To the editor
Whenever a gene for fertility is identified1, it is bewildering to think how variants associated with impaired fertility could have spread so widely in the population despite their obvious fitness disadvantage. Impaired fertility presently affects about 1 in 7 heterosexual couples in developed countries2. To explain this paradox, we refer to evolutionary theories on longevity that assume costs of reproductive success3. Here we present an immunogenetic explanation for how evolutionary fitness optimizes selection for fertility with selection for survival.
Reproductive success is dependent on a Th2/Tr1 immune response at the fetal-maternal interface permitting pregnancy to proceed4. When we studied cytokine responsiveness of the innate immune system, we found that women of normal fecundity exhibit a cytokine profile that drives naive T-cells towards a Th2/Tr1 phenotype (Table 1). The probability of normal fecundity increased more than 10-fold when the innate cytokine profile of the women was characterized by high interleukin (IL)-10 and low tumor necrosis factor (TNF)-α responsiveness. The cytokine profile of women with impaired fertility was characterized by low IL-10 and high TNF-α responsiveness.
Previous attempts to identify genetic polymorphisms that associate with different TNF-α responsiveness have been unsuccessful. Earlier we have identified haplotypes that segregate with IL-10 responsiveness5, as well as several novel single-nucleotide polymorphisms in the distal promoter of the gene encoding IL-10 (ref. 6). Here we present data on cytokine responsiveness in healthy subjects stratified for a nucleotide polymorphism at position –2849 of the IL-10 promoter (Fig. 1). It seems that carriers of the −2849 AA genotype have significantly lower IL-10 responsiveness upon stimulation with endotoxin. Therefore, using a large set of married women with completed families7, we tested whether this genotype was enriched among women with impaired fertility. Congruent with a low IL-10 phenotype as described, the −2849 AA genotype was two-fold more prevalent among 73 women who remained childless when compared to the prevalence among 323 women with normal fecundity (13.6% and 5.6% respectively, χ2 = 5.9, P = 0.014). This difference in genotype distribution strongly supports the notion that human fertility is dependent on the cytokine profile of the innate immune system.
Critical for understanding the high proportion of women with impaired fertility is the relation of the innate immune system to the outcome of infectious disease. We have previously shown that subjects with the low IL-10 and high TNF-α responsiveness that drives naive T-cells towards a Th1 phenotype were protected from fatal outcome of infection8. In times when half of all newborns died from infection before reaching adolescence, survivors were strongly selected for resistance to infection. We propose that during evolution selection for fertility (a cytokine profile that favors the development of Th2/Tr1-type T-cells) is optimized with selection for survival (a cytokine profile that favors the development of Th1-type T-cells). The current data also provide an immunogenetic explanation for the inverse association betw een family size and longevity of British aristocrats3 under conditions in which infection was a major cause of early death. Under those conditions, an innate cytokine profile supportive of Th1-type T-cells favored survival of infectious diseases, including cholera and tuberculosis. However, women with such a cytokine profile would have been less likely to have successful pregnancies.
References
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Westendorp, R., van Dunne, F., Kirkwood, T. et al. Optimizing human fertility and survival. Nat Med 7, 873 (2001). https://doi.org/10.1038/90868
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DOI: https://doi.org/10.1038/90868
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