Kelkar Natasha S, Goldberg Benjamin S, Dufloo Jérémy, Bruel Timothée, Schwartz Olivier, Hessell Ann J, Ackerman Margaret E
Department of Microbiology and Immunology, Geisel School of Medicine at Dartmouth, Dartmouth College, Hanover, New Hampshire, USA.
Thayer School of Engineering, Dartmouth College, Hanover, New Hampshire, USA.
mBio. 2024 Mar 13;15(3):e0028224. doi: 10.1128/mbio.00282-24. Epub 2024 Feb 22.
The complement system can be viewed as a "moderator" of innate immunity, "instructor" of humoral immunity, and "regulator" of adaptive immunity. While sex is known to affect humoral and cellular immune systems, its impact on complement in humans and rhesus macaques, a commonly used non-human primate model system, has not been well studied. To address this knowledge gap, we analyzed serum samples from 90 humans and 72 rhesus macaques for the abundance and activity of the complement system components. While sequences of cascade proteins were highly conserved, dramatically different levels were observed between species. Whereas the low levels detected in rhesus samples raised questions about the suitability of the test for use with macaque samples, differences in levels of complement proteins were observed in male and female humans. Levels of total and antibody-dependent deposition of C1q and C3b on a glycosylated antigen differed between humans and rhesus, suggesting differential recognition of glycans and balance between classical and alternative activation pathways. Functional differences in complement-mediated lysis of antibody-sensitized cells were observed in multiple assays and showed that human females frequently exhibited higher lytic activity than human males or rhesus macaques, which typically did not exhibit such sex-associated differences. Other differences between species and sexes were observed in more narrow contexts-for only certain antibodies, antigens, or assays. Collectively, these results expand knowledge of sex-associated differences in the complement system in humans, identifying differences absent from rhesus macaques.IMPORTANCEThe complement system is a critical part of host defense to many bacterial, fungal, and viral infections. In parallel, rich epidemiological, clinical, and biomedical research evidence demonstrates that sex is an important biological variable in immunity, and many sex-specific differences in immune system are intimately tied with disease outcomes. This study focuses on the intersection of these two factors to define the impact of sex on complement pathway components and activities. This work expands our knowledge of sex-associated differences in the complement system in humans and also identifies the differences that appear to be absent in rhesus macaques, a popular non-human primate model. Whereas differences between species suggest potential limitations in the ability of macaque model to recapitulate human biology, knowledge of sex-based differences in humans has the potential to inform clinical research and practice.
补体系统可被视为固有免疫的“调节者”、体液免疫的“指导者”以及适应性免疫的“调控者”。虽然已知性别会影响体液免疫和细胞免疫系统,但其对人类和恒河猴(一种常用的非人类灵长类动物模型系统)补体的影响尚未得到充分研究。为填补这一知识空白,我们分析了90名人类和72只恒河猴的血清样本中补体系统成分的丰度和活性。虽然级联蛋白的序列高度保守,但不同物种之间观察到了显著差异。尽管在恒河猴样本中检测到的低水平引发了关于该检测用于猕猴样本适用性的疑问,但在人类男性和女性中观察到了补体蛋白水平的差异。在人类和恒河猴中,糖基化抗原上C1q和C3b的总沉积水平和抗体依赖性沉积水平存在差异,这表明对聚糖的识别不同以及经典激活途径和替代激活途径之间的平衡不同。在多项检测中观察到补体介导的抗体致敏细胞裂解的功能差异,结果显示人类女性通常比人类男性或恒河猴表现出更高的裂解活性,而恒河猴通常没有表现出这种与性别相关的差异。在更狭窄的范围内,即在仅针对某些抗体、抗原或检测中,观察到了物种和性别之间的其他差异。总体而言,这些结果扩展了对人类补体系统中与性别相关差异的认识,确定了恒河猴中不存在的差异。
重要性
补体系统是宿主抵御许多细菌、真菌和病毒感染的关键部分。与此同时,丰富的流行病学、临床和生物医学研究证据表明,性别是免疫中的一个重要生物学变量,免疫系统中的许多性别特异性差异与疾病结局密切相关。本研究聚焦于这两个因素的交叉点,以确定性别对补体途径成分和活性的影响。这项工作扩展了我们对人类补体系统中与性别相关差异的认识,还确定了恒河猴(一种常用的非人类灵长类动物模型)中似乎不存在的差异。虽然物种之间的差异表明猕猴模型在重现人类生物学方面的能力存在潜在局限性,但人类中基于性别的差异知识有可能为临床研究和实践提供信息。
