Abstract
This study describes the derivation of a series of mutants from the human leukemic cell line CEM using the frame shift mutagen Ethyl-methanesulfonate followed by negative selection with multiple treatments of OKT4A + C, and sorting into CD4-, CD4-dull, and CD4-intermediate mutants. These mutants express reduced CD4 levels ranging from 0 to 60% of the parental line. The mutants were analyzed by staining with a battery of CD4-specific mAb, by assessing their ability to bind soluble gp120, and by their ability to form syncytia after infection with cell-free HIV I virus and a gp160-vaccinia vector. Two groups of particularly interesting mutants were identified: (1) CD4-dull mutants expressing only 5 to 10% of the wild type surface CD4 density, which nevertheless were infectable by HIV I and produced as many syncytia and reverse transcriptase activity as the parental line after infection with gp160-vaccinia or cell free HIV I. (2) CD4-intermediate mutants (30 to 60% of parental CD4 level), which express CD4-epitopes required for interaction with the HIV I envelope protein, yet are markedly deficient in their ability to form syncytia after gp160-vaccinia or HIV I infection. Two of these mutants did form syncytia after transient reconstitution with a wild type CD4 containing vaccinia vector. Inasmuch as they were found to bind soluble gp120 with the same avidity as other, functionally normal, CD4-intermediate mutants, these human T cell mutants may have a reduced susceptibility to HIV I infection due to the absence of a "fusogenic component" or to a structural alteration in a region of the CD4 molecule not required for binding of the HIV I envelope, but for the subsequent fusion and entry process.
