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OBJECTIVE: Whether anticytokine therapies have a place in the treatment of severe sepsis and septic shock remains a question. Although a number of preclinical studies have shown efficacy in primate models of bacteremic shock when administered prophylactically, these same therapies have a significantly diminished effectiveness when administered therapeutically. This study investigated whether delayed administration of a novel anti-human interferon-gamma monoclonal antibody could improve outcome and reduce organ injury in a lethal model of Escherichia coli bacteremia, when administered after the onset of shock. DESIGN: Randomized, prospective, double-blinded intervention study. SUBJECTS: Cynomolgus monkeys. INTERVENTIONS: Treatment with a humanized monoclonal antibody directed against human interferon-gamma (INNO 202), administered after the onset of shock, induced by the infusion of live E. coli. MEASUREMENTS AND MAIN RESULTS: Five of the six vehicle-treated monkeys died or were killed within 24-72 hrs after E. coli administration, and all died within 5 days. In contrast, six of the eight animals treated with the anti-interferon-gamma survived for 7 days, and three of the eight animals survived 14 days (p = .013 vs. vehicle). Delayed treatment with the anti-interferon-gamma monoclonal antibody did not restore hemodynamics or reduce the amount of crystalloid-containing fluid required to resuscitate the animals but did attenuate renal failure (p < .05) and the magnitude of the inflammatory cytokine response (p < .05). CONCLUSIONS: In a primate model of E. coli bacteremic shock, delayed neutralization of interferon-gamma after the onset of shock improved survival and attenuated the pathologic changes associated with the development of organ dysfunction. These findings suggest that interferon-gamma blockade represents a potentially effective mode of late intervention in lethal septic shock.

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The molecular mechanisms of immune cell apoptosis during sepsis remain unclear. Two young adult baboons (Papio sp.) received a lethal dose of live Escherichia coli and were sacrificed at either 16 (for animal welfare concerns) or 24 h post-septic shock. An additional baboon, which received no bacteria, served as a control. Necropsy was performed immediately with subsequent immunohistochemical staining of lymphoid tissue. Immunohistologic analysis of tissues from the septic baboons revealed marked systemic lymphocyte apoptosis occurring in all lymphoid tissues examined. Focally, pyknotic and karyorrhectic lymphocytes demonstrated activation of a mitochondrial-dependent cell death pathway (active caspase 9 and apoptosis-inducing factor). Other regions demonstrated apoptotic lymphocytes with activation of a death receptor-dependent cell pathway (Fas ligand). Thus, we have demonstrated for the first time in primates that overwhelming gram-negative bacteremia produces an early and profound lymphocyte death that occurs through multiple cell death pathways. Bacteremic shock in the baboon may be an appropriate model for studying experimental therapies aimed at blocking lymphocyte apoptosis because their response appears comparable to humans dying from sepsis.

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BACKGROUND: Co-stimulation blockade has already been shown to induce transplantation tolerance in rodents, but until now has failed in large animal models. We therefore sought to investigate whether the addition of rapamycin to a co-stimulation blockade regimen could induce tolerance in baboon recipients of a renal allograft and to characterize the immunological characteristics of rejection. METHODS: Two baboons were used for a pharmacological and toxicological analysis and received anti-B7.1 and anti-B7 antibodies every other day for 60 days. Three groups of baboons underwent classical heterotopic renal allotransplantation; the first group received no treatment (control group; n = 2), the second received a combination of anti-CD80 and anti-CD86 monoclonal antibodies (mAbs) (B7 group; n = 4), and the third received the anti-B7 antibody treatment as above with an additional treatment of rapamycin (B7-Rapa; n = 4). Graft survival as well as immunological analyses were performed. RESULTS: Anti-B7 mAb monotherapy prolonged allograft survival in three out of four of the animals, one of whom survived rejection free for 87 days but died from a pulmonary embolism; the fourth animal died without rejection. The addition of rapamycin to the regimen did not prolong survival further; three of the four animals underwent early rejection whereas the fourth survived long term but eventually rejected at day 114. Whereas alloimmunization only occurred in this latter animal, rejection was always characterized by a substantial lymphocyte and monocyte infiltration, associated with a strong pro-inflammatory/cytotoxic mRNA accumulation in the anti-B7-treated animals, but to a lesser extent in the B7-Rapa group. T cells extracted and cloned from a biopsy taken at a stable post-transplant time showed a lower frequency of anti-donor alloreactivity in vitro than those extracted from a rejected tissue. Nevertheless, these non-responding clones failed to show regulatory activity in vitro. CONCLUSIONS: We thus confirm that blocking the CD28/B7 pathway by anti-B7 mAbs could prolong graft survival in baboons, but the addition of rapamycin was insufficient to induce tolerance.

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The selection of possible candidate immunosuppressive antibodies to prevent graft rejection is performed in vitro. Additionally, due to the species specificity of these monoclonal antibodies (MABs), pre-clinical studies in non-human primates are necessary. If a positive correlation between the in vitro and in vivo findings would exist, these tests can act as a pre-screening before new reagents are tested in vivo. The correlation of the in vitro and in vivo efficacy of an anti-T-lymphocyte globulin (ATG) and an anti-CD80 MAB is evaluated in a rhesus monkey skin transplant model. The results show that lymphocytotoxic titers (NIH-test) do not predict the outcome of in vivo effectiveness of ATG in rhesus monkeys. Additionally, no evidence of tolerance to a skin allograft could be shown to correlate with inhibition of a secondary mixed lymphocyte culture (MLC) by anti-CD80 and cyclosporin A (CsA). Thus, these in vitro assay used can not predict the in vivo efficacy of new immunosuppressive antibodies.