmic phosphorylated FADD in gastric cancers

Fas-associated death domain (FADD) plays a crucial role during death receptor-mediated apoptosis. In addition, FADD possesses apoptosis-independent activities, including cell-cycle regulation and cell proliferation regulated by the phosphorylation of FADD at Ser194.The aim of this study was to explore the possibility whether alteration of phosphorylated FADD (p-FADD) expression might be a characteristic of gastric cancer. We analyzed the expression of p-FADD protein in 60 gastric adenocarcinomas by immunohistochemistry using a tissue microarray approach. In the normal gastric mucosal cells, surface and glandular epithelial cells evenly expressed p-FADD in the nuclei but not in the cytoplasm. In the cancers, p-FADD expression was detected in 38 cases (63%) of the gastric carcinomas, but there was no p-FADD immunostaining in the remaining 22 cancers (37%). Of note, p-FADD immunostaining was observed in cytoplasm/nuclei (20 cancers; 33%) and cytoplasm (18 cancers; 30%). There was no significant association of p-FADD expression with clinocopathological characteristics, including invasion, metastasis, and stage. Our data showed that the expression of p-FADD in gastric cancers was heterogenous in its location compared to the uniform nuclear expression of p-FADD in normal gastric cells. Many of the cancers (67%) were devoid of nuclear p-FADD, suggesting that p-FADD functions in the nucleus may be perturbed in the cancers. Also, p-FADD expression in the cytoplasm in a large fraction of the cancers (63%), not seen in the normal cells, suggested that the cell death functions of p-FADD could be altered in the cancer cells.