Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

---

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

AG1343 ([3S-(3R*,4aR*,8aR*,2'S*,3'S*)]-2-[2' hydroxy-3'-phenylthiomethyl-4'-aza-5'-oxo-5'-(2''-methyl-3''-hydro xy-phenyl) pentyl]-decahydroiso-quinoline-3-N-t-butylcarboxamide methanesulfonic acid) is a selective, nonpeptidic inhibitor of human immunodeficiency virus (HIV) protease (Ki = 2 nM) that was discovered by protein structure-based drug design methodologies. AG1343 was effective against the replication of several laboratory and clinical HIV type 1 (HIV-1) or HIV-2 isolates including pyridinone- and zidovudine-resistant strains, with 50% effective concentrations ranging from 9 to 60 nM. In reversibility studies, inhibition of gag (p55) proteolytic processing in HIV-1 particles from cells treated with AG1343 was maintained for up to 36 h after drug removal. The ability of virus to develop resistance to AG1343 was studied by serial passage of HIV-1 NL4.3 in the presence of increasing concentrations of drug. After 28 passages, a variant with a 30-fold reduction in susceptibility to AG1343 was isolated. Molecular analysis of the protease from this variant indicated a double change from a Met to Ile at residue 46 and an Ile to Val or Ala at residue 84 (M46I+I84V, A). Consistent with these findings, reductions in susceptibility were observed for recombinant viruses constructed to contain the single I84V change or the double M46I+I84V substitutions. Resistance, however, was not detected for recombinant viruses containing other key mutations in HIV-1 protease, including a Val to Ile change at residue 32 or a Val to Ala or Phe at residue 82. The potent anti-HIV activity of AG1343 against several isolates suggests that AG1343 should perform well during ongoing human phase II clinical trials.
...
PMID:Antiviral and resistance studies of AG1343, an orally bioavailable inhibitor of human immunodeficiency virus protease. 883 68

The processing of gag and gag-pol polyproteins by human immunodeficiency virus type 1 (HIV-1) protease is a crucial step in the formation of infectious HIV-1 virions. In this study, we examine whether particles produced in the presence of inhibitors of HIV-1 protease can subsequently undergo gag polyprotein cleavage with restoration of infectivity following removal of the inhibitors. Viral particles produced during 7 days of culture in the presence of the protease inhibitors KNI-272 (10 microM) and saquinavir (5 microM) contained predominantly p55gag polyprotein but little or no p24gag cleavage product. Following resuspension of the particles in medium free of the inhibitor, some gag polyprotein processing was detected in particles produced from the KNI-272-treated cells, but not from the saquinavir-treated cells within the first 3 h. However, the majority of the protein remained as p55gag throughout a 48-h experimental period. The infectivity (50% tissue culture infective dose per milliliter) of the viral particles from KNI-272-treated cells was 10(6)-fold lower than that of control particles and did not significantly increase over the 48 h after the inhibitor was removed, despite the apparent return of protease function in a subset of these virions. This failure to restore infectivity was due neither to a reduction in the number of particles produced by protease inhibitor-treated cells nor to a failure of HIV RNA to be packaged in the virions. These particles also failed to express the mature phenotype by electron microscopy. Thus, while some processing of the gag polyprotein can occur in isolated HIV virions, this does not appear to be sufficient to restore infectivity in the majority of particles. This finding suggests that there may be constraints on postbudding polyprotein processing in the production of viable particles. These results should have positive implications regarding the use of protease inhibitors as anti-HIV drugs.
...
PMID:Removal of human immunodeficiency virus type 1 (HIV-1) protease inhibitors from preparations of immature HIV-1 virions does not result in an increase in infectivity or the appearance of mature morphology. 914 62

Two different responses to the therapy were observed in a group of patients receiving the protease inhibitor indinavir. In one, suppression of virus replication occurred and has persisted for 90 weeks (bDNA, < 500 human immunodeficiency virus type 1 [HIV-1] RNA copies/ml). In the second group, a rebound in virus levels in plasma followed the initial sharp decline observed at the start of therapy. This was associated with the emergence of drug-resistant variants. Sequence analysis of the protease gene during the course of therapy revealed that in this second group there was a sequential acquisition of protease mutations at amino acids 46, 82, 54, 71, 89, and 90. In the six patients in this group, there was also an identical mutation in the gag p7/p1 gag protease cleavage site. In three of the patients, this change was seen as early as 6 to 10 weeks after the start of therapy. In one patient, a second mutation occurred at the gag p1/p6 cleavage site, but it appeared 18 weeks after the time of appearance of the p7/p1 mutation. Recombinant HIV-1 variants containing two or three mutations in the protease gene were constructed either with mutations at the p7/p1 cleavage site or with wild-type (WT) gag sequences. When recombinant HIV-1-containing protease mutations at 46 and 82 was grown in MT2 cells, there was a 68% reduction in its rate of replication compared to the WT virus. Introduction of an additional mutation at the gag p7/p1 protease cleavage site compensated for the partially defective protease gene. Similarly, rates of replication of viruses with mutations M46L/I, I54V, and V82A in protease were enhanced both in the presence and in the absence of Indinavir when combined with mutations in the gag p7/p1 and the gag p1/p6 cleavage sites. Optimal rates of virus replication require protease cleavage of precursor polyproteins. A mutation in the cleavage site that enhanced the availability of a protein that was rate limiting for virus maturation would confer on that virus a significant growth advantage and may explain the uniform emergence of viruses with alterations at the p7/p1 cleavage site. This is the first report of the emergence of mutations in the gag p7/p1 protease cleavage sites in patients receiving protease therapy and identifies this change as an important determinant of HIV-1 resistance to protease inhibitors in patient populations.
...
PMID:Drug resistance during indinavir therapy is caused by mutations in the protease gene and in its Gag substrate cleavage sites. 926 88

Human immunodeficiency virus type-1 (HIV-1) Rev overcomes negative elements within viral RNAs to allow expression of gag, pol, and env. The effect of Rev on protein and RNA expression of HIV-1 protease (PR)-containing constructs was investigated utilizing transient transfection of COS cells. Rev, through the Rev response element (RRE), resulted in a large increase in proteolytic activity and cytoplasmic RNA accumulation. Furthermore, Rev increased the level of total RNA produced by a PR-containing construct. The increase in cytoplasmic RNA accumulation in the presence of Rev indicated the presence of cis-acting repressor sequences (CRS) within the RNA produced by this construct. Therefore, components of the construct were analyzed for CRS activity. PR sequences in both sense and antisense orientations exhibited CRS activity. RRE sequences alone conferred a small CRS effect. Additional CRS activity was present within an unspliced RNA containing only nef and LTR sequences. These results indicate a novel form of cis-acting repressor activity within HIV-1 PR; this activity is exerted regardless of the orientation of PR and appears to function at the level of cytoplasmic or nuclear RNA stability.
...
PMID:Identification of cis-acting repressor activity within human immunodeficiency virus type 1 protease sequences. 926 56

Cyclophilin A (CyPA), a cytosolic peptidyl-prolyl trans-cis isomerase can accelerate the trans-cis isomerization of Xxx-Pro peptide bonds. One- and two-dimensional 1H-NMR spectroscopy were used to determine that the heptapeptide Ser-Gln-Asn-Tyr-Pro-Ile-Val, a model peptide of an HIV-1 protease cleavage site in the gag polyprotein of HIV-1, is a substrate for CyPA. Experiments revealed a slow exchange about the Tyr-Pro peptide bond with 30 +/- 5% in the cis conformation (pH 1-9). While the interconversion rate is too slow to measure by kinetic NMR methods in the absence of CyPA, these methods, saturation transfer and NOE experiments, established that CyPA enhanced the rate of trans-cis interconversion, a process inhibited by cyclosporin A (CsA). With a substrate:CyPA ratio of 40:1, an interconversion rate of 2.5 s(-1) at 25 degrees C was observed.
...
PMID:HIV protease substrate conformation: modulation by cyclophilin A. 930 37

Human immunodeficiency virus 1 (HIV-1) protease is a prime target in the search for drugs to combat the AIDS virus. The enzyme functions as a C2-symmetric dimer, cleaving the gag and gag-pol viral polyproteins at distinct sites. The possession of a twofold axis passing through the active site, has led to the design of C2-symmetrical inhibitors in the form of substrate-based transition-state analogs. One of the most active compounds of this class of inhibitors is HOE/BAY 793, which contains a vicinal diol central unit [Budt, K.-H., Hansen, J., Knolle, J., Meichsner, C., Paessens, A., Ruppert, D. & Stowasser, B. & Winkler, I. (1990) European Patent application EP0428,849; Budt, K.-H., Hansen, J., Knolle, J., Meichsner, C., Ruppert, D., Paessens, A. & Stowasser B. (1993) IXth International Conference on AIDS; Budt, K.-H., Peyman, A., Hansen, J., Knolle, J., Meichsner, C., Paessens, A., Ruppert, D. & Stowasser, B. (1995) Bioorg. Med. Chem. 3, 559-571.] The structure of this inhibitor bound to HIV-1 protease, in two different crystal forms, has been solved at 0.24-nm resolution using X-ray crystallography. In both forms, the details of the inhibitor-protease interactions revealed an overall asymmetric binding mode, especially between the central diol unit and the active-site aspartates. The main binding interactions comprise several specific H-bonds and hydrophobic contacts, which rationalize many of the characteristics of the structure/activity relationship in the class of vicinal diol inhibitors. In a general analysis of the mobility of the flap regions, which cover the active site and participate directly in binding, using our structures and the HIV protease models present in the Brookhaven databank, we found that in most structures the flexibility of the flaps is limited by local crystal contacts. However, in one of the structures presented here, no significant crystal contacts to the flap regions were present, and as a result the flexibility of the inhibitor bound flaps increased significantly. This suggests that the mobility and conformational flexibility of the flap residues are important in the functioning of HIV-1 protease, and must be considered in the future design of drugs against HIV protease and in structure-based drug design in general.
...
PMID:Structure of HOE/BAY 793 complexed to human immunodeficiency virus (HIV-1) protease in two different crystal forms--structure/function relationship and influence of crystal packing. 934 83

The binding thermodynamics of the HIV-1 protease inhibitor acetyl pepstatin and the substrate Val-Ser-Gln-Asn-Tyr-Pro-Ile-Val-Gln, corresponding to one of the cleavage sites in the gag, gag-pol polyproteins, have been measured by direct microcalorimetric analysis. The results indicate that the binding of the peptide substrate or peptide inhibitor is entropically driven; i.e., it is characterized by an unfavorable enthalpy and a favorable entropy change, in agreement with a structure-based thermodynamic analysis based upon an empirical parameterization of the energetics. Dissection of the binding enthalpy indicates that the intrinsic interactions are favorable and that the unfavorable enthalpy originates from the energy cost of rearranging the flap region in the protease molecule. In addition, the binding is coupled to a negative heat capacity change. The dominant binding force is the increase in solvent entropy that accompanies the burial of a significant hydrophobic surface. Comparison of the binding energetics obtained for the substrate with that obtained for synthetic nonpeptide inhibitors indicates that the major difference is in the magnitude of the conformational entropy change. In solution, the peptide substrate has a higher flexibility than the synthetic inhibitors and therefore suffers a higher conformational entropy loss upon binding. This higher entropy loss accounts for the lower binding affinity of the substrate. On the other hand, due to its higher flexibility, the peptide substrate is more amenable to adapt to backbone rearrangements or subtle conformational changes induced by mutations in the protease. The synthetic inhibitors are less flexible, and their capacity to adapt is more restricted. The expected result is a more pronounced effect of mutations on the binding affinity of the synthetic inhibitors. On the basis of the thermodynamic differences in the mode of binding of substrate and synthetic inhibitors, it appears that a key factor to understanding resistance is given by the relative balance of the different forces that contribute to the binding free energy and, in particular, the balance between conformational and solvation entropy.
...
PMID:Molecular basis of resistance to HIV-1 protease inhibition: a plausible hypothesis. 955 12

VX-478 (141W94), a potent inhibitor of HIV protease, is in late stage clinical trials for the treatment of HIV infection and AIDS. Resistant viruses were raised in vitro by passage of HIV-1IIIB in the presence of increasing concentrations of VX-478 and the related hydroxyethylamino sulfonamide inhibitor VB-11,328. By direct PCR analysis of selected viruses, a number of mutations were identified (L10F, M46I, I47V, I50V and I84V) in the protease gene. These mutations were introduced into recombinant HIV-1 protease and the mutant enzymes assayed against a panel of inhibitors of diverse chemical structure. For VX-478, significant increases in IC90 and Ki were observed for virus or protease, respectively, containing I50V single mutation or an M46I/I47V/I50V triple mutation. The mutant proteases were also characterized for their kinetic competence to process substrates representing cleavage sites of gag-pol viral polypeptide. The kinetic data were interpreted with the aid of molecular modeling to understand the effect of mutations on inhibitor binding and processing of the gag-pol polypeptide to generate infective virions.
...
PMID:In vitro selection and characterization of VX-478 resistant HIV-1 variants. 956 Dec 2

A recombinant replication-incompetent herpes simplex virus vector (vd120/Gag) that expressed the human immunodeficiency virus 1 gag gene and part of the pol gene that encodes the HIV-1 protease was constructed. Examination of cells infected with vd120/Gag revealed the presence of the Gag polyprotein Pr55gag by 12 h post-infection, as well as abundant levels of the proteolytically processed 24-kDa capsid protein. Analysis of vector-infected cells and culture supernatant indicated that the majority of the 24-kDa protein remained cell-associated. Although the HIV-1 Gag polyprotein was produced in vd120/Gag-infected cells, there was no evidence of HIV virus-like particle production upon examination of vector-infected cells by transmission electron microscopy.
...
PMID:Expression of the human immunodeficiency virus gag gene products by a replication-incompetent herpes simplex virus vector. 966 69

Saquinavir is an HIV proteinase inhibitor marketed as a treatment for HIV infection. The drug has potent (Ki approximately 0.1 nM) antiviral activity and acts by inhibiting the processing of gag and gag-pol polyproteins, thus blocking the maturation of replicated viral particles. By assuming standard two-compartment disposition kinetics in combination with a variety of absorption processes we have identified two structural models that perform well with respect to describing the pharmacokinetic behavior of saquinavir when administered to healthy human volunteers from various Phase I studies. These structural models have been implemented for population analysis of these Phase I data via the Bayesian Markov chain Monte Carlo approach. We conclude that saquinavir exhibits complex and highly variable behavior, but can be modeled adequately using a two-compartment zero-order absorption model. There is also an indication that saquinavir kinetics may be time-dependent.
...
PMID:The pharmacokinetics of saquinavir: a Markov chain Monte Carlo population analysis. 977 92


<< Previous 1 2 3 4 5 6 7 8 9 Next >>

---