Inflammatory monocytes trended upward in some infected groups on

Inflammatory monocytes trended upward in some infected groups on experiment day 9 (Figure 6e: Kruskal–Wallis, P = 0·0062; Dunn’s pairwise comparisons, all P > 0·05), and at experiment day 10, infected pregnant MI-503 datasheet A/J mouse spleens had higher numbers

of these cells than uninfected pregnant A/J mice (Figure 6f). Although TNF antibody ablation provides dramatic preservation of B6 conceptuses up to experiment day 12 (21), the same treatment protocol was not successful in improving pregnancy outcome in A/J mice. In this case, all embryos were expelled by experiment day 11 (Figure 7a). Course of parasitemia was not selleck chemical altered by TNF ablation (Figure 7b), and neither haematocrit levels nor weight change differed significantly at any time point between control and antibody-ablated infected mice (Figure 7c, d). It has become

clear that immune responses elicited by malaria during pregnancy can have significant adverse effects on the placenta and foetus (28). However, detailed examination of underlying mechanisms in humans is difficult owing to a myriad of practical and ethical barriers, making mouse models an important tool for advancing understanding of gestational malaria pathogenesis. An extension of previous work that revealed a critical role for maternal immune responses in P. chabaudi AS pathogenesis in the B6 mouse (19–21), the present work addressed the hypothesis that malaria during pregnancy in A/J mice will induce proinflammatory responses that, as in B6 mice, will result in poor pregnancy outcome. The results show that while immune responses to this infection during

pregnancy vary as a function of genetic background, pregnancy is compromised in both mouse strains. B6 Phosphoglycerate kinase and A/J mice have been used extensively to explore immunoprotective and immunopathogenic responses to P. chabaudi AS infection (12,29,30) and thus were an attractive choice to assess strain-dependent immune responses to this infection during pregnancy. Like virgin females and males (15,31–33), pregnant A/J mice are more susceptible to P. chabaudi AS infection than their B6 counterparts. Whereas B6 mice ultimately control P. chabaudi AS infection (20), infected pregnant A/J mice are highly susceptible and succumb to infection by experiment day 12. Nonetheless, consistent with the well-reported epidemiology of malaria during human pregnancy (1), both infected pregnant B6 (20) and A/J mice display higher-density peak peripheral parasitemia compared with their non-pregnant counterparts. In addition, P. chabaudi AS accumulates in the maternal blood sinusoids of both B6 (20) and A/J mice.

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