Sooty mangabeys (SMs) are natural hosts of simian immunodeficiency virus (SIV) and do not progress to AIDS despite high viral replication. The main factors involved in the benign nature of this infection are (i) low level of immune activation, (ii) relative preservation of specific CD4+ T-cell subsets from direct virus infection, and (iii) absence of microbial translocation from the gut to the systemic circulation. To determine the impact of SIV infection on underlying cause of death, we retrospectively analyzed data from 307 SMs (219 SIV infected and 88 uninfected) housed at the Emory Primate Center that have died between 1986 and 2022. Interestingly, we found that SIV-infected SMs live ~4 years longer than SIV-uninfected SMs, although this result is hard to interpret due to differences in how animals were housed and assigned to specific experimental studies. While the causes of death were not different between SIV-infected and uninfected SMs that died before age 15 (i.e., adult), we found significant differences in the relative frequency of specific causes of death in the elderly population (≥15 years old). Specifically, we observed that SIV-infected SMs were more likely to die from infections but less likely to die from cardiovascular disease (and diabetes in female animals) as compared to uninfected SMs. While confirming the non-pathogenic nature of SIV infection in SMs, these data reveal, for the first time, a qualitative impact of SIV infection on the host physiology that induces a significant change in the mortality pattern in these natural SIV hosts.
Importance: In this study, we demonstrate, for the first time, that the natural, non-pathogenic SIV infection of the African monkey SM has a clinical impact which is revealed in terms of main causes of mortality, which are significantly different in the infected animals as compared to the uninfected ones. Indeed, SIV-infected SMs are at higher risk of dying of infectious diseases but appear to be somewhat protected from cardiovascular causes of death. The identification of a specific pattern of mortality associated with the infection suggests that the host-pathogen interaction between SIV and the SM immune system, while non-pathogenic in nature, has a detectable impact on the overall health status of the animals.
Keywords: SIV; SIV infection; cause of death; sooty mangabeys.