Enhancement of T cell apoptosis correlates with increased serum levels of soluble Fas (CD95/Apo-1) in active lupus.

Peripheral T cell apoptosis is upregulated in active SLE, in parallel with high expression of both membrane-bound and soluble (s) Fas. Previous studies postulated that sFas down-regulates apoptosis in vitro through its blockade of the Fas-L of cytotoxic cells. We have investigated the extent of apoptosis and sFas levels in 14 patients with active (group A) and 11 with inactive SLE (group B). Fas was predominantly expressed by CD3+ cells from group A, whose increased serological levels of sFas were linearly correlated with the TUNEL positive cell population, whereas low titers paralleled a mild level of apoptosis in group B. This association was also investigated by measuring the effect of sFas on both cell proliferation and caspase activation. We found that incubation with sFas greatly suppressed proliferation of CD3+ cells, especially in group B, and in control cells from healthy donors whose content of CPP32 active products was significantly increased. We postulate that sFas promotes a pro-apoptogen effect, which would explain the high susceptibility to apoptosis in active lupus, and that the apoptosis program itself includes release of sFas to spread the death signal.

Serum elevations of soluble Fas (CD95/apo-I) concur in deregulating T cell apoptosis during active lupus disease.

Apoptosis is deregulated in active systemic lupus erythematosus and Fas is overexpressed by T cells, although the role of its soluble form (sFas) is unclear. We have explored both the biological significance and structure of sFas in relation to the disease activity. Serum levels of both sFas and sFas-L were correlated with T cell apoptosis in 26 systemic lupus eythematosus patients along with measurement of poly (ADP) ribose polymerase and CK18. In addition, both proliferative rate and change of ploidy were measured in CD3+ cells after treatment with sFas. Both sFas and sFas-L correlated with apoptosis in patients with active systemic lupus eythematosus. Incubation with sFas greatly suppressed proliferation of CD3+ cells from inactive patients and healthy donors, whereas immunoprecipitation revealed both the 48-kDa full-length Fas and the 26-kDa splicing variant in sera from active patients. We postulate that sFas is released to exert a pro-apoptogen effect. It seems possible that the apoptosis program itself includes the shedding/secretion of different forms of Fas to spread a death signal.

Anti-Fas (CD95/Apo-I) autoantibodies and soluble Fas levels concur in T cell depletion in HIV type 1 infection.

Deregulation of the Fas/FasL pathway in activated T cells is suspected to contribute to the abnormal apoptosis that drives their progressive depletion during HIV-1 infection. However, the role of serum soluble Fas (sFas) is unclear. Here we investigated both sFas and anti-Fas IgG levels in a cohort of 227 HIV-1-infected patients with respect to their T cell apoptosis. By using optimized ELISAs, we found that serum titers of sFas and anti-Fas were linearly correlated in 17 severely lymphopenic subjects as compared with other patients grouped in relation to their single expression of anti-Fas and sFas, or with double-negative control patients. Cytofluorimetric measurement of the subdiploid DNA-containing cell population by both PI and TUNEL revealed an increased occurrence of cell death in vitro, in particular in patients with elevations of sFas. We also found that fresh CD4(+) cells from these patients showed high levels of both caspase 3 (CPP32) and its molecular targets, namely PARP and CK18. In addition, their in vitro proliferative rate was inhibited by sFas, in particular in patients with undetectable levels of the soluble receptor in vivo as well as in normal donors. In these subjects the Fas-related caspase 8 (FLICE) was significantly increased in cells treated with the recombinant Fas. These results support the contention that functionally exhausted T cells may undergo apoptosis in response to the persistent in vivo stimulation by sFas. This may elucidate the described occurrence of enhanced cell death in advanced HIV-1 infection in association with serum elevations of the soluble receptor.