Alterations in the expression of interleukin-2R subunits by activated T cells from elderly humans are uncoupled from aberrancies in G1/S progression.

Activated T cells from elderly humans are known to often display a decline in interleukin-2 (IL-2) production. However, the possible effects of aging on the expression of IL-2 receptor (IL-2R) subunits by human T cells are more controversial and less well characterized. In the present investigation, the surface expression of IL-2Ralpha, IL-2Rbeta, and IL-2Rgamma subunits on resting and activated T cells from 15 sets of elderly and young humans was evaluated. The results showed no significant differences in the average expression of IL-2Ralpha, IL2Rbeta, and IL-2Rgamma on resting T cells from elderly and young subjects, with values of 10% or less. Similarly, no significant differences were found in the mean levels of IL-2Ralpha, IL-2Rbeta, and IL-2Rgamma on T cells from elderly and young subjects stimulated with anti-Ig cross-linked anti-CD3 (monoclonal antibody [mAb] OKT3), phorbol myristate acetate (PMA), anti-CD3 and PMA, or 1% phytohemagglutinin (PHA) plus PMA. Analyses of the expression of IL-2R on activated T cells from elderly people revealed a marked heterogeneity in IL2R levels irrespective of the stimuli. Other experiments showed that the age-related alterations in surface expression of IL-2Ralpha were not correlated to changes in the release of soluble IL-2Ralpha. Age-related changes in IL-2R expression on activated T cells from individual donors were not coupled to the ability of the T cells to undergo G(1)/S progression. Collectively, these observations suggest that activated T cells from elderly people exhibit substantial heterogeneity in the expression of IL-2R subunits and that alterations in IL-2R expression may be distinct from intrinsic defects in G(1)/S progression and proliferative responses.

Age-related impairments in TCR/CD3 activation of ZAP-70 are associated with reduced tyrosine phosphorylations of zeta-chains and p59fyn/p56lck in human T cells.

The expression and catalytic activity of the protein tyrosine kinase (PTK) ZAP-70 are needed for normal intracellular signaling through the T-cell receptor (TCR)/CD3 complex. However, the possible effect of aging on the catalytic activity of ZAP-70 in human peripheral blood T cells stimulated via the TCR/CD3 complex is unknown. The current studies show that T cells from a substantial proportion of elderly humans (12) exhibit significant reductions in the catalytic activity, but not expression of ZAP-70 when stimulated by ligation of the TCR/CD3 with cross-linked anti-CD3epsilon monoclonal antibody OKT3. In addition, the reduced catalytic activity of ZAP-70 in T cells from elderly subjects was not restored to the normal levels in response to ligation of CD4 receptors, suggesting defects in PTKs linked to both CD3 and CD4 receptors. Other experiments demonstrated that the age-related impairments of ZAP-70 activation in anti-CD3-stimulated T cells were accompanied by decreased tyrosine phosphorylations of zeta-chains and autophosphorylations of the PTKs p561ck/p59fyn. Moreover, the age-related defects in these early TCR/CD3-mediated phosphorylation events were readily detectable in both CD45RO+ memory and CD45RA+ naive T cells. Thus, these results suggest that defects in early TCR/CD3-mediated phosphorylation events among CD45RO+ memory and CD45RA+ naive T cells from certain elderly humans may con tribute to impaired induction of ZAP-70 catalytic activity.

Age-related defects in Th1 and Th2 cytokine production by human T cells can be dissociated from altered frequencies of CD45RA+ and CD45RO+ T cell subsets.

The present study investigated whether age-related changes in the production of Th1 and Th2 cytokines by human T cells might be linked to altered frequencies of naive (CD45RA+) and memory (CD45RO+) T cell subsets. T cells from healthy elderly humans (n = 32) stimulated with anti-CD3epsilon monoclonal antibody OKT3 plus PMA produced significantly lower levels of IL-2 and IFNgamma (Th1 type) and of IL-4 (Th2 type) cytokines compared with T cells from young subjects. Although considerable heterogeneity was observed in the levels of cytokines produced by activated T cells from elderly individuals, linear regression analysis failed to demonstrate any significant shift in Th1 to Th2 type cytokine profiles of human T cells during aging. Sufficient T cells were available from eighteen elderly subjects to quantitate the levels of cytokine production in parallel with flow cytometry analysis of the frequencies of CD45RA+ naive and CD45RO+ memory T cells. Compared with the group of young subjects, the elderly group exhibited significant decreases in the frequencies of naive T cells with reciprocal increases in memory T cells. However, defects in Th1 and Th2 cytokine production were not significantly correlated with altered frequencies of naive/memory T cells among elderly individuals. In addition, those elderly individuals with normal frequencies of naive/memory T cells exhibited decreases in cytokine production comparable to the reductions observed for elderly donors with alterations in the frequencies of naive/memory T cells. These findings suggest that age-related defects in Th1 and Th2 cytokine production cannot be attributed entirely to alterations in the frequencies of naive/memory T cell subsets and point toward intrinsic aberrancies within human T cell cytokine networks during aging.

Transcriptional activation and redox regulation of the tumor necrosis factor-alpha promoter in human T cells: role of the CRE/kappa3 promoter region.

Aberrancies in T cell expression of tumor necrosis factor-alpha (TNF-alpha) are frequently observed in inflammatory states characterized by oxidative stress due to excessive generation of hydrogen peroxide (H2O2) and other reactive oxygen species (ROS). In this study, we examined the possible effects of oxidative stress on the expression of TNF-alpha protein and transcriptional activation of the TNF-alpha promoter in human T cells. Results show that exposure of resting T cells to micromolar concentrations of H2O2 did not induce TNF-alpha protein production or transcriptional activation of the TNF-alpha promoter. However, oxidative signals resulted in a dose-dependent suppression of TNF-alpha protein production and transcriptional activation in T cells stimulated with the lectin phytohemagglutinin (PHA) and phorbol myristate acetate (PMA). Optimal suppression of TNF-alpha promoter activity was observed when cells were exposed to oxidative stress during early T cell activation, and other experiments demonstrated that the transactivation responses of the TNF-alpha promoter were quite susceptible to inhibition by both oxidative and reducing changes in cellular redox. Furthermore, reporter gene assays with 5' deletion mutants of the TNF-alpha promoter showed that the CRE/kappa3 composite site played a major role in activation of the TNF-alpha promoter by dual stimulatory signals and suppression of the TNF-alpha promoter by oxidative signals. Thus, T cell expression of TNF-alpha at the protein and transcriptional levels is highly regulated by changes in cellular redox, and the CRE/kappa3 composite site is important for both activation and redox regulation of the TNF-alpha promoter.

Redox signals and NF-kappaB activation in T cells.

Accumulating data from a number of laboratories have recently indicated that the response of transcription factor NF-kappaB to alterations in the redox homeostasis of cells may play an important role in modulating immune function. The activation of NF-kappaB has been recognized to regulate a number of genes necessary for normal T cell responses including IL-2, IL-6, IL-8, and several T cell surface receptors. Diminished NF-kappaB activity has been shown to occur in T cells with aging, suggesting that impaired activation of NF-kappaB might occur during cellular senescence. In addition, aberrancies in NF-kappaB activity have been implicated in the immunopathogenesis of diseases involving immune or inflammatory processes such as atherosclerosis and HIV-1 infection. The role of H2O2 and other reactive oxygen species (ROS) as an integratory secondary messenger for divergent T cell signals has been complicated by the fact that various T cell lines and peripheral blood T cells differ markedly in the levels of NF-kappaB activation induced by oxidant stress. Additionally, proposed pathways of NF-kappaB activation have been based on indirect evidence provided by experiments which used antioxidants to inhibit active NF-kappaB formation. Further, complete activation of T cells requires at least two signals, one that stimulates an increase in intracellular calcium and one that stimulates enzymatic processes including kinases. Similarly, substantial evidence indicates that full activation of NF-kappaB requires dual signals. The ability of H2O2 or other ROS to induce T cell signals and functional responses by these two mechanisms is reviewed and the specific response of NF-kappaB to redox changes in T cells is examined. Data are also presented to suggest that the redox regulation in NF-kappaB activation may be relevant to immune-related diseases and to aging.

Differential expression of p53 tumor suppressor protein and IL-2 in activated T cells from elderly humans.

Aging is associated with a decline in T cell proliferative responses and aberrations in cytokine production. In the present study, we examined if aging might alter the expression of the tumor-suppressor protein p53 and the retinoblastoma susceptibility gene product (Rb) as well as the levels of Bcl-2 in resting and activated human T cells. No significant differences were observed in the basal levels of p53 protein among resting T cells from young and elderly humans. After stimulation with anti-CD3 monoclonal antibody (mAb) OKT3 and phorbol myristate acetate (PMA), T cells from young humans exhibited severalfold increases in p53 protein expression compared with resting T cells. By contrast, T cells from a substantial portion of elderly humans failed to demonstrate significant increases in p53 in response to anti-CD3 plus PMA. No age-related alterations in the levels of Rb or Bcl-2 proteins were observed in resting or anti-CD3/PMA-stimulated T cells. To delineate whether the age-related reductions in p53 expression might be linked to decreased interleukin-2 (IL-2) production, we compared the expression of p53 and IL-2 in anti-CD3/PMA-stimulated T cells from elderly people. The results showed that impaired induction of p53 expression in activated T cells from certain elderly people could be observed without considerable impairments in IL-2 production. These observations suggest that age-related reductions in T cell expression of p53 may contribute to the decline of T cell competence independent of the impairments in IL-2 production.

Phosphorylation and coupling of zeta-chains to activated T-cell receptor (TCR)/CD3 complexes from peripheral blood T-cells of elderly humans.

Aging is often accompanied by altered T-cell signaling and functions. Signals mediated through the T-cell receptor (TCR)/CD3 complex are associated with tyrosine phosphorylations of zeta-chains by the regulated activities of protein tyrosine kinases p56(lck) and p59(fyn) as well as protein tyrosine phosphatases. In the present investigation, the coupling and phosphorylation of zeta-chains to TCR/CD3 immunocomplexes were examined in peripheral blood T-cells from 13 elderly and young humans stimulated by ligation of the TCR/CD3 with cross-linked anti-CD3epsilon monoclonal antibody OKT3. Western blots analyzing the non-covalent coupling of zeta-chains to TCR/CD3 immunocomplexes from Brij-96 detergent lysates of anti-CD3 ligated T-cells showed that the levels of zeta-chains within TCR/CD3 immunocomplexes from T-cells of elderly and young subjects did not significantly differ. By contrast, the levels of phosphorylated zeta-chains generated during in vitro phosphorylations of TCR/CD3 immunocomplexes from elderly subjects were significantly reduced and averaged 44% of those observed for anti-CD3epsilon ligated T-cells from young subjects. Analyses of the levels of zeta-chain coupling and phosphorylations in T-cells from each of the 13 elderly individuals also showed that the reductions in zeta-chain phosphorylations were heterogeneous and unrelated to modest reductions in coupling. Furthermore, the age-related decreases in zeta-chain phosphorylations were not due to diminished frequencies of CD3epsilon+ cells or densities of CD3epsilon surface receptors and could be observed without reductions in epsilon-chain phosphorylations. These results suggest that aberrancies of zeta-chain phosphorylations can occur in T-cells of elderly humans independent from any uncoupling of zeta-chains to activated TCR/CD3 complexes.

Expression and catalytic activities of protein tyrosine kinases (PTKs) Fyn and Lck in peripheral blood T cells from elderly humans stimulated through the T cell receptor (TCR)/CD3 complex.

Optimal signal transduction through the T cell receptor (TCR)/CD3 complex requires the coordinated activities of protein tyrosine kinases (PTKs) Fyn and Lck in addition to protein tyrosine phosphatases (PTPases) such as CD45. Although T cells stimulated with anti-CD3 monoclonal antibodies (mAb) exhibit age-related reductions in tyrosine phosphorylations of cellular proteins, it is unknown if the reduction represent abnormalities in PTKs or PTPases. In the current studies, immune complex kinase assays showed that the stimulation of peripheral blood T (PBT) cells from young humans with cross-linked anti-CD3 epsilon mAb OKT3 induced increased Fyn catalytic activity while anti-CD3 stimulation failed to induce significant increases in Lck activation. By contrast, Fyn activation in anti-CD3 stimulated PBT cells from a substantial proportion of elderly humans was reduced compared to anti-CD3 stimulated PBT cells from young humans. Also, we failed to find any increase in anti-CD3 stimulation of Lck activity in PBT cells from elderly subjects that could compensate for the decline in Fyn activity. However, no age-related alterations were detected in PBT cell expression of Fyn or Lck that might contribute to the changes in enzymatic activity. The results of other experiments demonstrated that the functional activities of PTPases in PBT cells from elderly subjects were equivalent to PBT cells from young subjects. These observations suggest that aberrant regulation of TCR/CD3 coupled PTKs may contribute to the age-related defects in signaling cascades and immune responsiveness of human T cells.

Impaired induction of c-fos/c-jun genes and of transcriptional regulatory proteins binding distinct c-fos/c-jun promoter elements in activated human T cells during aging.

The activation of transcriptional factor c-Fos/c-Jun AP-1 is essential for normal T cell responsiveness and is often impaired in T cells during aging. In the present study, we investigated whether aberrancies in the regulation of c-fos/c-jun at the mRNA or protein level might underlie the age-associated impairments of AP-1 in human T cells. Whereas T cells from young subjects stimulated with cross-linked anti-CD3epsilon mAb OKT3 plus PMA or with the lectin PHA plus PMA demonstrated considerable increases in c-Fos protein expression, the expression of c-Fos but not c-Jun was markedly reduced in stimulated T cells from certain elderly subjects. In addition, RNase protection assays revealed that anti-CD3/PMA-stimulated T cells from a substantial proportion of elderly subjects exhibited decreased levels of c-fos and/or c-jun mRNA compared to T cells from young subjects. Using electrophoretic mobility shift assays, the levels of nuclear regulatory proteins recognizing the AP-1 consensus TRE motif, the proximal c-jun TRE-like promoter element, and the c-fos serum response element (SRE) were determined in resting and stimulated T cells. Although the stimulation of T cells from young subjects resulted in coordinated increases of nuclear protein complexes binding the AP-1 TRE, c-jun TRE, and c-fos SRE DNA sequence motifs, age-related reductions in the activation of AP-1 were accompanied by decreased levels of c-jun TRE and c-fos SRE binding complexes. Furthermore, the nuclear protein complexes binding the SRE motif induced in activated T cells of young and elderly subjects contained serum response factor and Elk-1 pointing toward age-related defects in the activation of transcriptional regulatory proteins distinct from c-jun/AP-1. These results suggest that underlying aberrancies in the induction of c-fos/c-jun as well as their nuclear regulatory proteins may contribute to the age-related impairments of AP-1 activation in human T cells.

Reductions in the activation of ERK and JNK are associated with decreased IL-2 production in T cells from elderly humans stimulated by the TCR/CD3 complex and costimulatory signals.

T cells from elderly humans often display impaired IL-2 production, but the mechanisms are unknown. Because the activities of extracellular signal-regulated kinases (ERK) and c-Jun NH2-terminal kinases (JNK) are important for IL-2 production, the current study evaluated if aberrancies in the expression and activation of ERK2 or JNK might underlie decreased IL-2 production by human T cells during aging. The present results show that diminished ERK2 and JNK catalytic activities were commonly detected in T cells from elderly humans stimulated with anti-CD3 mAb OKT3 plus PMA. These reductions did not represent temporal shifts in activation or altered expression of ERK2 or JNK. In addition, the reductions of ERK2 activation in stimulated T cells from elderly individuals were accompanied by decreased Raf-1 kinase activation and could be observed without coexisting impairments in JNK activation. Stimulation of ERK2 activation in elderly T cells correlated with IL-2 production and decreased ERK2 activation was consistently associated with reduced IL-2 production. Although the age-related decreases in JNK activation were accompanied by reduced IL-2 production, substantial impairments of JNK activation were observed with diminished ERK2 activation. Moreover, anti-CD3/PMA-stimulated T cells from elderly individuals that displayed normal JNK activation and impaired ERK2 activation continued to demonstrate reduced IL-2 production. These findings show that impairments in the activation of ERK2 and JNK can accompany decreased IL-2 production by T cells from elderly humans and further suggest that aberrancies in TCR/CD3-dependent activation of the Raf-1/MEK/ERK2 cascade may be rate-limiting for the full induction of IL-2.

Optimal NF kappa B mediated transcriptional responses in Jurkat T cells exposed to oxidative stress are dependent on intracellular glutathione and costimulatory signals.

Many early response genes induced by the exposure of mammalian cells to environmental stress contain DNA sequences which bind nuclear factor (NF) kappa B. However, the effects of oxidative stress on NF kappa B activity in T cells are contradictory with evidence supporting both stimulation and suppression. The present investigation examined the effects of low levels of oxidative stress in the form of H2O2 on NF kappa B transactivation in Jurkat T cells and the regulation of NF kappa B activity by cellular glutathione (GSH) levels and costimulatory signals. Transient transfection analyses demonstrated 2-3 fold increases in transcription of an NF kappa B dependent chloramphenicol acetyl transferase (CAT) reporter after the exposure of Jurkat cells to 100-500 microM H2O2. By comparison, dual stimulation of Jurkat cells with phytohemagglutinin (PHA) plus phorbol (PMA) induced 9-10 fold increases in NF kappa B CAT activity. Although no marked changes in GSH levels were detected in cells treated with H2O2 or PHA/PMA, the depletion of GSH in cells pretreated with DL-buthionine-[S,R]-sulfoximine (BSO) substantially inhibited NF kappa B transactivation by H2O2. In addition, H2O2 was less effective than PHA/PMA in inducing NF kappa B1 (p50)/RelA (p65) complexes. However, signals induced by oxidative conditions effectively cooperated with stimulatory signals provided by PMA but not with T cell receptor/CD3 stimulation to induce significant increases in NF kappa B CAT responses. These results suggest that a functional GSH system is required for NF kappa B activation in T cells exposed to oxidative reagents and provide evidence that oxidative stress triggers signaling events capable of participating with distinct coregulatory signals to activate NF kappa B transcriptional responses.

Sublethal levels of oxidative stress stimulate transcriptional activation of c-jun and suppress IL-2 promoter activation in Jurkat T cells.

Sublethal levels of oxidative stress are well known to alter T cell functional responses, but the underlying mechanisms are unknown. The current study examined the effects of oxidative stress on transcriptional activities mediated by c-Fos/c-Jun AP-1 and the nuclear factor of activated T cells (NF-AT). The present results show that Jurkat T cells acutely exposed to micromolar concentrations of H2O2 exhibit substantial increases in AP-1 binding activity and the expression of c-jun but not c-fos mRNA. The preferential induction of c-jun by H2O2 did not represent redox stabilization of mRNA transcripts, and oxidative signals closely resembled PHA/PMA stimulation by effectively transactivating the full length c-jun promoter via the proximal jun1 tumor promoter-responsive element (TRE)-like promoter element. Similarly, the complexes binding the consensus AP-1 TRE and jun TRE-like motifs in cells exposed to oxidative signals or PHA/PMA were indistinguishable, being composed of c-Fos, c-Jun, and JunD. However, PHA/PMA but not oxidative signals induced the coordinate activation of reporter constructs containing the AP-1-TRE, NF-AT, and IL-2 promoter regions along with IL-2 mRNA expression. Furthermore, sublethal levels of H2O2 actively suppressed the transcriptional activation of NF-AT and IL-2 reporters as well as the expression of IL-2 mRNA in cells stimulated with PHA/PMA. Gel shift analysis revealed that oxidative suppression of NF-AT represented inhibition in the early generation of NFAT complexes rather than the binding of preformed NF-AT complexes. These results suggest that oxidative signals can positively and negatively regulate T cell transcriptional events and that changes in cellular redox can uncouple AP-1 regulation of c-jun from transcriptional up-regulation of IL-2 via NF-AT.

Age-related decreases in IL-2 production by human T cells are associated with impaired activation of nuclear transcriptional factors AP-1 and NF-AT.

Although transcriptional factors AP-1 and nuclear factor of activated T cells (NF-AT) are important for the normal induction of IL-2, it is unknown if the age-related decline in IL-2 production by activated human T cells may be associated with aberrancies in transcriptional regulatory proteins. In the current studies, IL-2 production by T cells from elderly (mean 78 years) and young (mean 37 years) humans was measured in cultures stimulated with PHA, PHA plus PMA, crosslinked anti-CD3 mAB OKT3 plus PMA, or PMA plus ionomycin. Substantial decreases of IL-2 production were observed for cell cultures from 7 of 12 elderly individuals in response to the different stimuli, whereas the levels of IL-2 produced by stimulated T cells from other elderly individuals were equivalent to those observed for stimulated T cells of young subjects. Analyses of nuclear extracts by electrophoretic DNA mobility shift assays showed that decreased IL-2 production by stimulated T cells of elderly individuals was closely associated with impairments in the activation of both AP-1 and NF-AT. By contrast, T cells from elderly subjects with normal levels of IL-2 production exhibited normal activation of AP-1 and NF-AT. In addition, the results of competition experiments analyzing the normal components of NF-AT showed that the age-related reductions in stimulus-dependent NF-AT complexes corresponded to the slow migrating complexes that were composed of c-Fos/c-Jun AP-1. The resting and stimulated levels of NF kappa B were reduced in T cells from certain elderly individuals; however, alterations of NF kappa B did not correlate with changes in IL-2 expression. Thus, these results show that age-related impairments in the activation of AP-1 and NF-AT are closely associated with decreased expression of IL-2 and further suggest that aberrancies in the signaling pathways important for the induction of transcriptionally active c-Fos/c-Jun AP-1 may contribute to the impaired activation of NF-AT.

Age-related reductions in the activation of mitogen-activated protein kinases p44mapk/ERK1 and p42mapk/ERK2 in human T cells stimulated via ligation of the T cell receptor complex.

Age-related changes in the functional properties of human T cells are well described, but less is known about possible changes in T cell signaling pathways. The signaling pathways mediated by mitogen-activated protein kinases (MAPK) are considered essential for normal cellular growth and function. Several stimuli trigger MAPK activation in human T cells and MEK (MAPK or ERK kinases) are immediate upstream inducers of MAPK activation. The current study investigated if aging might influence the activation and expression of MAPK and MEK in human T cells. Exposure of peripheral blood T cells from young subjects to PHA or cross-linked anti-CD3 monoclonal antibodies stimulated rapid increases in MAPK and MEK enzymatic activity. By contrast, significant reductions of MAPK and MEK activation were observed in stimulated T cells from 7 of 13 elderly subjects. Kinetic studies showed that the age-related impairments represented reduction in both the levels and duration of MAPK activation. In addition, Western immunoblot analysis did not reveal significant age-related differences in T cell expression of p42mapk/ERK2, p44mapk/ERK1, or MEK, suggesting impairments in upstream inducers of MEK/MAPK activation. Other experiments determined if agents that directly stimulate upstream Ras or Raf kinase components of the early MAPK cascade might reverse the age-related impairments of MAPK activation. Treatment of elderly T cells with fluoroaluminate (AlF(-)4), phorbol esters/Ca2+ ionophores, or okadaic acid stimulated increased MAPK activation compared to anti-CD3. However, these agents failed to restore MAPK activation in elderly T cells to the levels seen in young T cells. These results suggest that aberrancies in the MAPK activation cascade may underlie the age-related reductions of MAPK activation in human T cells stimulated via the TCR/CD3 complex.

Calcium signals and protein tyrosine kinases are required for the induction of c-jun in Jurkat cells stimulated by the T cell-receptor complex and oxidative signals.

The regulation of c-jun plays an important role in T cell activation, proliferation, and expression of interleukin-2. In the present study, we determined whether Ca2+ signals and the activity of protein tyrosine kinases (PTKs) were required for the induction of c-jun in Jurkat cells stimulated with cross-linked anti-T cell receptor/CD3 antibodies or exposed to oxidative stress in the form of micromolar concentrations of H2O2. Jurkat cells exhibited rapid elevations in intracellular calcium [Ca2+]i levels in response to H2O2 and cross-linked anti-CD3 antibodies that mainly reflected the influx of extracellular Ca2+. The Ca2+ flux in response to oxidative signals was distinguished by an exquisite sensitivity to inhibition with Ni2+, suggesting the involvement of cation channels. PTK activity was needed for [Ca2+]i elevations in response to both oxidative and anti-CD3 signals, although H2O2 induction of [Ca2+]i increases was more resistant to inhibition by genistein than anti-CD3 [Ca2+]i responses. Both oxidative signals and anti-CD3 stimulation induced increased levels of c-jun and c-fos mRNA. The increased expression of c-jun with H2O2 was preceded by [Ca2+]i increases and accompanied by activation of c-Jun aminoterminal kinases (JNKs), as well as increased AP-1 binding activity. Induction of c-jun with oxidative signals and anti-CD3 was also shown to be crucially dependent on [Ca2+]i elevations because the chelation of [Ca2+]i with BAPTA resulted in a dose-dependent inhibition of c-jun expression. Furthermore, inhibition studies demonstrated that the optimal induction of c-jun mRNA in response to oxidative signals required PTK as well as protein kinase C (PKC). Thus, these findings suggest that both [Ca2+]i signals and the activity of PTKs are essential for the optimal expression of c-jun in response to TCR/CD3 signals and changes in redox potentials.

Sublethal levels of oxidant stress stimulate multiple serine/threonine kinases and suppress protein phosphatases in Jurkat T cells.

Sublethal concentrations of reactive oxygen intermediates including H2O2 can alter human T cell function and inhibit proliferative responses but relatively little is known about the effects of low levels of oxidant stress on signaling pathways. In the present study, we investigated whether the exposure of Jurkat T cells to micromolar concentrations of H2O2 might influence the activity of certain serine/threonine kinases and protein phosphatases important for T cell signaling as well as initiation of nuclear events. Jurkat cells treated with 100-200 microM H2O2 exhibited rapid increases in cytosolic protein kinase C (PKC) activity without detectable translocation of PKC to the membrane/particulate compartment. The stimulation of PKC activity by H2O2 was associated with an increase in the activation of kinases phosphorylating myelin basic protein (MBP), a substrate for mitogen-activated protein (MAP) kinase and RRLSSLRA (S6 peptide; a substrate for the approximately 90-kDa ribosomal S6 kinases). Optimal activation of MAP kinase in cells treated with H2O2 was preceded by increases in protein tyrosine phosphorylations and occurred at sublethal concentrations of H2O2 which did not markedly deplete intracellular ATP. Pretreatment of cells with the PKC inhibitors sangivamycin and H7 suppressed but did not block the stimulation of MAP kinase activity in response to H2O2 or phytohemagglutinin. The activities of both protein tyrosine phosphatase (PTP) and protein phosphatase 2A (PP2A) were reduced after H2O2 treatment of intact cells. Furthermore, kinetic studies showed that H2O2 was capable of suppressing the activities of PTP and PP2A before inducing optimal increases in MAP kinase activity. These results demonstrate that the exposure of T cells to sublethal levels of oxidant stress acutely stimulates the MAP kinase cascade and suggest that this activation may involve PKC-dependent and -independent pathways as well as inhibition of certain protein phosphatases.

Differential expression of the alpha- and beta-isoforms of protein kinase C in peripheral blood T and B cells from young and elderly adults.

The expression of alpha- and beta-isoforms of protein kinase C (PKC) was analyzed in the peripheral blood T and B cells from 11 elderly and young humans. Immunoblot analysis with isoenzyme specific antibodies showed that T cells from five of 11 elderly subjects exhibited selective reductions in PKC alpha which was < 60% of those in young subjects whereas the levels of PKC beta were comparable to T cells of young subjects. No age-related reductions of PKC alpha or beta were observed in B cells. Among individual elderly subjects, the reductions in T cell PKC alpha were not associated with lower levels of PKC beta thereby resulting in only approximately 60-70% reductions of combined PKC alpha plus PKC beta. In addition, the functional properties of PKC in stimulated T cells of elderly subjects with respect to activation/translocation were comparable to T cells of young subjects. These results suggest that selective alterations in PKC isoenzymes can occur in human T cells during aging which may not be readily apparent in standard enzymatic assays and may contribute to aberrancies in intracellular signal transduction.

Lack of evidence for human T cell lymphotrophic virus type I or II infection in patients with systemic lupus erythematosus or rheumatoid arthritis.

OBJECTIVE: Human retroviruses including human immunodeficiency virus (HIV) and human T cell lymphotrophic virus Types I and II (HTLV-I/II) have been associated with forms of connective tissue autoimmune diseases including systemic lupus erythematosus (SLE) and rheumatoid arthritis (RA). We looked for evidence of HTLV-I/II infection in a large population of SLE, RA, and control patients. METHODS: One hundred fifteen patients with connective tissue autoimmune disease and other rheumatological disorders were screened for antibodies to HTLV-I/II by Western immunoblots (WIB). Due to the transforming characteristic of these retroviruses, the patients' peripheral blood mononuclear cells (PBMNC) were cultured in attempts to establish continuous cell lines. Furthermore, PBMNC culture supernatants were analyzed for reverse transcriptase activity and/or HTLV-I/II gag antigen production. The presence of HTLV-I/II proviral sequences in short term culture and fresh PBMNC was determined by Southern blot analysis and polymerase chain reaction (PCR), respectively. respectively. RESULTS: All 115 patients were HTLV-I/II and HIV seronegative. Seventy-four attempts to establish PBMNC cell lines from 65 patients were unsuccessful with a mean culture survival time of 3.6 (+/- 1.4) months. Reverse transcriptase activity and HTLV-I/II gag antigen production were not detected in 51 and 16 culture supernatants tested, respectively. Cells from 11 patients tested by Southern blot analysis and from 57 patients tested by PCR were negative for HTLV-I/II related sequences. CONCLUSION: Our results failed to establish an association between human retroviruses (HTLV-I/II and HIV) and SLE, RA, or other rheumatological disorders. However, these results do not rule out other exogenous or endogenous retroviruses that may play a role in the initiation and/or promotion of these diseases.

Regulation of protein kinase enzymatic activity in Jurkat T cells during oxidative stress uncoupled from protein tyrosine kinases: role of oxidative changes in protein kinase activation requirements and generation of second messengers.

Prior studies have suggested that intracellular phosphorylation events and cellular redox mechanisms may interact in regulating a variety of cellular functions, including the transcriptional activation of gene expression. Increased activity of transcriptional factors NF kappa B and AP1 has been described in cells exposed to oxidative stress and following the direct stimulation of protein kinase C (PKC) by phorbol diesters. However, the mechanisms that may contribute to redox regulation of PKC are unknown. We studied the expression of PKC activity and several second messengers in human Jurkat T cells exposed to oxidative stress in the form of H2O2. Micromolar concentrations of H2O2 rapidly induced increased cytosolic PKC enzymatic activity in Jurkat T cells that was associated with a marked arrest of cellular proliferation. The increase in cytosolic PKC activity in cells treated with H2O2 was accompanied by elevations in intracellular free calcium ([Ca2+]i), generation of inositol phosphates, and release of arachidonic acid. Functional studies showed that H2O2 enhancement of cytosolic PKC activity required phospholipase C activity but was not primarily mediated by arachidonic acid. The response of PKC to oxidative stress displayed a lack of Ca2+ dependence and was uncoupled from the activity of protein tyrosine kinases (PTK). Furthermore, the reduced activation requirements of PKC from cells treated with H2O2 were associated with shifts in elution profiles of PKC enzymatic activity after Mono-Q chromatography. These shifts appeared to represent intrinsic changes in the conformation of PKC induced by oxidative stress because western blotting failed to reveal any PKC cleavage products or reductions in native PKC alpha or beta. These findings indicate that oxidative regulation of intracellular events can intersect phosphorylation events mediated by PKC through the release of second messengers as well as direct changes in PKC activation requirements. Moreover, redox regulation of PKC is distinct from T cell receptor signaling in that the activity of PKC is uncoupled from the regulatory influences of PTK.

Reduced activation of transcriptional factor AP-1 among peripheral blood T cells from elderly humans after PHA stimulation: restorative effect of phorbol diesters.

In the present study, we evaluated if aging influences the activation and characteristics of transcriptional factor AP-1 in human T cells. Using gel mobility shift assays, the activation of AP-1 was quantified in peripheral blood T cells from 11 elderly (mean 74 year) and young (mean 33 year) subjects following stimulation with PHA, PMA, or PHA plus PMA. The results showed that the activation of AP-1 was significantly reduced in PHA-stimulated T cells from the group of elderly subjects when compared to T cells from young subjects (P < 0.05). Even though PHA-stimulated T cells from 8 of the elderly subjects had pronounced impairments in the activation of AP-1, additional signals provided by costimulation with PMA frequently restored AP-1 activation to more normal levels. Other experiments demonstrated that the AP-1 complexes expressed by stimulated T cells of elderly and young subjects exhibited similar properties in gel shift assays with competing unlabeled AP-1 oligonucleotides and with blocking antibodies specific for Fos and Jun. Thus, these data suggest that the activation of AP-1 can be reduced in human T cells during aging and that these reductions may often be related to impairments in signal transduction rather than represent an absolute loss in the ability to express AP-1.