Variation in Simian Immunodeficiency VirusenvV1 Region in Simian AIDS-Associated Lymphoma

Abstract

Genetic variation of SIV env during the course of infection provides a large population pool that is continually shaped by selective forces in vivo and may influence the development of clinical disease. SAIDS-associated lymphoma (SAL) in the SIV-infected macaque is typically a clonal or oligoclonal mass of B cell origin, extranodal in anatomic distribution, in which SIV is restricted largely to infiltrating macrophages. To explore the degree of genetic variation in SIV env represented in SAL, a 480-bp DNA fragment containing the V1 region was PCR amplified from seven cases of SAL and from a nonneoplastic lymph node of an SIV-infected macaque. The nucleotide sequence of the V1 region was determined from at least 10 clones from multiple independent amplification reactions of each tissue. Overall, the degree of V1 variability within lymphomas was found not to be restricted but to resemble the heterogeneity reported in SIV-infected lymphoid and other tissues. V1 variation in the nonneoplastic lymph node was unexpectedly limited, perhaps related to the unusual disease condition associated with SAIDS in that animal. Unlike observations from SIV-infected tissues of animals without neoplastic disease, no increase was detected in the number of O- or N-linked glycosylation sites in the V1 regions isolated from lymphomas as compared with the original inoculum. These findings suggest that, within the microenvironment of the lymphoma, the immune evasion conferred by increased glycosylation may offer little selective advantage.