TY - JOUR ID - 2343 TI - Determination of the Solution Conformation of HIV-1 Tat(1–9) Peptides by Means of Molecular Dynamics Simulations Considering NMR Data and Docking Studies into an Active Site Model of DP IV JO - J. Mol. Model. PY - 1998 SP - 200-210 AU - Fengler, A. AU - Mrestani-Klaus, C. AU - Reinhold, D. AU - Wrenger, S. AU - Ansorge, S. AU - Faust, J. AU - Neubert, K. AU - Brandt, W. AU - VL - 4 UR - DO - 10.1007/s0089480040200 AB - The human immunodeficiency virus 1 Tat protein suppresses antigen-, anti-CD3-and mitogen-induced activation of human T cells when added to T cell cultures. This activity is important for the development of AIDS because lymphocytes from HIV-infected individuals exhibit a similar antigen-specific dysfunction. Moreover, Tat was found to interact with dipeptidyl peptidase IV (DP IV). To find out the amino acid sequence important for the inhibition of the DP IV enzymatic activity we investigated N-terminal Tat(1–9) peptide analogues with amino acid substitutions in different positions. Interestingly, the exchange of Pro6 with Leu and Asp5 with Ile strongly diminished the DP IV inhibition by Tat(1–9). Based on data derived from one-and two-dimensional 1H NMR investigations the solution conformations of the three nonapeptides in water were determined by means of molecular dynamics simulations. These conformations were used for studies of the docking behavior of the peptides into a model of the active site of DP IV. The results suggest that several attractive interactions between the native Tat(1–9) and DP IV lead to a stable complex and that the reduced affinity of both L6-Tat(1–9) and I5-Tat(1–9) derivatives might be caused by conformational alterations in comparison to the parent peptide. A2 - C1 - Bioorganic Chemistry ER -