ExoS of Pseudomonas aeruginosa induces apoptosis through a Fas receptor/caspase 8-independent pathway in HeLa cells

Pseudomonas aeruginosa infection is a serious complication in immunocompromised individuals and in patients with cystic fibrosis. We have previously shown that the type III secreted effector ExoS triggers apoptosis in various cultured cell lines via its ADP-ribosyltransferase (ADPRT) activity. The apoptosis process was further shown to involve intrinsic signalling pathway requiring c-Jun N-terminal kinase (JNK)-initiated mitochondrial pathway. In the present study, we investigated the role of Fas pathway activation in P. aeruginosa-induced apoptosis. P. aeruginosa infection resulted in caspase 8 cleavage in HeLa cells, which was inhibited by overexpression of a dominant negative version of Fas-associated death domain (FADD), suggesting that Fas pathway was activated. In fact, confocal laser scanning microscopy showed that P. aeruginosa induced clustering of FasR. In addition, the ADPRT activity of the ExoS was required for the induction of FasR clustering and caspase 8 cleavage. However, blocking the FasR-FasL interaction by antagonistic antibodies to FasR or to FasL had no effect on P. aeruginosa-induced caspase 8 and caspase 3 activation, neither did the silencing of FasR by small interfering RNA (siRNA), suggesting that caspase 8 activation through the FADD bypasses FasR/FasL-mediated signalling. Thus, FADD-mediated caspase 8 activation involves intracellular ExoS in an ADPRT-dependent manner. Furthermore, silencing of caspase 8 by siRNA did not interfere with P. aeruginosa-induced apoptosis, whereas it rendered HeLa cells markedly increased resistance towards FasL-induced apoptosis. In conclusion, our findings indicate that ExoS of P. aeruginosa induces apoptosis through a mechanism that is independent of Fas receptor/caspase 8 pathway.     

Inhibition of drug‐induced Fas ligand transcription and apoptosis by Bcl‐XL

Fas/Fas ligand system triggers apoptosis in many cell types. Bcl‐X_L overexpresion antagonizes Fas/Fas ligand‐mediated cell death. The mechanism by which Bcl-X_L influences Fas‐mediated cell death is unclear. We have found that microtubule‐damaging drugs (e.g. Paclitaxel) induce apoptosis in a Fas/FasL‐dependent manner. Inhibition of Fas/FasL pathway by anti‐FasL antibody, mutant Fas or a dominant negative FADD blocks paclitaxel‐induced apoptosis. Paclitaxel induced apoptosis through activation of both caspase‐8 and caspase‐3. Overexpression of Bcl‐X_L leads to inhibition of paclitaxel‐induced FasL expression and apoptosis. Bcl‐X_L prevents the nuclear translocation of NFAT (nuclear factor of activated T lymphocytes) by inhibiting the activation of calcineurin, a calcium‐dependent phosphatase that must dephosphorylate NFAT for it to move to the nucleus. The loop domain in Bcl‐X_L can suppress the anti‐apoptotic function of Bcl‐X_L and may be a target for regulatory post‐translational modifications. Upon phosphorylation, Bcl‐X_L loses its ability to bind with calcineurin. Without NFAT nuclear translocation, the FasL gene is not transcribed. Thus, paclitaxel and other drugs that disturb microtubule function kill cells, at least in part, through the induction of FasL, and Bcl‐X_L‐mediated resistance to these agents is related to failure to induce FasL expression.     

FasL‐triggered death of Jurkat cells requires caspase 8‐induced,ATP‐dependent cross‐talk between fas and the purinergic receptor P2X7

Fas ligation via the ligand FasL activates the caspase‐8/caspase‐3‐dependent extrinsic death pathway. In so‐called type II cells, an additional mechanism involving tBid‐mediated caspase‐9 activation is required to efficiently trigger cell death. Other pathways linking FasL–Fas interaction to activation of the intrinsic cell death pathway remain unknown. However, ATP release and subsequent activation of purinergic P2X₇ receptors (P2X₇Rs) favors cell death in some cells. Here, we evaluated the possibility that ATP release downstream of caspase‐8 via pannexin1 hemichannels (Panx1 HCs) and subsequent activation of P2X₇Rs participate in FasL‐stimulated cell death. Indeed, upon FasL stimulation, ATP was released from Jurkat cells in a time‐ and caspase‐8‐dependent manner. Fas and Panx1 HCs colocalized and inhibition of the latter, but not connexin hemichannels, reduced FasL‐induced ATP release. Extracellular apyrase, which hydrolyzes ATP, reduced FasL‐induced death. Also, oxidized‐ATP or Brilliant Blue G, two P2X₇R blockers, reduced FasL‐induced caspase‐9 activation and cell death. These results represent the first evidence indicating that the two death receptors, Fas and P2X₇R connect functionally via caspase‐8 and Panx1 HC‐mediated ATP release to promote caspase‐9/caspase‐3‐dependent cell death in lymphoid cells. Thus, a hitherto unsuspected route was uncovered connecting the extrinsic to the intrinsic pathway to amplify death signals emanating from the Fas receptor in type II cells. J. Cell. Physiol. 228: 485–493, 2013. © 2012 Wiley Periodicals, Inc.     

Fas-, caspase 8-, and caspase 3-dependent signaling regulates the activity of the aminophospholipid translocase and phosphatidylserine externalization in human erythrocytes

Apoptosis and erythrocyte senescence share the common feature of exposure of phosphatidylserine (PS) in the outer leaflet of the cells. Western analysis showed that mature red cells contain Fas, FasL, Fas-associated death domain (FADD), caspase 8, and caspase 3. Circulating, aged cells showed colocalization of Fas with the raft marker proteins Galpha(s) and CD59; the existence of Fas-associated FasL, FADD and caspase 8; and caspase 8 and caspase 3 activity. Aged red cells had significantly lower aminophospholipid translocase activity and higher levels of PS externalization in comparison with young cells. In support of our contention that caspases play a functional role in the mature red cell, the oxidatively stressed red cell recapitulated apoptotic events, including translocation of Fas into rafts, formation of a Fas-associated complex, and activation of caspases 8 and 3. These events were independent of calpain but dependent on reactive oxygen species (ROS) as evident from the effects of the ROS scavenger N-acetylcysteine. Caspase activation was associated with loss of aminophospholipid translocase activity and with PS externalization. ROS was not generated by treatment of cells with t-butyl hydroperoxide at 10 degrees C, and Fas did not translocate into rafts. Concomitantly, neither formation of a Fas-associated signaling complex nor caspase activation could be observed, supporting the view that translocation of Fas into rafts was the trigger for the chain of events leading to caspase 3 activation. Our data demonstrate for the first time the novel involvement of Fas/caspase 8/caspase 3-dependent signaling in an enucleated cell leading to PS externalization, a central feature of erythrophagocytosis and erythrocyte biology.     

MHC class I genes of the channel catfish: sequence analysis and expression

 Four cDNAs encoding the major histocompatibility complex (MHC) class I α chain were isolated from a channel catfish clonal B-cell cDNA library. Sequence analysis suggests these cDNAs represent three different MHC class I loci. All cDNAs encoded conserved residues characteristic of the MHC class I α chain: namely, those involved in peptide binding, salt bridges, disulfide bond formation, and glycosylation. Southern blot analyses of individual outbred and second-generation gynogenetic fish indicated the existence of both polygenic and polymorphic loci. Northern blot studies demonstrated that catfish B, T, and macrophage cell lines transcribed markedly higher levels of class I α and β₂-microglobulin (β₂m) mRNA than fibroblast cell lines. In addition, immunoprecipitation data showed that a 41 000 M _r glycoprotein (presumably class I α) was associated with β₂m on the surface of catfish B cells. This latter finding is the first direct evidence for the cell surface association of β₂m with the MHC class I α chain on teleost cells and supports the notion that functional MHC class I proteins exist in teleosts. Received: 25 March 1998 / Revised: 28 July 1998     

Taiwan cobra phospholipase A2‐elicited JNK activation is responsible for autocrine fas‐mediated cell death and modulating Bcl‐2 and Bax protein expression in human leukemia K562 cells

Phospholipase A₂ (PLA₂) from Naja naja atra venom induced apoptotic death of human leukemia K562 cells. Degradation of procaspases, production of tBid, loss of mitochondrial membrane potential, Bcl‐2 degradation, mitochondrial translocation of Bax, and cytochrome c release were observed in PLA₂‐treated cells. Moreover, PLA₂ treatment increased Fas and FasL protein expression. Upon exposure to PLA₂, activation of p38 MAPK (mitogen‐activated protein kinase) and JNK (c‐Jun NH₂‐terminal kinase) was found in K562 cells. SB202190 (p38 MAPK inhibitor) pretreatment enhanced cytotoxic effect of PLA₂ and led to prolonged JNK activation, but failed to affect PLA₂‐induced upregulation of Fas and FasL protein expression. Sustained JNK activation aggravated caspase8/mitochondria‐dependent death pathway, downregulated Bcl‐2 expression and increased mitochondrial translocation of Bax. SP600125 (JNK inhibitor) abolished the cytotoxic effect of PLA₂ and PLA₂‐induced autocrine Fas death pathway. Transfection ASK1 siRNA and overexpression of dominant negative p38α MAPK proved that ASK1 pathway was responsible for PLA₂‐induced p38 MAPK and JNK activation and p38α MAPK activation suppressed dynamically persistent JNK activation. Downregulation of FADD abolished PLA₂‐induced procaspase‐8 degradation and rescued viability of PLA₂‐treated cells. Taken together, our results indicate that JNK‐mediated autocrine Fas/FasL apoptotic mechanism and modulation of Bcl‐2 family proteins are involved in PLA₂‐induced death of K562 cells. J. Cell. Biochem. 109: 245–254, 2010. © 2009 Wiley‐Liss, Inc.     

Methyl jasmonate changes the levels of rubisco and other leaf proteins in Ricinus communis

The effect of methyl jasmonate (MJ) on the water-soluble protein pattern of Ricinus communis leaves was analyzed. Several dynamic changes occurred after a period of 24 and 48h including six proteins (M_r 13,000, 15,000, 16,000, 27,000, 29,000 and 60,000) whose levels increased by 48h and seven others (M_r 11,000, 18,000, 20,000 30,000, 37,000, 40,000 and 58,000) whose levels decreased. Four proteins (M_r 24,000, 34,000, 64,000 and 66,000) were induced after 24h of treatment, but returned to control levels by 48h. On the other hand, the levels of three proteins (M_r 74,000, 84,000 and 88,000) decreased after 24h, but returned to control levels after 48h. One of the proteins that accumulated after 48 h had the 13 first residues sequenced. This polypeptide named MJRC-15, was identical to the C-terminal sequence of Rubisco-large chain polypeptide (position 337–350) from tobacco chloroplast. Western-blot analysis using polyclonal antibodies against Rubisco supports the hypothesis that MJRC-15 is a degradation product of Rubisco.     

Possible apoptotic mechanism in epidermal cell acantholysis induced by pemphigus vulgaris autoimmunoglobulins

Through a still unclear mechanism, pemphigus vulgaris autoantibodies (PV-IgG) induce intra-epidermal acantholytic lesions responsible for severe to fatal skin wounding. We present evidence that PV lesions contain apoptotic keratinocytes, and that cell death is induced in the lesional tissue apparently before cell separation. These data suggest that apoptosis could be the cause of the acantholytic phenomenon. We show that PV-IgG and an antibody against Fas receptor (anti-FasR) induce lesions in vitro in a similar way, causing: (1) secretion of soluble FasL; (2) elevated cellular amounts of FasR, FasL (soluble and membranal), Bax and p53 proteins; (3) reduction in levels of cellular Bcl-2; (4) enrichment in caspase 8, and activation of caspases 1 and 3; (5) co-aggregation of FasL and FasR with caspase 8 in membranal death-inducing signaling complex (DISC). Hence, the Fas-mediated death signaling pathway seems to be involved in lesion formation. Moreover, we have shown that in skin organ cultures and in keratinocyte cultures, PV-IgG can induce caspase activation and DNA fragmentation, and caspase inhibitors can prevent the formation of PV-IgG-induced epidermal lesions. Altogether, these results suggest that PV-IgG-induced acantholysis may proceed through the death-signaling pathway. They highlight new perspectives on mechanisms of tissue damage in autoimmune diseases.     

Catfish Thrombocytes Express an Integrin-like CD41/CD61 Complex

A thrombocyte-specific antigen was identified in two closely related catfish,Ictalurus punctatusandIctalurus furcatus,by monoclonal antibodies 4-20 and 7-2. The antibodies immunoprecipitate two noncovalently associated glycoprotein chains ofM_r180,000 andM_r95,000. Under reducing conditions theM_r180,000 chain is resolved intoM_r150,000 and 32,000 subcomponents. Analysis of N-terminal amino acid sequences indicates homology of theM_r95,000 chain with the β₃integrin subunit and homology of theM_r150,000 chain with the α_IIbintegrin subunit. These antibodies induce catfish thrombocyte aggregation and alteration of cell shape. The data indicate conservation of the megakaryocyte/platelet-restricted CD41/CD61 complex in bony fish.     

FADD is required for multiple signaling events downstream of the receptor Fas.

To identify essential components of the Fas-induced apoptotic signaling pathway, Jurkat T lymphocytes were chemically mutagenized and selected for clones that were resistant to Fas-induced apoptosis. We obtained five cell lines that contain mutations in the adaptor FADD. All five cell lines did not express FADD by immunoblot analysis and were completely resistant to Fas-induced death. Complementation of the FADD mutant cell lines with wild-type FADD restored Fas-mediated apoptosis. Fas activation of caspase-2, caspase-3, caspase-7, and caspase-8 and the proteolytic cleavage of substrates such as BID, protein kinase Cdelta, and poly(ADP-ribose) polymerase were completely defective in the FADD mutant cell lines. In addition, Fas activation of the stress kinases p38 and c-Jun NH2 kinase and the generation of ceramide in response to Fas ligation were blocked in the FADD mutant cell lines. These data indicate that FADD is essential for multiple signaling events downstream of Fas.     

Mechanisms of nonspecific cytotoxic cell regulation of apoptosis: cytokine-like activity of Fas ligand

The role of FasL/FasR pathways of immunoregulation of programmed cell death in teleost cytotoxic innate immunity has not been previously examined. In the present study, constitutive cytosolic soluble FasL (sFasL) was detected in anterior kidney (AK), peripheral blood (PBL) and liver NCC obtained from tilapia. Ligation of NCC by tumour cells caused the release of sFasL that was associated with lysis of HL-60 targets in 14 h killing assays. Evidence that sFasL mediated this activity was that anti-(human) FasL inhibited tilapia and catfish (cf.) NCC lysis of FasR+ HL-60 tumour cells. Inhibition was concentration dependent. Lysis of IM-9 targets (12% positive for FasR) by (cf.) anterior kidney and PBL NCC was only partially inhibited by anti-FasL mab. Activated NCC from both species were negative for the expression of membrane FasL and FasR. These data confirmed that NCC lyse sensitive tumour cells by multiple effector pathways. Pretreatment of (FasR+) HL-60 cells with anti-FasR mab completely inhibited cf. cytotoxicity at low (100:1) E:T ratios. Anti-FasR mab did not inhibit the lysis of IM-9 targets by cf. NCC. This study demonstrated that for catfish and tilapia, initial target cell conjugate formation was required; however, the terminal killing mechanism depended on at least two different pathways of cytotoxicity. One pathway depended on the release of preformed soluble FasL by activated NCC in the presence of FasR positive target cells. A second pathway has yet to be determined.     

Upregulation of Fas and FasL in Taiwan cobra phospholipase A2‐treated human neuroblastoma SK‐N‐SH cells through ROS‐ and Ca2+‐mediated p38 MAPK activation

The aim of the present study is to elucidate the signaling pathway involved in death of human neuroblastoma SK‐N‐SH cells induced by Naja naja atra phospholipase A₂ (PLA₂). Upon exposure to PLA₂, p38 MAPK activation, ERK inactivation, ROS generation, increase in intracellular Ca²⁺ concentration, and upregulation of Fas and FasL were found in SK‐N‐SH cells. SB202190 (p38MAPK inhibitor) suppressed upregulation of Fas and FasL. N‐Acetylcysteine (ROS scavenger) and BAPTA‐AM (Ca²⁺ chelator) abrogated p38 MAPK activation and upregulation of Fas and FasL expression, but restored phosphorylation of ERK. Activated ERK was found to attenuate p38 MAPK‐mediated upregulation of Fas and FasL. Deprivation of catalytic activity could not diminish PLA₂‐induced cell death and Fas/FasL upregulation. Moreover, the cytotoxicity of arachidonic acid and lysophosphatidylcholine was not related to the expression of Fas and FasL. Taken together, our results indicate that PLA₂‐induced cell death is, in part, elicited by upregulation of Fas and FasL, which is regulated by Ca²⁺‐ and ROS‐evoked p38 MAPK activation, and suggest that non‐catalytic PLA₂ plays a role for the signaling pathway. J. Cell. Biochem. 106: 93–102, 2009. © 2008 Wiley‐Liss, Inc.     

Phosphorylation of the Mr = 34,000 protein in normal and Rous sarcoma virus-transformed rat fibroblasts

Antiserum was raised against the M_r = 34,000 chick cell protein which may serve as a substrate for the Rous sarcoma virus transforming gene product. The antiserum specifically immunoprecipitated 2 proteins from [³⁵S]methionine labeled Rous sarcoma virus-transformed rat cell extracts (a M_r = 35,000 and a M_r = 38,000 protein). Partial protease treatment revealed these two proteins to be very closely related. The protein of apparent M_r = 38,000 was phosphorylated and the phosphate was present exclusively on tyrosine residues. The effect of epidermal growth factor on phosphorylation of the M_r = 35,000 protein was examined in several normal rat fibroblast cell lines. EGF treatment had no effect on phosphorylation of the M_r = 35,000 protein for any normal cell line and also failed to elevate overall levels of phosphotyrosine.     

Prolonged activation of ERK1,2 induces FADD-independent caspase 8 activation and cell death

Prolonged ERK/MAPK activation has been implicated in neuronal cell death in vitro and in vivo. We found that HEK293 cells, recently reported to express neuronal markers, are exquisitely sensitive to long term ERK stimulation. Activation of an inducible form of Raf-1 (Raf-1:ER) in HEK293 cells induced massive apoptosis characterized by DNA degradation, loss of plasma membrane integrity and PARP cleavage. Cell death required MEK activity and protein synthesis and occurred via the death receptor pathway independently of the mitochondrial pathway. Accordingly, prolonged ERK stimulation activated caspase 8 and strongly potentiated Fas signaling. The death receptor adaptator FADD was found to be rapidly induced upon ERK activation. However using RNA interference and ectopic expression, we demonstrated that neither FADD nor Fas were necessary for caspase 8 activation and cell death. These findings reveal that prolonged ERK/MAPK stimulation results in caspase 8 activation and cell death. This work was supported by grant from Association pour la Recherche sur le Cancer (CNRS6543/ARC). S. Cagnol is supported by a fellowship from the Ligue Nationale contre le Cancer.     

Poly (I:C) therapy decreases cerebral ischaemia/reperfusion injury via TLR3‐mediated prevention of Fas/FADD interaction

Toll‐like receptor (TLR)‐mediated signalling plays a role in cerebral ischaemia/reperfusion (I/R) injury. Modulation of TLRs has been reported to protect against cerebral I/R injury. This study examined whether modulation of TLR3 with poly (I:C) will induce protection against cerebral I/R injury. Mice were treated with or without Poly (I:C) (n = 8/group) 1 hr prior to cerebral ischaemia (60 min.) followed by reperfusion (24 hrs). Poly (I:C) pre‐treatment significantly reduced the infarct volume by 57.2% compared with untreated I/R mice. Therapeutic administration of Poly (I:C), administered 30 min. after cerebral ischaemia, markedly decreased infarct volume by 34.9%. However, Poly (I:C)‐induced protection was lost in TLR3 knockout mice. In poly (I:C)‐treated mice, there was less neuronal damage in the hippocampus compared with untreated I/R mice. Poly (I:C) treatment induced IRF3 phosphorylation, but it inhibited NF‐κB activation in the brain. Poly (I:C) also decreased I/R‐induced apoptosis by attenuation of Fas/FasL‐mediated apoptotic signalling. In addition, Poly (I:C) treatment decreased microglial cell caspase‐3 activity. In vitro data showed that Poly (I:C) prevented hypoxia/reoxygenation (H/R)‐induced interaction between Fas and FADD as well as caspase‐3 and ‐8 activation in microglial cells. Importantly, Poly (I:C) treatment induced co‐association between TLR3 and Fas. Our data suggest that Poly (I:C) decreases in cerebral I/R injury via TLR3 which associates with Fas, thereby preventing the interaction of Fas and FADD, as well as microglial cell caspase‐3 and ‐8 activities. We conclude that TLR3 modulation by Poly (I:C) could be a potential approach for protection against ischaemic stroke.     

Fas ligand-independent, FADD-mediated activation of the Fas death pathway by anticancer drugs

Trimerization of the Fas receptor (CD95, APO-1), a membrane bound protein, triggers cell death by apoptosis. The main death pathway activated by Fas receptor involves the adaptor protein FADD (for Fas-associated death domain) that connects Fas receptor to the caspase cascade. Anticancer drugs have been shown to enhance both Fas receptor and Fas ligand expression on tumor cells. The contribution of Fas ligand-Fas receptor interactions to the cytotoxic activity of these drugs remains controversial. Here, we show that neither the antagonistic anti-Fas antibody ZB4 nor the Fas-IgG molecule inhibit drug-induced apoptosis in three different cell lines. The expression of Fas ligand on the plasma membrane, which is identified in untreated U937 human leukemic cells but remains undetectable in untreated HT29 and HCT116 human colon cancer cell lines, is not modified by exposure to various cytotoxic agents. These drugs induce the clustering of Fas receptor, as observed by confocal laser scanning microscopy, and its interaction with FADD, as demonstrated by co-immunoprecipitation. Overexpression of FADD by stable transfection sensitizes tumor cells to drug-induced cell death and cytotoxicity, whereas down-regulation of FADD by transient transfection of an antisense construct decreases tumor cell sensitivity to drug-induced apoptosis. These results were confirmed by transient transfection of constructs encoding either a FADD dominant negative mutant or MC159 or E8 viral proteins that inhibit the FADD/caspase-8 pathway. These results suggest that drug-induced cell death involves the Fas/FADD pathway in a Fas ligand-independent fashion.     

The recruitment of Fas-associated death domain/caspase-8 in Ras-induced apoptosis.

Oncogenic Ras induces cells to undergo apoptosis after inhibition of protein kinase C (PKC) activity. The integration of differential signaling pathways is required for full execution of apoptosis. In this study, we used Jurkat as well as Fas/FADD-defective cell lines expressing v-ras to determine the upstream elements required for activation of the caspase cascade in PKC/Ras-mediated apoptosis. During this Ras-induced apoptotic process, caspase-8 was activated, possibly through its binding to Fas-associated death domain (FADD), in Jurkat/ras and Jurkat/Fas(m)/ras cells but not in Jurkat/FADD(m)/ras cells. c-Jun NH(2)-terminal kinase (JNK) was activated in all three cell lines expressing ras in response to apoptotic stimulation. Suppression of JNK by dn-JNK1 blocked the interaction of FADD and caspase-8 and partially protected Jurkat/ras and Jurkat/Fas(m)/ras cells from apoptosis. However, dn-JNK1 had no effect on PKC/Ras-induced apoptosis in Jurkat/FADD(m)/ras cells. The results indicate that FADD/caspase-8 signaling is involved in PKC/Ras-mediated apoptosis, and JNK may be an upstream effector of caspase activation.     

Fas/FasL expression in colorectal cancer. An immunohistochemical study

The objective of the current study was to assess the expression of Fas ligand (FasL) and Fas receptor (FasR) as the proteins of the post-mitochondrial apoptotic pathway in colorectal carcinoma and to investigate correlations between their expression and chosen clinico-pathological parameters. The protein expression was analyzed in 50 colorectal carcinoma patients, using the immunohistochemical method. Reaction for FasR was weak in 75.5% and strong in 24.5% of the study patients, as compared to normal glandular epithelium where FasR expression was strong in 100% of cases. On the other hand, FasL expression was found to be weak in 30% and strong in 70% of colorectal cancer patients, as compared to its lack in 100% of normal colorectal epithelium. Statistical analysis showed strong expression of FasL was found to correlate statistically significantly with vascular invasion (p = 0.005). No correlations of FasL and FasR expression in the main mass of tumor was found between other clinic-pathological parameters. Fas ligand and Fas receptor appeared to be of little usefulness as prognostic factors for different groups of colorectal carcinoma patients. However, these proteins could become good therapeutic targets for colorectal carcinoma since their expression differs distinctly between normal intestinal epithelium and cancer cells, and known is the mechanism by which cancer cells escape death via apoptosis-inducing Fas/FasL pathway disorders.     

Protein synthesis by Beggiatoa alba B18LD in the presence and absence of sulfide

The interaction of sulfide oxidation and protein synthesis by Beggiatoa alba B18LD was investigated using the incorporation of radiolabeled leucine to estimate protein synthesis. Leucine was assimilated into whole cells in the presence of 6.1 mM acetate at a rate of 0.6 nmol · min^-1 · mg protein^-1, 43% of which was incorporated into the protein fraction. Protein synthesis by B. alba was unaffected by 1 mM sulfide, whether or not the cells had been preincubated with sulfide. B. alba oxidized radioactive sulfide to sulfur within 30 s of addition of the label, whether or not the organism was preinduced by sulfide. Furthermore, chloramphenicol, which inhibited protein synthesis, did not significantly inhibit sulfide oxidation by sulfide-induced or uninduced B. alba. This indicates that sulfide oxidation is a constitutive process. Enrichments of sulfur inclusions from B. alba B18LD that were analyzed by polyacrylamide gel electrophoresis demonstrated two enriched peptides with M_r values of 13,000 and 15,000. The 13,000 and 15,000 M_r peptide bands were more evident in cells grown in a medium containing sulfide than in cells from a medium lacking sulfide. Although sulfide did not increase the rate of overall protein synthesis, the synthesis of a few peptides was increased by the addition of sulfide to the growth medium. Among those, the 15,000 M_r peptide was one of the most distinctive.Non-standard abbreviations SDS-PAGE Sodium dodecyl sulfate polyacrylamide gel electrophoresis - PPO 2,5-diphenyloxazole - POPOP 1,4-bis [5-phenyl-2-oxazolyl]-benzene - BSS basal salts solution - BH Beggiatoa heterotrophic (medium) - BSO Beggiatoa sulfide oxidation (medium) - CM chloramphenicol - TCA trichloroacetic acid - M_r molecular mass