Apoptosis is a hallmark event observed upon infection with many viral pathogens, including in¯uenza A virus. The apoptotic process is executed by a proteolytic system consisting of a family of cysteinyl proteases, termed caspases. Since the consequences of apoptosis induction and caspase activation for the outcome of an in¯uenza virus infection are not clear, we have addressed this issue by interfering with expression or function of a major virus-induced apoptosis effector, caspase 3. Surprisingly, in¯uenza virus propagation was strongly impaired in the presence of an inhibitor that blocks caspase 3 and in cells where caspase 3 was partially knocked down by small interfering RNAs. Consistent with these ®ndings, poor replication ef®-ciencies of in¯uenza A viruses in cells de®cient for caspase 3 could be boosted 30-fold by ectopic expression of the protein. Mechanistically, the block in virus propagation appeared to be due to retention of the viral RNP complexes in the nucleus, preventing formation of progeny virus particles. Our ®ndings indicate that caspase 3 activation during the onset of apoptosis is a crucial event for ef®cient in¯uenza virus propagation.
T cells bearing γδ T cell antigen receptors (TCRs) function in lymphoid stress surveillance. However, the contribution of γδ TCRs to such responses is unclear. Here we found that the TCR of a human V(γ)4V(δ)5 clone directly bound endothelial protein C receptor (EPCR), which allowed γδ T cells to recognize both endothelial cells targeted by cytomegalovirus and epithelial tumors. EPCR is a major histocompatibility complex-like molecule that binds lipids analogously to the antigen-presenting molecule CD1d. However, the V(γ)4V(δ)5 TCR bound EPCR independently of lipids, in an antibody-like way. Moreover, the recognition of target cells by γδ T cells required a multimolecular stress signature composed of EPCR and costimulatory ligand(s). Our results demonstrate how a γδ TCR mediates recognition of broadly stressed human cells by engaging a stress-regulated self antigen.
Acetylsalicylic acid (ASA) blocks influenza virus propagation via its NF-?B-inhibiting activity
SummaryInfluenza is still one of the major plagues worldwide. The statistical likeliness of a new pandemic outbreak highlights the urgent need for new and amply available antiviral drugs. We and others have shown that influenza virus misuses the cellular IKK/NF-kB signalling pathway for efficient replication suggesting that this module may be a suitable target for antiviral intervention. Here we examined acetylsalicylic acid (ASA), also known as aspirin, a widely used drug with a well-known capacity to inhibit NF-kB. We show that the drug efficiently blocks influenza virus replication in vitro and in vivo in a mechanism involving impaired expression of proapoptotic factors, subsequent inhibition of caspase activation as well as block of caspase-mediated nuclear export of viral ribonucleoproteins. As ASA showed no toxic side-effects or the tendency to induce resistant virus variants, existing salicylate-based aerosolic drugs may be suitable as anti-influenza agents. This is the first demonstration that specific targeting of a cellular factor is a suitable approach for anti-influenza virus intervention.
Neonates harbour highly active γδ T cells with selective impairments in preterm infants
Acknowledgement of the breadth of T-cell pleiotropy has provoked increasing interest in the degree to which functional responsiveness is elicited by environmental cues versus differentiation. This is particularly relevant for young animals requiring rapid responses to acute environmental exposure. In young mice, cd T cells are disproportionately important for immuno-protection. To examine the situation in humans, we compared populations and clones of T cells from term and preterm babies, and adults. By comparison with ab T cells, neonate-derived cd cells show stronger, pleiotropic functional responsiveness, and lack signatory deficits in IFN-c production. Emphasising the acquisition of functional competence in utero, IFN-c was produced by cd cells sampled from premature births, and, although one month's post-partum environmental exposure invariably increased their TNF-a production, it had no consistent effect on IFN-c or IL-2. In sum, cd cells seem well positioned at birth to contribute to immuno-protection and immuno-regulation, possibly compensating for selective immaturity in the ab compartment. With regard to the susceptibilities of preterm babies to viral infection, cd cells from preterm neonates were commonly impaired in Toll-like receptor-3 and -7 expression and compared with cells from term babies failed to optimise cytokine production in response to coincident TCR and TLR agonists. Key words: Neonate immunity . gd T cells . Toll-like receptors Supporting Information available online IntroductionAfter the protected intra-uterine environment, birth exposes the newborn mammal to precipitous encounter with antigens. Although several groups have concluded that lymphocytes from young animals can, under optimal conditions, successfully mount robust immune responses [1][2][3], it is also clear de facto that immune responses in children and young animals are sub-optimal and that neonates and infants are more vulnerable to infections, and respond less well to most vaccines than do older children or adults [4][5][6]. While different studies primarily attribute the problem to intrinsic defects in à These authors contributed equally to this work. 1794T cells or APC, respectively, it is likely that both are impaired in vivo [7].One particularly striking deficit reported in neonatal ab T cells is in IFN-g production, which underpins Th1 responses to intracellular parasites, bacteria and certain viruses. Such defects in conventional T-cell responses have fuelled the hypothesis that gd T cells, that are relatively rare in the blood and lymphoid circulation of adults, may contribute disproportionately to immune function in the young. Supporting this, weanling gd cell-deficient (TCR-d À/À ) mice, relative to wild-type counterparts, show a delayed acquisition of immune resistance to the natural gut pathogen, Eimeria vermiformis ([8] and our unpublished data). There is a similar susceptibility of young TCR-d À/À mice to infection by Cryptosporidium [9]. Provocatively, very early T-cell development is disproportionately di...
In cellular immunology the critical balance between effector and regulatory mechanisms is highlighted by serious immunopathologies attributable to mutations in Foxp3, a transcription factor required for a major subset of regulatory T (Tr) cells. Thus, many studies have focused on the developmental origin of Tr cells, with the prevailing view that they emerge in the thymus from late-stage T-cell progenitors whose T-cell receptors (TCRs) engage high affinity (agonist) ligands. This study questions the completeness of that interpretation. Here we show that without any obvious effect on TCR-mediated selection, the normal differentiation of mouse gammabeta T cells into potent cytolytic and interferon-gamma-secreting effector cells is switched towards an aggregate regulatory phenotype by limiting the capacity of CD4+CD8+ T-cell progenitors to influence in trans early gammabeta cell progenitors. Unexpectedly, we found that the propensity of early TCR-alphabeta+ progenitors to differentiate into Foxp3+ Tr cells is also regulated in trans by CD4+CD8+ T-cell progenitor cells, before agonist selection.
Ssu72 is an essential and highly conserved protein involved in mRNA transcription and 3-end processing. The biochemical function of Ssu72 was so far unknown. We report here evidence that Ssu72 is a phosphatase that resembles protein tyrosine phosphatases (PTPases). First, recombinant Ssu72 cleaves the phosphotyrosine analogue p-nitrophenylphosphate, and this catalytic activity is impaired by PTPase-inhibiting agents. Second, the Ssu72 sequence contains the CX 5 R signature motif of PTPases; mutation of the catalytic cysteine in this motif abolishes Ssu72 activity in vitro and has been shown to confer lethality in vivo. Third, secondary structure prediction and site-directed mutagenesis predict that Ssu72 adopts the fold of PTPases of the low molecular weight family. Distinguishing features, such as a short "aspartate loop" at the active site, suggest however that Ssu72 is the founding member of a new phosphatase subfamily. The novel Ssu72 activity may regulate coupling events during mRNA biogenesis.
Potent costimulation of human CD8 T cells by anti-4-1BB and anti-CD28 on synthetic artificial antigen presenting cells
The in vitro generation of cytotoxic T lymphocytes (CTLs) for anticancer immunotherapy is a promising approach to take patient-specific therapy from the bench to the bedside. Two criteria must be met by protocols for the expansion of CTLs: high yield of functional cells and suitability for good manufacturing practice (GMP). The antigen presenting cells (APCs) used to expand the CTLs are the key to achieving both targets but they pose a challenge: Unspecific stimulation is not feasible because only memory T cells are expanded and not rare naïve CTL precursors; in addition, antigen-specific stimulation by cell-based APCs is cumbersome and problematic in a clinical setting. However, synthetic artificial APCs which can be loaded reproducibly with MHC-peptide monomers and antibodies specific for costimulatory molecules could resolve these problems. The purpose of this study was to investigate the potential of complex synthetic artificial APCs in triggering the costimulatory molecules CD28 and 4-1BB on the T cell. Anti-4-1BB antibodies were added to an established system of microbeads coated with MHC-peptide monomers and anti-CD28. Triggering via CD28 and 4-1BB resulted in strong costimulatory synergy. The quantitative ratio between these signals determined the outcome of the stimulation with optimal results when anti-4-1BB and anti-CD28 were applied in a 3:1 ratio. Functional CTLs of an effector memory subtype (CD45RA(-) CCR7(-)) were generated in high numbers. We present a highly defined APC platform using off-the-shelf reagents for the convenient generation of large numbers of antigen-specific CTLs.
Molecular Analysis of Tumor-Promoting CD8+ T Cells in Two-Stage Cutaneous Chemical Carcinogenesis
T-pro are tumor-infiltrating TCRαβ+CD8+ cells of reduced cytotoxic potential that promote experimental two-stage chemical cutaneous carcinogenesis. Toward understanding their mechanism of action, this study uses whole-genome expression analysis to compare T-pro with systemic CD8+ T cells from multiple groups of tumor-bearing mice. T-pro show an overt T helper 17–like profile (high retinoic acid–related orphan receptor-(ROR)γt, IL-17A, IL-17F; low T-bet and eomesodermin), regulatory potential (high FoxP3, IL-10, Tim-3), and transcripts encoding epithelial growth factors (amphiregulin, Gro-1, Gro-2). Tricolor flow cytometry subsequently confirmed the presence of TCRβ+ CD8+ IL-17+ T cells among tumor-infiltrating lymphocytes (TILs). Moreover, a time-course analysis of independent TIL isolates from papillomas versus carcinomas exposed a clear association of the “T-pro phenotype” with malignant progression. This molecular characterization of T-pro builds a foundation for elucidating the contributions of inflammation to cutaneous carcinogenesis, and may provide useful biomarkers for cancer immunotherapy in which the widely advocated use of tumor-specific CD8+ cytolytic T cells should perhaps accommodate the cells’ potential corruption toward the T-pro phenotype. The data are also likely germane to psoriasis, in which the epidermis may be infiltrated by CD8+ IL-17-producing T cells.
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