The Fas signalling system probably plays a critical role in the natural and chemotherapeutic cell death machinery, suggesting that aberrant Fas expression is involved in growth control of tumours. The membrane isoform (mFas) is a 45 kD cell surface protein containing a single transmembrane region, and induces apoptosis in normal or tumour cells, whereas the soluble isoform (sFas) lacks the transmembrane domain due to alternative splicing of the transcript and is thought to block Fas-mediated apoptosis. To clarify the clinical roles of expression of these two Fas isoforms in adult T-cell leukaemia (ATL), we investigated the levels of the Fas isoforms in 81 patients with ATL. The expression patterns of the Fas isoforms were heterogenous, and there was no significant correlation between mFas and sFas levels: 10/81 cases were negative for mFas and had high serum sFas levels, whereas the remaining 71 cases were positive for mFas and had various levels of expression of the two Fas isoforms. Irrespective of the status of mFas expression in leukaemic cells, the mRNAs encoding these isoforms were always detectable, indicating the potential for protein translation. Although mFas expressed on freshly isolated ATL cells could iduce apoptosis in vitro, positive versus negative mFas status was not associated with any clinical aspects of ATL, whereas the sFas level was strongly correlated with clinical parameters such as serum LDH activity, tumour burden, serum soluble IL-2R level, hypercalcaemia and prognosis. These results suggest that the ratio of Fas isoforms varies, and high expression of the sFas protein and message reflects the malignant behaviour of ATL and is an independent risk factor for the prognosis.