Tkaczyk C, Hamilton M M, Sadowska A, Shi Y, Chang C S, Chowdhury P, Buonapane R, Xiao X, Warrener P, Mediavilla J, Kreiswirth B, Suzich J, Stover C K, Sellman B R
MedImmune, a member of the AstraZeneca Group, Gaithersburg, Maryland, USA.
Public Health Research Institute, New Jersey Medical School, Rutgers University, Newark, New Jersey, USA.
mBio. 2016 Jun 28;7(3):e00528-16. doi: 10.1128/mBio.00528-16.
Staphylococcus aureus produces numerous virulence factors, each contributing different mechanisms to bacterial pathogenesis in a spectrum of diseases. Alpha toxin (AT), a cytolytic pore-forming toxin, plays a key role in skin and soft tissue infections and pneumonia, and a human anti-AT monoclonal antibody (MAb), MEDI4893*, has been shown to reduce disease severity in dermonecrosis and pneumonia infection models. However, interstrain diversity and the complex pathogenesis of S. aureus bloodstream infections suggests that MEDI4893* alone may not provide adequate protection against S. aureus sepsis. Clumping factor A (ClfA), a fibrinogen binding protein, is an important virulence factor facilitating S. aureus bloodstream infections. Herein, we report on the identification of a high-affinity anti-ClfA MAb, 11H10, that inhibits ClfA binding to fibrinogen, prevents bacterial agglutination in human plasma, and promotes opsonophagocytic bacterial killing (OPK). 11H10 prophylaxis reduced disease severity in a mouse bacteremia model and was dependent on Fc effector function and OPK. Additionally, prophylaxis with 11H10 in combination with MEDI4893* provided enhanced strain coverage in this model and increased survival compared to that obtained with the individual MAbs. The MAb combination also reduced disease severity in murine dermonecrosis and pneumonia models, with activity similar to that of MEDI4893* alone. These results indicate that an MAb combination targeting multiple virulence factors provides benefit over a single MAb neutralizing one virulence mechanism by providing improved efficacy, broader strain coverage, and protection against multiple infection pathologies.
Alternative strategies to broad-spectrum antibiotics are required to combat the antibiotic resistance epidemic. Previous attempts at active or passive immunization against Staphylococcus aureus targeting single antigens have failed in clinical trials despite positive preclinical data. To provide broad disease and isolate coverage, an effective immunization strategy likely must target multiple virulence mechanisms of the pathogen. Herein, we tested a multimechanistic MAb combination targeting alpha toxin (AT) and clumping factor A (ClfA) that neutralizes AT-mediated cytotoxicity, blocks fibrinogen binding by ClfA, prevents bacterial agglutination, targets the bacteria for opsonophagocytic killing, and provides broad isolate coverage in a lethal-bacteremia model. Although each MAb alone was effective in bacteremia against some individual isolates, the MAb combination provided improved protection against other isolates. These results illustrate the importance of targeting multiple virulence mechanisms and highlight the potential for an MAb combination targeting AT and ClfA to effectively prevent S. aureus disease.
金黄色葡萄球菌产生多种毒力因子,每种毒力因子在一系列疾病的细菌发病机制中发挥不同作用。α毒素(AT)是一种溶细胞性成孔毒素,在皮肤和软组织感染及肺炎中起关键作用,并且一种人抗AT单克隆抗体(MAb)MEDI4893已被证明可降低皮肤坏死和肺炎感染模型中的疾病严重程度。然而,金黄色葡萄球菌血流感染的菌株间多样性和复杂发病机制表明,单独使用MEDI4893可能无法为金黄色葡萄球菌败血症提供充分保护。凝聚因子A(ClfA)是一种纤维蛋白原结合蛋白,是促进金黄色葡萄球菌血流感染的重要毒力因子。在此,我们报告了一种高亲和力抗ClfA单克隆抗体11H10的鉴定,该抗体可抑制ClfA与纤维蛋白原的结合,防止细菌在人血浆中凝集,并促进调理吞噬性细菌杀伤(OPK)。11H10预防性给药可降低小鼠菌血症模型中的疾病严重程度,且依赖于Fc效应功能和OPK。此外,在该模型中,11H10与MEDI4893联合预防性给药提供了更高的菌株覆盖率,与单独使用单克隆抗体相比,提高了生存率。该单克隆抗体组合还降低了小鼠皮肤坏死和肺炎模型中的疾病严重程度,其活性与单独使用MEDI4893相似。这些结果表明,靶向多种毒力因子的单克隆抗体组合通过提高疗效、扩大菌株覆盖率和预防多种感染病理,比中和一种毒力机制的单一单克隆抗体更具优势。
需要替代广谱抗生素的策略来应对抗生素耐药性流行。尽管临床前数据呈阳性,但此前针对金黄色葡萄球菌的单一抗原进行主动或被动免疫的尝试在临床试验中均告失败。为了提供广泛的疾病和菌株覆盖,有效的免疫策略可能必须针对病原体的多种毒力机制。在此,我们测试了一种靶向α毒素(AT)和凝聚因子A(ClfA)的多机制单克隆抗体组合,该组合可中和AT介导的细胞毒性,阻断ClfA与纤维蛋白原的结合,防止细菌凝集,靶向细菌进行调理吞噬杀伤,并在致死性菌血症模型中提供广泛的菌株覆盖。尽管每种单克隆抗体单独在菌血症中对某些个体菌株有效,但单克隆抗体组合对其他菌株提供了更好的保护。这些结果说明了靶向多种毒力机制的重要性,并突出了靶向AT和ClfA的单克隆抗体组合有效预防金黄色葡萄球菌疾病的潜力。
