Prenatal exposure of mice to diethylstilbestrol disrupts T-cell differentiation by regulating Fas/Fas ligand expression through estrogen receptor element and nuclear factor-κB motifs. Singh, NP; Singh, UP; Nagarkatti, PS; Nagarkatti, M The Journal of pharmacology and experimental therapeutics
343
351-61
2012
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Prenatal exposure to diethylstilbestrol (DES) is known to cause altered immune functions and increased susceptibility to autoimmune disease in humans. In the current study, we investigated the effect of prenatal exposure to DES on thymocyte differentiation involving apoptotic pathways. Prenatal DES exposure caused thymic atrophy, apoptosis, and up-regulation of Fas and Fas ligand (FasL) expression in thymocytes. To examine the mechanism underlying DES-mediated regulation of Fas and FasL, we performed luciferase assays using T cells transfected with luciferase reporter constructs containing full-length Fas or FasL promoters. There was significant luciferase induction in the presence of Fas or FasL promoters after DES exposure. Further analysis demonstrated the presence of several cis-regulatory motifs on both Fas and FasL promoters. When DES-induced transcription factors were analyzed, estrogen receptor element (ERE), nuclear factor κB (NF-κB), nuclear factor of activated T cells (NF-AT), and activator protein-1 motifs on the Fas promoter, as well as ERE, NF-κB, and NF-AT motifs on the FasL promoter, showed binding affinity with the transcription factors. Electrophoretic mobility-shift assays were performed to verify the binding affinity of cis-regulatory motifs of Fas or FasL promoters with transcription factors. There was shift in mobility of probes (ERE or NF-κB2) of both Fas and FasL in the presence of nuclear proteins from DES-treated cells, and the shift was specific to DES because these probes failed to shift their mobility in the presence of nuclear proteins from vehicle-treated cells. Together, the current study demonstrates that prenatal exposure to DES triggers significant alterations in apoptotic molecules expressed on thymocytes, which may affect T-cell differentiation and cause long-term effects on the immune functions. | 22888145
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Fas/APO-1/CD95 system as a mediator of granulosa cell apoptosis in ovarian follicle atresia. Hakuno, N, et al. Endocrinology, 137: 1938-48 (1996)
1996
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Current studies have shown that atresia of ovarian follicles is induced through apoptosis in granulosa cells. Several articles have been devoted to study of the molecular mechanisms responsible for APO-1/CD95 (Fas) is a cell surface protein that can mediate apoptosis in lymphoid cells, and Fas ligand was recently identified in a cytotoxic T cell line. To clarify the involvement of the Fas-Fas ligand system in granulosa cell apoptosis, we investigated the expression of Fas and Fas ligand at an individual cell level. For this purpose, we raised specific polyclonal antibodies against Fas and Fas ligand. Western blotting confirmed that our anti-Fas antibodies (anti-P2 and anti-P4) detect a specific band with a mol wt of 45 kDa in the lysate of ovaries from immature PMSG-treated rats or adult cyclic rats. In immature PMSG-treated rats, immunohistochemical analysis with these antibodies revealed specific staining of granulosa cells in secondary and tertiary follicles at an early stage of atresia, but not in healthy follicles. Fas messenger RNA was also found in granulosa cells of early atretic follicles using in situ hybridization. On the other hand, the anti-Fas ligand antibody (anti-P5) detected a specific 31-kDa band on a Western blot of the oocytes lysate, and the staining with the serum was localized to oocytes in most of developing follicles. Colocalization of Fas and Fas ligand in certain follicles intimately correlated with granulosa cell apoptosis, which was revealed by terminal deoxynucleotidyl transferase-mediated deoxy-UTP-biotin nick end labeling staining of DNA strand breaks. Finally, we found that interferon-gamma increased Fas expression on granulosa cells in vitro. Coculturing interferon-gamma-pretreated granulosa cells with zona-free oocytes induced granulosa cell apoptosis, which was confirmed by Hoechst 33342 dye staining and terminal deoxynucleotidyl transferase-mediated deoxy-UTP-biotin nick end labeling, and the killing effect of oocytes was abolished by the addition of anti-P2, which was expected to interrupt the interaction between Fas and Fas ligand. These results demonstrate that activation between Fas and Fas ligand. These results demonstrate that activation of the Fas-Fas ligand system is capable of initiating apoptosis in the ovary, as are a number of other stimuli, outside the immune system. | 8612534
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Characterization of the non-functional Fas ligand of gld mice. Hahne, M, et al. Int. Immunol., 7: 1381-6 (1995)
1995
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Mice homozygous for either the gld or lpr mutation develop autoimmune diseases and progressive lymphadenopathy. The lpr mutation is characterized by the absence of functional Fas, whereas gld mice exhibit an inactive FasL due to a point mutation proximal to the extracellular C-terminus. The structural repercussions of this amino acid substitution remain unknown. Here we report that FasL is expressed at similar levels on the surface of activated T lymphocytes from gld and wild-type mice. Using a polyclonal anti-FasL antibody, indistinguishable amounts of a 40 kDa protein are detected in both gld and wild-type splenocytes. The molecular model of FasL, based on the known structure of TNF-alpha, predicts that the Phe --> Leu gld mutation is located at the protomer interface which is close to the FasR interaction site. We conclude that the gld mutation allows normal FasL biosynthesis, surface expression and oligomerization, but induces structural alterations to the Fas binding region leading to the phenotypic changes observed. | 7495745
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Generalized lymphoproliferative disease in mice, caused by a point mutation in the Fas ligand. Takahashi, T, et al. Cell, 76: 969-76 (1994)
1994
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Mice homozygous for lpr (lymphoproliferation) or gld (generalized lymphoproliferative disease) develop lymphadenopathy and suffer from autoimmune disease. The lpr mice have a mutation in a cell-surface protein, Fas, that mediates apoptosis. Fas ligand (FasL) is a tumor necrosis factor (TNF)-related type II membrane protein and binds to Fas. Here, mouse Fasl gene was isolated and localized to the gld region of mouse chromosome 1. Activated splenocytes from gld mice express Fasl mRNA. However, FasL in gld mice carries a point mutation in the C-terminal region, which is highly conserved among members of the TNF family. The recombinant gld FasL expressed in COS cells could not induce apoptosis in cells expressing Fas. These results indicate that lpr and gld are mutations in Fas and Fasl, respectively, and suggest important roles of the Fas system in development of T cells as well as cytotoxic T lymphocyte-mediated cytotoxicity. | 7511063
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Role of Fas ligand in apoptosis induced by hepatitis C virus infection. Mita, E, et al. Biochem. Biophys. Res. Commun., 204: 468-74 (1994)
1994
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To investigate the role that Fas ligand plays in the apoptosis of hepatocytes induced by hepatitis C virus infection, we isolated a cDNA clone for human Fas ligand and examined the expression of Fas ligand in liver-infiltrating mononuclear cells obtained from patients with chronic hepatitis C. The amino acid sequence of human Fas ligand showed 76% and 77% identity with those of rat and mouse Fas ligand, respectively. When the expression of Fas ligand transcripts was tested by reverse transcription-polymerase chain reaction, the amplified signal was detected in liver-infiltrating mononuclear cells and peripheral blood mononuclear cells, whereas only a weak signal or none at all was detected in liver tissues. These findings suggest that the Fas ligand-Fas antigen system may play an important role in liver cell injury by hepatitis C virus infection. | 7980502
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