Abstract
Pregnant women in the third trimester are at increased risk of severe influenza disease relative to the general population, though mechanisms behind this are not completely understood. The immune response to influenza infection employs both complement (C′) and antibody (Ab). The relative contributions of these components to the anti-viral response are difficult to dissect because most humans have pre-existing influenza-specific Abs. We developed the African green monkey (AGM) as a tractable nonhuman primate model to study changes in systemic innate immunity to influenza during pregnancy. Because the AGMs were influenza-naïve, we were able to examine the role of C′ in influenza virus neutralization using serum from non-pregnant animals before and after influenza infection. We determined that serum from naïve AGMs neutralized influenza via C′, while post-infection neutralization did not require C′, suggesting an Ab-mediated mechanism. The latter mimicked neutralization using human serum. Further, we found that ex vivo neutralization of influenza with both naïve and influenza-immune AGM serum occurred by virus particle aggregation and lysis, with immune serum lysing virus at a much higher rate than naïve serum. We hypothesized that the anti-influenza C′ response would diminish late in AGM pregnancy, corresponding with the time when pregnant women suffer increased influenza severity. We found that influenza neutralization capacity is significantly diminished in serum collected late in the third trimester. Strikingly, we found that circulating levels of C3, C3a, and C4 are diminished late in gestation relative to nonpregnant animals, and while neutralization capacity and serum C3a return to normal shortly after parturition, C3 and C4 levels do not. This AGM model system will enable further studies of the role of physiologic and hormonal changes in downregulating C′-mediated anti-viral immunity during pregnancy, and it will permit the identification of therapeutic targets to improve outcomes of influenza virus infection in pregnant women.
Highlights
Pregnancy is a unique physiologic state that is essential for the survival of all mammalian species
While there were slight differences in mobility of C3 a- and C3 b – chains between species, these data strongly suggest that human (Hu) and African green monkey (AGM) serum C9 proteins are expressed at similar levels
Dilutions of normal or heat inactivated (HI) human or AGM sera were mixed with a recombinant influenza virus Puerto Rico/8/1934 (PR8) that was engineered to express GFP as a fusion protein with the viral NS-1 protein [45]
Summary
Pregnancy is a unique physiologic state that is essential for the survival of all mammalian species. Pregnancy has historically been characterized as a state of immune suppression [1]; this description oversimplifies the complex physiologic requirements of the progression from implantation and placentation, to rapid fetal growth and development, to preparation for delivery [2] These distinct phases of pregnancy have different physiologic needs and are accompanied by highly regulated hormone alterations, shifting profiles of energy expenditure, and a changing immunological milieu [3,4]. Given these unique alterations, it stands to reason that pregnant women experience a distinct range of immunological challenges [2,5,6]. This raises the clinically relevant question of how the innate immune response to viruses is altered during pregnancy [7]
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