A Novel Transgenic Mouse Model for the In Vivo Evaluation of Anti-Human Immunodeficiency Virus Type 1 Drugs

Abstract

We have developed a binary transgenic mouse system that allows easy in vivo evaluation of new anti-human immunodeficiency virus type 1 (HIV-1) drugs or therapies specifically designed to target the viral transactivator protein (TAT) or long terminal repeat (LTR) functions. This approach consists of a simple genetic cross between an "activator" transgenic mouse expressing the HIV-1-tat gene exclusively to T lymphocytes and a "target" transgenic mouse bearing a silent reporter gene whose expression is under the control of the HIV-1-LTR. As expected, most of the target transgenic animals did not express the reporter gene; on the contrary, all the double-transgenic mice bearing both the activator and target transgenes strongly expressed the TAT-induced reporter gene. The choice of a secreted human alpha 1-antitrypsin variant (alpha 1-AT) as reporter gene readily permits in a single animal the quantitative determination of the plasma level of alpha 1-AT protein before and after anti-LTR or anti-TAT treatments. Such mice may be valuable as new laboratory models for the in vivo evaluation of agents with potential anti-HIV-1 activity.