Neutrophil migration into the peritoneum is P-selectin dependent, but sequestration in lungs is selectin independent during peritonitis.

Neutrophil (PMN) influx into the peritoneal cavity in response to bacterial peritonitis is an indispensable aspect of host defense. PMNs also are responsible for the remote organ injury observed after major abdominal infection. The aim of this study was to examine the effect of selectin blockade on PMN migration into the peritoneum and on PMN sequestration in the lungs, early in the course of peritonitis. Cecal ligation and puncture (CLP) was performed on P-selectin-deficient (P-def) mice and their genetic controls (C57). Both groups were treated with anti-E-selectin antibody, anti-L-selectin, or isotypic control immunoglobulin G at the time of CLP. 6 h after CLP, mice were sacrificed. Peritoneal PMN migration decreased in P-def mice compared with C57 controls after CLP. Blockade of E- or L-selectin alone in controls did not alter peritoneal PMN influx or circulating PMNs after CLP. In the P-def mice, treatment with anti-E-antibody or anti-L-antibody nearly eliminated PMN influx into the peritoneum. In contrast, circulating PMNs markedly increased after CLP in P-def mice when compared with baseline values. Lung myeloperoxidase increased in all groups of mice following CLP. Blockade of P-selectin with anti-P-selectin antibody elicited a response similar to that observed in the P-def mice. In conclusion, P-selectin mediates PMN influx into the peritoneal cavity, while E- and L-selectins do not appear to play any significant role in the 6 h time period following CLP. Lung PMN sequestration, after CLP, occurred independent of P-, E-, or L-selectin expression. Blockade of P-selectin during peritonitis appears to be potentially deleterious by preventing early PMN influx into the compartment containing the septic focus.

The pulmonary inflammatory response to experimental fecal peritonitis: relative roles of tumor necrosis factor-alpha and endotoxin.

The roles of endotoxin (LPS) and tumor necrosis factor-alpha (TNF-alpha) in the causation of organ injury during sepsis are unclear. To study LPS and TNF-alpha in the genesis of lung inflammation after cecal ligation and puncture (CLP), we used endotoxin-resistant (C3H/HeJ) and endotoxin-sensitive mice (C3H/HeOuJ). We examined lung neutrophil sequestration, interleukin 1 (IL-1)beta mRNA expression, IL-1 beta protein expression, and injury. We also determined the expression of two C-X-C chemokine mRNAs, macrophage inflammatory protein-2 (MIP-2) and KC, in the lung to determine whether in vivo, endotoxin, or TNF-alpha are significant modulators of MIP-2 and KC mRNA expression. After CLP, increased neutrophils sequestrated in the lungs of both strains of mice and coincided with an increase in expression of IL-1 beta, MIP-2 and KC mRNAs, and IL-1 beta protein. Lung and serum TNF-alpha were significantly increased in the C3H/HeOuJ strain but not in the C3H/HeJ strain. Histologic studies of the lung revealed similar injury in both strains. Our results suggest that bacterial factors other than endotoxin cause lung neutrophil sequestration and injury after CLP and, further, that TNF-alpha production is not a prerequisite. Our findings also suggest a potential role for local pulmonary chemokine production in the control of neutrophil sequestration after CLP.

Poor outcome from peritonitis is caused by disease acuity and organ failure, not recurrent peritoneal infection.

OBJECTIVE: The purpose of the study is to determine whether organ failure develops in patients despite control of peritoneal infection and whether the process is, in part, neutrophil (polymorphonuclear leukocyte [PMN]) mediated. SUMMARY BACKGROUND DATA: Peritonitis generally responds to prompt surgical intervention and systemic antibiotics; however, some patients continue a septic course and progress to organ failure and death. METHODS: One hundred five consecutive patients with peritonitis between 1988 and 1996 who required operation and a postoperative hospital stay greater than 10 days were studied. Mice were injected with a monoclonal anti-PMN antibody 24 hours before cecal ligation and puncture (CLP) to deplete PMNs. RESULTS: Thirty-eight patients died, and all but 1 had identified organ failure. Seventy-seven patients had either pulmonary failure alone (25 patients) or as a component of multisystem organ failure (52 patients). All but one of these patients showed resolution of their intraperitoneal infection as evident by clinical course, abdominal computed tomographic scan, second-look laparotomy, or autopsy. Recurrent intra-abdominal infection developed in 15 patients, but only 1 had organ failure, and 2 died. At 18 hours after CLP, lung injury, PMN content, interleukin-1 mRNA expression, and liver injury were significantly reduced by anti-PMN treatment, whereas serum endotoxin levels actually increased. CONCLUSIONS: Disease acuity and organ failure, and not recurrent peritoneal infection, are the major causes of adverse outcome in patients with peritonitis. The authors' experimental data indicate that such organ injury is, in part, PMN mediated but not endotoxin mediated. Attraction of PMNs toward the site of primary infection, and thereby away from remote organs, is a logical future therapeutic approach in such patients who are critically ill with peritonitis.