Soluble and membrane isoforms of Fas/CD95 in fresh adult T-cell leukemia (ATL) cells and ATL-cell lines

Abstract

Fas, also designated as Apo-1 and CD95, is a cell membrane receptor (mFas) involved in apoptotic cell death. A soluble form (sFas) lacking the transmembrane domain due to alternative splicing has been isolated. Abnormal expression of sFas and mFas is likely to be involved in lymphoproliferative disorders and auto-immune diseases. Adult T-cell leukemia (ATL) caused by human T-cell-leukemia virus type-1 (HTLV-1) is well known to be a T-cell neoplasm with strong mFas expression, suggesting a role of Fas in the pathology of the disease. We examined protein and mRNA expression of the 2 isoforms of Fas in fresh ATL cells and ATL cell lines. In general, mFas was strongly expressed in ATL cells, and sFas levels in sera were high, especially in malignant ATL. However, expression of the isoforms in some cases of ATL varied; there was no mFas expression on the cell surface and sfas levels were high in serum. In contrast, all ATL cell lines examined showed strong mFas expression and scarce production of sFas in the supernatant, corresponding to strong expression of full-length Fas mRNA and weak to negative expression of alternatively spliced mRNA lacking the transmembrane domain. Our findings indicate that the mode of expression of Fas isoforms in ATL cells is not always homogenous and that Fas may play a role in the malignant behavior and oncogenesis of ATL.