Kaya Yasargil scite author profile

A human immunodeficiency virus type 1 (HIV-1) variant with highly reduced susceptibility to Ro 31-8959, an inhibitor of the viral proteinase, has been selected by repeated passage of wild-type virus in CEM cells in the presence of increasing concentrations of the inhibitor. Peptide sequences of the proteinase of selected virus were obtained from proviral DNA. Sequence comparison to wild-type (wt) proteinase demonstrated two amino acid substitutions in the resistant virus, a Gly to Val exchange at position 48 and a Leu to Met exchange at position 90. Furthermore, sequences of intermediate passage virus suggest contributions from positions 12, 36, 57, and 63 in early steps of resistance development. The selected virus showed a ca. 40-fold increase in 50% inhibitory concentration of Ro 31-8959. Growth kinetics of resistant virus were comparable to wild-type virus and the resistant genotype proved to be stable in the absence of inhibitor. Directed mutagenesis of the HIV-1 HXB2 proteinase at positions 48 and 90 suggested that each mutation alone led to a moderate decrease in sensitivity of the recombinant virus to proteinase inhibitor. However, a recombinant virus carrying both mutations in the proteinase gene showed a significant reduction in its sensitivity to Ro 31-8959 thus proving the importance of these exchanges for the resistance phenotype.

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Substrate determinants for cleavage in cis and in trans by the hepatitis C virus NS3 proteinase

Bartenschlager

Ahlborn-Laake

Yasargil

et al. 1995

J Virol

100

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Processing of the hepatitis C virus polyprotein is accomplished by a series of cotranslational and posttranslational cleavages mediated by host cell signalases and two virally encoded proteinases. Of these the NS3 proteinase is essential for processing at the NS3/4A, NS4A/4B, NS4B/5A, and NS5A/5B junctions. Processing between NS3 and NS4A occurs in cis, implying an intramolecular reaction mechanism, whereas cleavage at the other sites can also be mediated in trans. Sequence analysis of the amino termini of mature cleavage products and comparisons of amino acid residues around the scissile bonds of various hepatitis C virus isolates identified amino acid residues which might contribute to substrate specificity and processing efficiency: an acidic amino acid at the P6 position, a Thr or Cys at the P1 position, and a Ser or Ala at the P1 position. To study the importance of these residues for NS3-mediated cleavage we have undertaken a mutational analysis using an NS3-5B polyprotein expressed by recombinant vaccinia viruses in mammalian cells. For all NS3-dependent cleavage sites P1 substitutions had the most drastic effects on cleavage efficiency, showing that amino acid residues at this position are the most critical substrate determinants. Since less drastic effects were found for substitutions at the P1 position, these residues appear to be less important for proper cleavage. For all cleavage sites the P6 acidic residue was dispensable, suggesting that it is not essential for substrate recognition and subsequent cleavage. Analysis of a series of mutations at the NS3/4A site revealed great flexibility for substitutions compared with more stringent requirements at the trans cleavage sites. On the basis of these results we propose a model in which processing in cis is determined primarily by polyprotein folding, whereas cleavage in trans is governed not only by the structure of the polyprotein but also by specific interactions between the proteinase and the polyprotein substrate at or around the scissile bond.

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Kaya Yasargil

Characterization of human immunodeficiency virus type 1 mutantswith decreased sensitivity to proteinase inhibitor Ro 31-8959

Substrate determinants for cleavage in cis and in trans by the hepatitis C virus NS3 proteinase

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