In vitro characterization of FIV-pPPR, a pathogenic molecular clone of feline immunodeficiency virus, and two drug-resistant pol gene mutants.

OBJECTIVE

To compare in vitro replication kinetics and nucleoside analog susceptibilities of a natural feline immunodeficiency virus (FIV) isolate (FIV-Maxam), a molecular clone of FIV (FIV-pPPR), and two (-)-beta-L-2',3'-dideoxy-3'-thiacytidine- (3TC-) resistant mutants of FIV-pPPR.

SAMPLE POPULATION

Peripheral blood mononuclear cells (PBMC) from 4 specific-pathogenfree cats.

PROCEDURE

Two point mutations corresponding to mutations of human immunodeficiency virus type 1 (HIV-1) were engineered into the highly conserved YMDD motif of the reverse transcriptase- (RT-) encoding region of the FIV-pPPR pol gene. Replication kinetics and nucleoside analog susceptibilities of FIV-Maxam, FIV-pPPR, and the 2 mutant viruses were measured in vitro, using feline PBMC.

RESULTS

Replication kinetics and nucleoside analog susceptibilities were similar between FIV-Maxam and FIV-pPPR. However, FIV-Maxam was significantly more susceptible to 3TC. A methionine-to-valine mutation at codon 183 (M183V) of the RT-encoding region of the pol gene of FIV-pPPR conferred high-level phenotypic resistance to 3TC and cross-resistance to the related compound (-)-beta-L-2',3'-dideoxy-5-fluoro-3'-thiacytidine.

CONCLUSIONS AND CLINICAL RELEVANCE

Similarities between FIV-Maxam and FIV-pPPR suggest that results of studies performed using FIV-pPPR will have relevance to natural FIV infection in cats. In vitro evaluation of nucleoside analog susceptibilities of FIV-Maxam may help determine concentrations of nucleoside analogs required for effective treatment of FIV-infected cats.

IMPACT FOR HUMAN MEDICINE

3TC resistance of FIV-pPPR M183V was similar in magnitude to that of HIV-1 M184V, a mutant described in infected humans treated with 3TC. Thus, FIV-pPPR M183V may be a useful model for studying the in vivo effects of 3TC resistance on lentivirus pathogenesis.