在PD-1基因敲除的新生小鼠中,盲肠灌洗诱导脓毒症后生存率提高。
Improved survival after induction of sepsis by cecal slurry in PD-1 knockout murine neonates.
作者信息
Young Whitney A, Fallon Eleanor A, Heffernan Daithi S, Efron Philip A, Cioffi William G, Ayala Alfred
机构信息
Division of Surgical Research, Department of Surgery, Brown University, Rhode Island Hospital, Providence, RI.
Laboratory of Inflammation Biology and Surgical Science, Departments of Surgery, Anesthesia, Aging, and Geriatric Research, and Molecular Genetics and Microbiology, University of Florida College of Medicine, Gainesville, FL.
出版信息
Surgery. 2017 May;161(5):1387-1393. doi: 10.1016/j.surg.2016.11.008. Epub 2016 Dec 21.
BACKGROUND
Sepsis and the ensuing immune dysfunction continue to be major contributors to neonatal morbidity and mortality. Neonatal sepsis also is associated with profound immune dysfunction. We have recently identified a role for a family of coinhibitory molecules that are altered in murine sepsis and in critically ill adult patients, which may be a target for development of novel therapies. There is, however, a paucity of data pertaining to the role of coinhibitory checkpoint proteins in the control and modulation of neonatal sepsis.
METHODS
The cecal slurry model consists of harvesting the cecal content of an adult, wild-type, male mouse and combining it with 5% dextrose to create a cecal slurry with a concentration of 80 mg/mL (LD at 7 days). Neonatal mice (5-7 days of age) underwent intraperitoneal injection of the cecal slurry or 0.9% saline for the sham procedure. Wild-type (C57BL/6) or PD-1 mice were used; a 7-day survival study was undertaken. Cytometric bead array was used for cytokine expression. Blood and peritoneal fluid was cultured for bacterial burden. Flow cytometry was used to assess the peritoneal cavity cell populations.
RESULTS
There was no mortality after the sham procedure in either wild-type or PD-1 pups. PD-1 markedly affected sepsis survival with significantly improved survival in the PD-1 pups (40% vs 80%; P < .01). This survival improvement was not associated with any difference in bacterial clearance. The bacterial burden was equivalent between wild-type and PD-1 pups at 24 hours after cecal slurry. However, PD-1 pups did display an increased circulating cytokine response to the cecal slurry compared with wild type, with increased expression of IL-6, IL-10, and TNF-α levels. Within the peritoneal cavity, sepsis induced an influx of neutrophils, a finding that was increased in PD-1 pups. Although the T-cell response was unaffected by PD-1, it was noted that cecal slurry induced a loss of peritoneal B cells in WT, while the peritoneal B-cell population was preserved in PD-1 pups.
CONCLUSION
Our data suggest that the checkpoint protein, PD-1, plays an important role in controlling the immune response to sepsis in the neonate, ultimately affecting sepsis-related mortality in this neonatal murine model of sepsis. Akin to adult studies, these data further emphasize the potential therapeutic target for PD-1 across a spectrum of septic patients.
背景
脓毒症及其引发的免疫功能障碍仍然是新生儿发病和死亡的主要原因。新生儿脓毒症还与严重的免疫功能障碍有关。我们最近发现了一类共抑制分子在小鼠脓毒症和重症成年患者中发生改变,它们可能是新型疗法开发的靶点。然而,关于共抑制检查点蛋白在新生儿脓毒症的控制和调节中的作用的数据却很少。
方法
盲肠灌洗液模型包括收集成年野生型雄性小鼠的盲肠内容物,并将其与5%葡萄糖混合,制成浓度为80mg/mL的盲肠灌洗液(7天的半数致死剂量)。对新生小鼠(5 - 7日龄)进行腹腔注射盲肠灌洗液或0.9%生理盐水作为假手术对照。使用野生型(C57BL/6)或PD - 1基因敲除小鼠;进行为期7天的生存研究。采用细胞因子微球阵列检测细胞因子表达。对血液和腹腔液进行细菌负荷培养。使用流式细胞术评估腹腔细胞群体。
结果
野生型或PD - 1基因敲除幼鼠在假手术后均无死亡。PD - 1显著影响脓毒症的生存率,PD - 1基因敲除幼鼠的生存率显著提高(40%对80%;P < 0.01)。这种生存率的提高与细菌清除率的差异无关。在盲肠灌洗24小时后,野生型和PD - 1基因敲除幼鼠的细菌负荷相当。然而,与野生型相比,PD - 1基因敲除幼鼠对盲肠灌洗液的循环细胞因子反应增强,IL - 6、IL - 10和TNF - α水平表达增加。在腹腔内,脓毒症诱导中性粒细胞流入,这一现象在PD - 1基因敲除幼鼠中更为明显。虽然T细胞反应不受PD - 1影响,但值得注意的是盲肠灌洗液诱导野生型小鼠腹腔B细胞减少,而PD - 1基因敲除幼鼠的腹腔B细胞群体得以保留。
结论
我们的数据表明,检查点蛋白PD - 1在控制新生儿对脓毒症的免疫反应中起重要作用,最终影响了这种新生儿脓毒症小鼠模型中与脓毒症相关的死亡率。与成人研究类似,这些数据进一步强调了PD - 1作为脓毒症患者潜在治疗靶点的可能性。
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