Neuropathogenic SIVsmmFGb Genetic Diversity and Selection-Induced Tissue-Specific Compartmentalization During Chronic Infection and Temporal Evolution of Viral Genes in Lymphoid Tissues and Regions of the Central Nervous System

SIVsmmFGb is a lentivirus swarm that induces neuropathology in over 90% of infected pigtailed macaques and reliably models central nervous system HIV infection in people. We have previously studied SIVsmmFGb genetic diversity and compartmentalization during acute infection, but little is understood about diversity and intertissue compartmentalization during chronic infection. Tissue-specific pressure appeared to affect the diversity of Nef sequences between tissues, but changes to the Env V1 region and Int diversity were similar across all tissues. At 2 months postinfection, compartmentalization of the SIVsmmFGb env V1 region, nef, and int was noted between different brain regions and between brain regions and lymph nodes. Convergent evolution of the nef and env V1 region, and divergent evolution of int, was noted between compartments and all genes demonstrated intratissue temporal segregation. For the env V1 region and nef, temporal segregation was stronger in the brain regions than the periphery, but little difference between tissues was noted for int. Positive selection of the env V1 region appeared in most tissues at 2 months postinfection, whereas nef and int faced negative selection in all tissues. Positive selection of the env V1 region sequences increased in some brain regions over time. SIVsmmFGb nef and int sequences each saw increased negative selection in brain regions, and one lymph node, over the course of infection. Functional differences between tissue compartments decreased over time for int and env V1 region sequences, but increased for nef sequences

Reduced Genetic Diversity in Lymphoid and Central Nervous System Tissues and Selection-Induced Tissue-Specific Compartmentalization of Neuropathogenic SIVsmmFGb during Acute Infection

The simian lentivirus strain SIVsmmFGb is a viral swarm population inducing neuropathology in over 90% of infected pigtailed macaques and serves as a reliable model for HIV neuropathogenesis. However, little is understood about the genetic diversity of this virus, how said diversity influences the initial seeding of the central nervous system and lymph nodes, or whether the virus forms distinct genetic compartments between tissues during acute infection. In this study, we establish that our SIVsmmFGb stock virus contains four genetically distinct envelope V1 region groups, three distinct integrase groups, and two Nef groups. We demonstrate that initial central nervous system and lymph node seeding reduces envelope V1 and integrase genetic diversity but has a variable effect on Nef diversity. SIVsmmFGb envelope V1 region genes from the basal ganglia, cerebellum, and hippocampus form distinct genetic compartments from each other, the midfrontal cortex, and the lymph nodes. Basal ganglia, cerebellum, hippocampus, and midfrontal cortex-derived nef genes all form distinct genetic compartments from each other, as well as from the lymph nodes. We also find basal ganglia, hippocampus, and midfrontal cortex-derived integrase sequences forming distinct compartments from both of the lymph nodes and that the hippocampus and midfrontal cortex form separate compartments from the cerebellum, while the axillary and mesenteric lymph nodes compartmentalize separately from each other. Compartmentalization of the envelope V1 genes resulted from positive selection, and compartmentalization of the nef and integrase genes from negative selection. These results indicate restrictions on virus genetic diversity during initial tissue seeding in neuropathogenic SIV infection