Valentine Catherine H, Hellman Judith, Beasley-Topliffe Laura K, Bagchi Aranya, Warren H Shaw
Department of Medicine, Massachusetts General Hospital and Harvard Medical School, Boston, Massachusetts, USA.
Mol Med. 2006 Sep-Oct;12(9-10):252-8. doi: 10.2119/2006–00065.Valentine.
Multiple older studies report that immunoglobulin directed to rough mutant bacteria, such as E. coli J5, provides broad protection against challenge with heterologous strains of Gram-negative bacteria. This protection was initially believed to occur through binding of immunoglobulin to bacterial lipopolysaccharide (LPS). However, hundreds of millions of dollars have been invested in attempting to develop clinically-effective anti-LPS monoclonal antibodies without success, and no study has shown that IgG from this antiserum binds LPS. Identification of the protective mechanism would facilitate development of broadly protective human monoclonal antibodies for treating sepsis. IgG from this antiserum binds 2 bacterial outer membrane proteins: murein lipoprotein (MLP) and peptidoglycan-associated lipoprotein (PAL). Both of these outer membrane proteins are highly conserved, have lipid domains that are anchored in the bacterial membrane, are shed from bacteria in blebs together with LPS, and activate cells through Toll-like receptor 2. Our goal in the current work was to determine if passive immunization directed to MLP and PAL protects mice from Gram-negative sepsis. Neither monoclonal nor polyclonal IgG directed to MLP or PAL conferred survival protection in 3 different models of sepsis: cecal ligation and puncture, an infected burn model, and an infected fibrin clot model mimicking peritonitis. Our results are not supportive of the hypothesis that either anti-MLP or anti-PAL IgG are the protective antibodies in the previously described anti-rough mutant bacterial antisera. These studies suggest that a different mechanism of protection is involved.
多项早期研究报告称,针对粗糙突变菌(如大肠杆菌J5)的免疫球蛋白能为抵御革兰氏阴性菌异源菌株的攻击提供广泛保护。这种保护作用最初被认为是通过免疫球蛋白与细菌脂多糖(LPS)结合而发生的。然而,数亿美元已投入到试图开发临床有效的抗LPS单克隆抗体中,但均未成功,且没有研究表明该抗血清中的IgG能结合LPS。确定保护机制将有助于开发用于治疗败血症的具有广泛保护作用的人源单克隆抗体。该抗血清中的IgG能结合两种细菌外膜蛋白:胞壁质脂蛋白(MLP)和肽聚糖相关脂蛋白(PAL)。这两种外膜蛋白都高度保守,具有锚定在细菌膜中的脂质结构域,与LPS一起以小泡形式从细菌上脱落,并通过Toll样受体2激活细胞。我们当前工作的目标是确定针对MLP和PAL的被动免疫是否能保护小鼠免受革兰氏阴性菌败血症的侵害。在三种不同的败血症模型中:盲肠结扎和穿刺、感染烧伤模型以及模拟腹膜炎的感染纤维蛋白凝块模型,针对MLP或PAL的单克隆或多克隆IgG均未赋予生存保护作用。我们的结果不支持抗MLP或抗PAL IgG是先前描述的抗粗糙突变菌抗血清中的保护性抗体这一假设。这些研究表明涉及一种不同的保护机制。