Abstract
Despite extensive mutational studies on the human CD4 molecule and its affinity to human immunodeficiency virus (HIV) envelope glycoprotein gp120, coreceptor functions of such mutant molecules have only been examined by indirect measurement of their affinity to class II major histocompatibility complex (MHC) molecules. In this report, coreceptor functions of mutant human CD4 molecules, which have no or reduced affinity to an HIV envelope protein, gp120, were assessed in a murine T cell receptor/class II MHC recognition system. The substitution of human C" beta strand with the murine homologous segment resulted in the loss of the coreceptor function as well as in the complete loss of gp120 binding capacity, corroborating the consensus that Phe-43 in C" beta strand plays crucial roles in both situations. However, simultaneous replacement of the C'-C" loop along with the C" beta strand by homologous murine segments rescued the coreceptor function, whereas gp120 binding capacity remained negative. Further analysis indicated that insertion of lysine between Gly-41 and Ser-42 can partially compensate for the coreceptor function lost by the Phe-43 --> Val mutation. Although the coreceptor function of these mutant CD4 molecules in a human T cell recognition system is yet to be determined, these observations necessitate a re-evaluation of the role played by Phe-43 in coreceptor function. Examination of the sensitivities of the mutant CD4 molecules expressed on HeLa cells to infection by a T cell-tropic HIV-1 strain indicated that only those mutants that had completely lost gp120 binding capacity were resistant to the infection. All mutants having whole C" substitution, irrespective of additional substitutions or their coreceptor functions, were resistant to the infection.
Highlights
The most serious consequence of the human immunodeficiency virus type 1 (HIV-1)1 infection is the acquired immuno
Several etiological mechanisms causing the functional deficiency of CD4ϩ T cells are involved; 1) targeted infection of CD4ϩ cells initiated by the binding of the virus to CD4, 2) cell fusion induced by binding of HIV viruses resulting in apoptosis of CD4ϩ T cells, and 3) inhibition of the specific recognition of antigenic peptide/class II major histocompatibility complexes (MHCs) by soluble gp120
Several reports have claimed that the loss of gp120 binding ability of the human CD4 molecule is unavoidably accompanied by the loss of its affinity to class II MHC molecules, which is essential for its coreceptor function [6, 7]
Summary
The most serious consequence of the human immunodeficiency virus type 1 (HIV-1)1 infection is the acquired immuno-. Coreceptor functions of mutant human CD4 molecules, which have no or reduced affinity to an HIV envelope protein, gp120, were assessed in a murine T cell receptor/class II MHC recognition system.
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