EC:3.4.23.16 - FACTA Search

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Query: EC:3.4.23.16 (HIV-1 protease)
2,107 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Human immunodeficiency virus 1 (HIV-1) protease is an aspartyl protease composed of two identical protomers linked by a four-stranded antiparallel beta-sheet consisting of the NH2- and COOH-terminal segments (Weber, I.T. (1990) J. Biol. Chem. 265, 10492-10496). Kinetic analysis of the HIV-1 protease-catalyzed hydrolysis of a fluorogenic substrate demonstrates that the enzyme is an obligatory dimer. At pH = 5.0, 0.1 M sodium acetate, 1 M NaCl, 1 mM EDTA buffer, 37 degrees C, the equilibrium dissociation constant, Kd = 3.6 +/- 1.9 nM. We found that the tetrapeptide Ac-Thr-Leu-Asn-Phe-COOH, corresponding to the COOH-terminal segment of the enzyme, is an excellent inhibitor of the enzyme. Kinetic analysis shows that the inhibitor binds to the inactive protomers and prevents their association into the active dimer (dissociative inhibition). The dissociative nature of this inhibition is consistent with the results obtained from sedimentation equilibrium experiments in which the apparent molecular weight of the enzyme was observed to be 20,800 +/- 1,500 and 12,100 +/- 300, in the absence and presence of the COOH-terminal tetrapeptide, respectively. The dissociation constant of the protomer-inhibitor complex is Ki = 45.1 +/- 1.8 microM. This is the first kinetic analysis and direct experimental demonstration of noncovalent dissociative inhibition.
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PMID:Dissociative inhibition of dimeric enzymes. Kinetic characterization of the inhibition of HIV-1 protease by its COOH-terminal tetrapeptide. 187 17

The specificity of HIV-1 (human immunodeficiency virus-1) protease has been evaluated relative to its ability to cleave the three-domain Pseudomonas exotoxin (PE66) and related proteins in which the first domain has been deleted or replaced by a segment of CD4. Native PE66 is not hydrolyzed by the HIV-1 protease. However, removal of its first domain produces a molecule which is an excellent substrate for the enzyme. The major site of cleavage in this truncated exotoxin, called LysPE40, occurs in a segment that connects its two major domains, the translocation domain (II), and the ADP-ribosyltransferase (III). This interdomain region contains the sequence ...Asn-Tyr-Pro-Thr... which is similar to that surrounding the scissile Tyr-Pro bond in the gag precursor polyprotein, a natural substrate of the HIV-1 protease. Nevertheless, it is not this sequence that is recognized and cleaved by the enzyme, but one 6 residues away, ...Ala-Leu-Leu-Glu... in which the Leu-Leu peptide bond is hydrolyzed. A second, slower cleavage takes place at the Leu-Ala bond 3 residues in from the NH2 terminus of LysPE40. When domain I of PE66 is replaced by a segment comprising the first two domains of CD4, the resulting chimeric protein is hydrolyzed at the same Leu-Leu bond by HIV-1 protease. Enzyme activities toward synthetic peptides modeled after the sequences defined above in LysPE40 are in complete accord, relative to specificity, kinetics, and pH optimum, with results obtained in the hydrolysis of the parent protein. These findings demonstrate that ideas concerning the specificity of the HIV-1 protease that are based solely upon its processing of natural viral polyproteins can be expanded by evaluation of other multidomain proteins as substrates. Moreover, it would appear that it is not a particular conformation, but sequence and accessibility that play the dominant role in defining sites in a protein substrate that are susceptible to hydrolysis by the enzyme.
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PMID:Interdomain hydrolysis of a truncated Pseudomonas exotoxin by the human immunodeficiency virus-1 protease. 210 21

The active sites of 3 types of aspartic proteases are modeled, based on crystallographic coordinates of endothiapepsin and of a model of HIV-1 protease. The enthalpies of deprotonation from neutral to mono-anion and to dianion are calculated with semiempirical minimal neglect of differential overlap, hydrogen bonding corrected (MNDO/H). This quantum mechanical study of models for the active sites of pepsins, human renin and retroviral aspartic proteases demonstrates that the replacements of Thr-218 from pepsins by Ala in human renin and of both Ser-35 and Thr-218 by alanines in retroviral proteases increases the proton affinity and modulates the charge distribution of those active sites compared to the pepsins.
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PMID:Modulation of the affinity of aspartic proteases by the mutated residues in active site models. 210 98

The intermediate filament proteins vimentin, desmin, and glial fibrillary acidic protein are cleaved in vitro by human immunodeficiency virus type 1 protease (HIV-1 PR). Microsequencing showed that HIV-1 PR cleaved both human and murine vimentin between leucine-422 and arginine-423 within the sequence between positions 418 and 427, Ser-Ser-Leu-Asn-Leu/Arg-Glu-Thr-Asn-Leu (SSLNL/RETNL). Minor cleavages at other sites were also observed. Heat-denatured vimentin was cleaved by HIV-1 PR less efficiently than native vimentin. A decapeptide containing the sequence SSLN-LRETNL was also cleaved in vitro by HIV-1 PR as predicted. The presence of a charged residue (arginine) at the primary cleavage site distinguishes this from other known naturally occurring cleavage sites. Microinjection of HIV-1 PR into cultured human fibroblasts resulted in a 9-fold increase in the percentage of cells with an altered and abnormal distribution of vimentin intermediate filaments. Most commonly, the intermediate filaments collapsed into a clump with a juxtanuclear localization. These results support the possibility that intermediate filament proteins may serve as substrates within HIV-1-infected cells.
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PMID:Human immunodeficiency virus type 1 protease cleaves the intermediate filament proteins vimentin, desmin, and glial fibrillary acidic protein. 220 Oct 25

Oligopeptides containing the consensus retroviral protease cleavage sequence Ser/Thr-X-Y-Tyr/Phe-Pro are substrates for purified recombinant HIV-1 protease with Km's in the millimolar range. The minimum sequence containing the consensus pentapeptide which serves as a good substrate is a heptapeptide spanning the P4-P3' residues. Substitution of reduced Phe-Pro or Tyr-Pro dipeptide isosteres or the statine analog 3-hydroxy-4-amino-5-phenylpentanoic acid for the scissile dipeptide afforded inhibitors of HIV-1 protease with Ki values in the micromolar range, three orders of magnitude better in affinity than the corresponding substrates. Inhibitors of HIV-1 protease may provide a novel and potentially useful therapeutic approach to the treatment of acquired immune deficiency syndrome (AIDS).
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PMID:Peptide substrates and inhibitors of the HIV-1 protease. 264 94

The human immunodeficiency virus type 1 (HIV-1) protease is the enzyme required for processing of the Gag and Gag-Pol polyproteins to yield mature, infectious virions. Although the complete absence of proteolytic activity prevents maturation, the level of activity sufficient for maturation and subsequent infectivity has not been determined. Amino acid substitutions that reduce catalytic activity without affecting substrate recognition have been engineered into the active site of the HIV-1 protease. The catalytic efficiency (kcat) of the HIV-1 protease is decreased 4-fold when threonine 26 is replaced by serine (T26S) and approximately 50-fold when alanine 28 is replaced by serine (A28S). Genes containing these mutations were cloned into a proviral vector for analysis of their effects on virion maturation and infectivity. The results show that virions containing the T26S protease variant, in which only 25% of the protease is active, are very similar to wild-type virions, although slight reductions in infectivity are observed. Virions containing the A28S protease variant are not infectious, even though a limited amount of polyprotein processing does occur. There appears to be a linear correlation between the level of protease activity and particle infectivity. Our observations suggest that a threshold of protease activity exists between a 4-fold and 50-fold reduction, below which processing is insufficient to yield infectious particles. Our data also suggest that a reduction of protease activity by 50-fold or greater is sufficient to prevent the formation of infectious particles.
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PMID:Defining the level of human immunodeficiency virus type 1 (HIV-1) protease activity required for HIV-1 particle maturation and infectivity. 753 64

The HIV-1 protease (PR) is essential for the production of mature virions. As such, it has become a target for the development of anti-HIV chemotherapeutics. Multiple passages of virus in cell culture in the presence of PR inhibitors have resulted in the selection of variants with decreased sensitivity to inhibitors of the PR. The most common alteration observed is a single amino acid change at position 82. This particular position has been well characterized by several laboratories as being important for the susceptibility of the virus to inhibitors of PR function. Mutations which result in the substitution of the wild-type valine with alanine, phenylalanine, threonine or isoleucine at position 82 of the PR have been associated with decreased sensitivity to several PR inhibitors. We describe here a clinical strain of HIV-1 that contains an isoleucine at position 82 of the PR instead of the usual valine. This strain is unique in that it was isolated from a patient that was anti-retroviral naive, and in the past, variants at position 82 of the PR have only been found after treatment of patients or cell culture with PR inhibitors. Moreover, this virus remains sensitive to PR inhibitors of the cyclic urea and C-2 symmetrical diol classes.
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PMID:Identification of a clinical isolate of HIV-1 with an isoleucine at position 82 of the protease which retains susceptibility to protease inhibitors. 858 57

The active human immunodeficiency virus type 1 (HIV-1) protease has a homodimeric structure, the subunits are connected by an 'interface' beta-sheet formed by the NH2- and COOH-terminal amino acid segments. Short peptides derived from these segments are able to inhibit the protease activity in the range of micromolar IC50 values. We have further improved the inhibitory power of such peptides by computer modelling. The best inhibitor, the palmitoyl-blocked peptide Pam-Thr-Val-Ser-Tyr-Glu-Leu, has an IC50 value of less than 1 microM. Some of the peptides also showed very good inhibition of the HIV-2 protease. The C-terminal segment of the HIV-1 matrix protein, Acetyl-Gln-Val-Ser-Gln-Asn-Tyr, also inhibits HIV-1 protease. Kinetic studies confirmed the 'dissociative' mechanism of inhibition by the peptides. Depending on the peptide structure and ionic strength, both dimerization inhibition and competitive inhibition were observed, as well as synergistic effects between competitive inhibitors and interface peptides.
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PMID:The inhibition of human immunodeficiency virus proteases by 'interface peptides'. 878 7

A tetrahedrally hydrogen-bonded structural water molecule, water 301, is seen in the crystal structure of nearly every HIV-1 protease/inhibitor complex. Although the urea oxygen of the designed inhibitor, DMP323, mimics and replaces water 301, other water molecules are seen in the protease/DMP323 crystal structure. As a first step toward understanding how water molecules may contribute to inhibitor potency and specificity, we have recorded water-NOESY and water-ROESY spectra of the protease/ DMP323 complex. Cross relaxation rates derived from these spectra, together with interproton distances calculated from the crystal structure of the complex, were used to classify the exchange cross peaks as follows: (A) a direct NOE with a water proton, (B) an indirect NOE with water through a labile protein proton, and (C) direct exchange of an amide proton with water. Type A and B cross peaks were analyzed using three models of water dynamics: (1) two-site exchange, with water molecules randomly hopping between bound and free states, (2) bound water with internal motion, and (3) free diffusion. Using the two-site exchange model to analyze the relaxation data of the type A cross peaks, it was found that the water molecules had short residence times, ca. 500 ps. in contrast with the > 9 ns residence time estimated for water 301 in the protease/P9941 complex [Grzesiek et al. (1994) J. Am. Chem. Soc. 116, 1581-1582]. The NMR data are consistent with the X-ray observation that two symmetry-related water molecules, waters 422 and 456, are bound at the DMP323 binding site. Hence, these water molecules may help to stabilize the structure of the complex. Finally, it was found that three buried and hydrogen-bonded Thr hydroxyl protons were in slow exchange with solvent. In contrast, it was found that the DMP323 H4/H5 hydroxyl protons and the Asp25/125 carboxyl protons, which form a buried hydrogen-bonded network at the catalytic site of the protease, are in rapid exchange with solvent, suggesting that solvent can penetrate into the buried protein/inhibitor interface on the millisecond to microsecond time scale.
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PMID:Mapping hydration water molecules in the HIV-1 protease/DMP323 complex in solution by NMR spectroscopy. 884 Nov 13

Molecular models of HIV-1 protease and 21 peptide substrates with single amino acid substitutions at positions from P4 to P3' were built and compared with kinetic measurements. The crystal structure of HIV-1 protease with a peptidic inhibitor was modified to model the peptide substrate Pro-Ala-Val-Ser-Leu-Ala-Met-Thr for the starting geometry. Models were built of two reaction intermediates, HIV protease with peptide substrate and with its tetrahedral intermediate. The energy minimization used a new algorithm that increased the speed and eliminated a cut-off for non-bonded interactions. After minimization the models for substrate and tetrahedral intermediate both had root mean square deviations of 0.48 A for all atoms of the HIV protease compared to the starting crystal structure. Differences in the model structures and interaction energies for HIV protease with different substrates were analyzed. The calculated interaction energies for the 21 HIV protease-tetrahedral intermediate models gave a correlation coefficient of 0.64 with the kinetic measurements. The eight substrates with changes in the P1 and P1' residues next to the scissile bond gave the highest correlation of 0.93, while the 14 substrates with changes in P2-P2' gave a correlation coefficient of 0.86. The catalytic mechanism and factors influencing the catalytic efficiency of the different substrates are discussed in relation to the models. The predictive ability of molecular mechanics calculations is discussed in the context of the statistical mechanics analysis of the differences in free energy.
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PMID:Molecular mechanics calculations on HIV-1 protease with peptide substrates correlate with experimental data. 887 45

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