Abstract
The immune system imposes costs that may have to be traded against investment of resources in other costly life-history traits. Yet, it is unknown if a trade-off between immunity and longevity occurs in free-ranging mammals. Here, we tested if age and survival, two aspects associated with longevity, are linked to immune parameters in an 8 g bat species. Using a combination of cross-sectional and longitudinal data, we assessed whether total white blood cell (WBC) counts, bacterial killing ability of the plasma (BKA) and immunoglobulin G (IgG) concentration change with age. Furthermore, we asked if these immune parameters impose costs resulting in decreased survival probabilities. We found that WBC counts decreased with age both within and among individuals. IgG concentrations were higher in older individuals, but did not change with age within individuals. Furthermore, individuals with above average WBC counts or IgG concentration had lower probabilities to survive the next six months. High WBC counts and IgG concentrations may reflect infections with parasites and pathogens, however, individuals that were infected with trypanosomes or nematodes showed neither higher WBC counts or IgG concentrations, nor was infection connected with survival rates. BKA was higher in infected compared with uninfected bats, but not related to age or survival. In conclusion, cellular (WBC) and humoral (IgG) parts of the immune system were both connected to age and survival, but not to parasite infections, which supports the hypothesis that energetically costly immunological defences are traded against other costly life-history traits, leading to a reduced lifespan in this free-ranging mammal.
Highlights
IntroductionParasites and pathogens inflict damages and impose a negative effect on host fitness (e.g. [1])
By exploiting host resources, parasites and pathogens inflict damages and impose a negative effect on host fitness (e.g. [1])
Effect of age on immune parameters The analysis of our cross-sectional dataset shows age-related changes in immune parameters, i.e. we found that total white blood cell (WBC) counts decreased with increasing age of individual Saccopteryx bilineata (GLM: X21 = 4.26, p = 0.039; Fig. 1a)
Summary
Parasites and pathogens inflict damages and impose a negative effect on host fitness (e.g. [1]). Previous studies on potential trade-offs between immunity and other life-history traits focussed mainly on the relationship between immunity and reproduction. The relationship between immune response and other life-history traits such as longevity is largely unknown, in free-ranging mammals. Studies performed under laboratory conditions may result in reduced mortality (e.g. ad libitum food, constant veterinarian surveillance) and prolonged lifespans. Such studies may be biased regarding the strength of potential age-related trade-offs between immunity and longevity. To shed light on the functional relationship between the immune system and survival in mammals, studies on free-ranging animals are urgently needed [10]. How other aspects of the immune system are associated with longevity in mammals remains to be determined
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