Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0019693 (HIV)
 170,526 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Chronic infections contribute significantly to morbidity and mortality in dialysis patients. These infections are acquired either before or after initiation of dialysis, and the latter may be via nosocomial modes of transmission. Consequently, policies that deal with infection control in dialysis units have assumed increasing importance. The incidence and prevalence of hepatitis C virus (HCV) infection among patients on dialysis is steadily declining. Nonetheless, the 0.4% to 15% incidence of anti-HCV in hemodialysis (HD) units continues to be a cause for concern. Although nosocomial transmission of HCV infection in HD units has been demonstrated, the Centers for Disease Control and Prevention (CDC), Atlanta, GA, does not recommend dedicated machines, patient isolation, or a ban on reuse in HD patients with HCV infection. Conventional cleansing and sterilization procedures for reprocessing the dialyzers appear to be adequate to inactivate the virus. Over the years, there has been a steady increase in the number of human immunodeficiency virus (HIV)-infected patients entering end-stage renal disease (ESRD) programs. Transmission of HIV infection is extremely unlikely in dialysis units that conform to the standard practice guidelines. Dedicated machines or isolation from other patients are not recommended for patients with HIV infection. Risk of acquiring HIV infection after an occupational exposure is approximately 0.32%. Nonetheless, a combination of zidovudine and lamuvidine for most parenteral exposures, and the addition of a protease inhibitor in high-risk exposures, is recommended. The wide range of immunological derangements in chronic renal failure have been postulated to be the cause for the increased susceptibility of dialysis patients to tuberculosis (TB). The high incidence of extrapulmonary disease may be a significant factor in the delay in diagnosis of TB in these patients. In view of their high-risk for exposure to TB, the purified protein derivative (PPD) skin test is recommended on an annual basis in the staff of dialysis units.
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PMID:A 1990s perspective of hepatitis C, human immunodeficiency virus, and tuberculosis infections in dialysis patients. 924 19

We developed and characterized a high-performance liquid chromatography (HPLC) assay for the determination of saquinavir, an HIV protease inhibitor, in human plasma samples. Extraction of plasma samples with diethyl ether resulted in quantitative recovery of both saquinavir and its stereoisomer Ro 31-8533 which was used as an internal standard. The assay was performed isocratically using 5 mM H2SO4 (pH 3.5) and acetonitrile (75.5:24.5, v/v) containing 10 mM tetrabutylammonium hydrogen sulfate (TBA) as a mobile phase, a Nucleosil 3C8 column kept at 45 degrees C and UV detection at 240 nm. Using this method, saquinavir and Ro 31-8533 can be separated from endogenous substances, and in the concentration range of 5-110 ng/ml the relative standard deviations for the determination of saquinavir were below 5%. The detection limit of saquinavir in human plasma was 1 ng/ml. The usefulness of the method was demonstrated by quantification of saquinavir in plasma of human subjects treated with 600 mg of saquinavir per os or 12 mg intravenously.
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PMID:Determination of saquinavir in human plasma by high-performance liquid chromatography. 925 59

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.
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PMID:Drug resistance during indinavir therapy is caused by mutations in the protease gene and in its Gag substrate cleavage sites. 926 88

The bait region of the general protease inhibitor alpha 2-macroglobulin (alpha 2M) was mutated by introducing a recognition sequence of furin. This did not interfere with folding, S-ester formation or tetramerization of the mutant recombinant alpha 2M (r alpha 2M). Mutant r alpha 2M inhibited furin in vitro, by a similar mechanism to that used by plasma alpha 2M to inhibit high-molecular-mass proteases. The mutant alpha 2M was intracellularly active in COS-1 cells in inhibiting the endogenous processing of the soluble substrates for furin (von Willebrand factor, transforming growth factor beta1 and a soluble form of the envelope glycoprotein gp160 from HIV-1) but not the membrane-bound form of gp160. The intracellular activity of mutant alpha 2M strongly indicated that alpha 2M attains its native conformation, and thus that the unusual internal S-ester is formed, before alpha 2M passes through the cleavage compartment(s). Our results show for the first time that modulation of the bait region of alpha 2M allows the creation of an inhibitor against membrane-bound proteases. It can be expected that the use of alpha 2M-bait mutants will become important as a technique for the study of various proteolytic processes and for the identification of the proteases involved.
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PMID:Inhibition of intracellular proteolytic processing of soluble proproteins by an engineered alpha 2-macroglobulin containing a furin recognition sequence in the bait region. 929 Nov 25

Oral administration of the HIV protease inhibitor L-689,502 caused cholestasis and hepatocyte injury in rats and dogs. These changes occurred rapidly, with elevations in serum transaminase observed as early as 6 hr after oral dosing in dogs. The acute phase of this hepatotoxic response was characterized in more detail in rats. Following intravenous administration, bile flow was decreased in a dose-dependent manner with greater than 90% decrease in less than 30 min at a dose of 5 mg/kg. The decrease in bile flow was associated with a decrease in erythritol clearance. The decrease in bile flow was not due to disruption of biliary tight junctions. Sucrose clearance was not increased and biliary bile acid concentrations in treated animals were not different from controls. Unlike control animals, bile flow was not stimulated by infusion of the bile acid tauroursodeoxycholic acid in animals treated with L-689,502. These cholestatic effects may be due, in part, to direct hepatocyte injury. Histological examination of perfusion-fixed livers 30 min after L-689,502 administration revealed periportal changes including hepatocyte vacuolation and occasional single cell necrosis. On a subcellular level, the nucleus and mitochondria were intact in less-severely affected cells. However, extensive vacuolation with multilamellar inclusions was pronounced in these cells. In addition, canalicular ectasia was also observed which was consistent with the cholestatic changes that were seen. In summary, L-689,502 is a potent, rapid acting hepatotoxin in dogs and rats. The mechanism by which this agent induces cholestasis is novel compared to other well-characterized cholestatic agents such as alpha-naphtylisothiocyanate and ethinyl estradiol.
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PMID:Hepatotoxicity of an HIV protease inhibitor in dogs and rats. 929 95

We have studied the population dynamics in response to selective drug pressure of mixtures of wild-type and mutant HIV viruses exposed to either an inhibitor of the viral protease or a nonnucleoside allosteric inhibitor of the viral reverse transcriptase. In order to quantitate mutant virus present in a mixed population, we developed a selective plaque assay, which appears to be generally applicable to population dynamics studies where the viruses in question differ in the sensitivity to a given drug by at least 10-fold. In this assay system, the titer of virus in a mixture is measured in the absence and presence of a concentration of a specific inhibitor known to suppress virus replication by 99%. Virus detected in the presence of inhibitor corresponds to mutant virus, whereas detection in the absence of drug results in quantitation of the total virion population. Wild-type virus is then estimated by difference. Utilizing this system we studied the fate of mixtures of wild-type and the protease-resistant mutant variant I84V in the presence and absence of the cyclic urea HIV protease inhibitor, DMP 450. We also examined the dynamics of mixtures of wild-type and the resistant mutant variant, L100I, in the presence and absence of the drug DMP 266. In both systems we demonstrated that in the absence of drug, mutant virus is at a selective disadvantage for growth compared to wild-type, whereas in the presence of a specific inhibitor, mutant virus exhibits the selective growth advantage over wild-type virus. Better understanding of HIV population dynamics may allow the development of superior inhibitors and the careful application of combination therapy in the clinical setting.
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PMID:Population dynamics studies of wild-type and drug-resistant mutant HIV in mixed infections. 929 20

Treatment with protease inhibitors alone or in combination with inhibitors of reverse transcriptase potently suppresses levels of human immunodeficiency virus (HIV) RNA in plasma and thereby may significantly delay the progression of HIV-mediated disease. To investigate the effect of treatment with the protease inhibitor saquinavir on HIV replication in the lymphoid tissues, we used a SCID-hu mouse model that we developed, in which human thymic and liver tissues (hu-thy/liv) were implanted under both kidney capsules in SCID mice (thy/liv-SCID-hu mice). These mice are populated in the periphery with large numbers of human T cells and develop disseminated HIV infection after intraimplant injection. thy/liv-SCID-hu mice with established HIV infection that were treated for 1 month with saquinavir had a significantly lower viral load present in the implanted hu-thy/liv and mouse spleen than did the untreated HIV-infected thy/liv-SCID-hu mice. To examine the capacity of acute treatment with saquinavir to prevent HIV infection, some thy/liv-SCID-hu mice were inoculated with HIV and then immediately started on saquinavir. Although treated mice had markedly lower viral loads in the thy/liv implants and spleens, HIV infection was not completely prevented. Thus, the effect of antiviral therapy on HIV infection in the major site of HIV replication, the lymphoid tissues, can be readily evaluated in our thy/liv-SCID-hu mice. These mice should prove to be a useful model for determining the in vivo effectiveness of different therapeutic interventions on acute and chronic HIV infection.
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PMID:Saquinavir-mediated inhibition of human immunodeficiency virus (HIV) infection in SCID mice implanted with human fetal thymus and liver tissue: an in vivo model for evaluating the effect of drug therapy on HIV infection in lymphoid tissues. 930 78

The effects of fluconazole on the pharmacokinetics of the HIV protease inhibitor ritonavir were investigated after multiple dosing in an open-label study. In this randomized, two-period crossover study, eight healthy subjects received ritonavir alone (200 mg every 6 hr for 4 days) and ritonavir with fluconazole (400 mg on day 1, 200 mg every day on days 2-5) with a 2-week washout period. Ritonavir plasma concentrations were measured during the final four ritonavir dosing intervals (24 hr) and a 12-hr washout period. There were statistically significant increases in ritonavir C(max) and AUC0-24 (p < 0.02), with concurrent administration of fluconazole compared with administration of ritonavir alone. The difference between regimens in C(min) was marginally statistically significant (p = 0.089), and t(max) and beta were not statistically significantly different. Although some ritonavir parameters were affected by fluconazole, mean increases in C(max) and AUC were < or = 15% for the 24-hr period, and only 7-19% for individual dose intervals. Thus, the pharmacokinetics of ritonavir may be influenced only to a small extent when administered with fluconazole. These changes are probably of limited clinical significance and do not necessitate dosage adjustment of ritonavir when fluconazole is added to the regimen.
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PMID:Evaluation of the effect of fluconazole on the pharmacokinetics of ritonavir. 931 29

In vitro microsomal formation of primary metabolites of indinavir (CRIXIVAN, MK-0639, L-735,524), an HIV protease inhibitor, were qualitatively similar among the different developmental stages in humans, although the fetal liver had a lower capability to form the metabolites than the pediatric and adult liver. The lower activity of fetal liver was mainly owing to a decrease in the Vmax values. The Vmax value in the fetus was about one-third of that in the adult human, while no significant difference was found in Km values between groups. The liver microsomes were also characterized using P450 markers to examine the development-associated alteration in P450 functional activities. Debrisoquine 4-hydroxylase activity was comparable among the three age groups. In contrast, tolbutamide methyl hydroxylase activity, as well as the CYP3A marker, testosterone 6beta-hydroxylase activity, in the fetal liver microsomes was much lower than in the pediatric and adult by more than 40-fold. However, the difference in testosterone 2beta-hydroxylase and nifedipine N-oxidase activities between fetus and adult was markedly smaller. The ratio of indinavir metabolism in pediatric or adult liver to fetus was 1.7 for pediatric and 3.6 for adult liver microsomes. Similarly, testosterone 2beta-hydroxylase and nifedipine N-oxidase activities showed smaller differences between adult (or pediatric) and fetal liver microsomes than testosterone 6beta-hydroxylase activity. The reason for the observed marked differences in the development-associated alteration may lie in the differences of substrate specificities between CYP3A isoforms.
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PMID:In vitro metabolism of indinavir in the human fetal liver microsomes. 932 28

The currently available anti-HIV drugs can be subdivided according to the mechanisms of action into two main groups, viz, reverse transcriptase (RT) inhibitors and protease inhibitors; the former may be subdivided into nucleoside inhibitors and non-nucleoside inhibitors of reverse transcriptase. Combination therapy is preferable to monotherapy because of resistance problems. The 'ideal' combination consists of two RT inhibitors plus one protease inhibitor. Of the RT inhibitors, zidovudine is to be preferred because it slows the development of AIDS dementia. Other RT inhibitors are didanosine, zalcitabine, stavudine and lamivudine. As regards the protease inhibitors; in view of the development of resistance, it is advised to prescribe ritonavir, indinavir or saquinavir. The antiretroviral management should be adjusted as soon as signs appear of toxicity or failure of the treatment due to resistance or poor compliance.
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PMID:[AIDS; new developments. II. Treatment of HIV infection]. 934 May 60


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