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

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Query: UMLS:C0021051 (immunodeficiency)
71,517 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The multiple-dose pharmacokinetics of ritonavir were investigated in four groups of human immunodeficiency virus-positive male subjects (with 16 subjects per group) under nonfasting conditions; a 3:1 ritonavir:placebo ratio was used. Ritonavir was given at 200 (group I), 300 (group II), 400 (group III), or 500 (group IV) mg every 12 h for 2 weeks. The multiple-dose pharmacokinetics of ritonavir were moderately dose dependent, with the clearance for group IV (6.8 +/- 2.7 liters/h) being an average of 32% lower than that for group I (10.0 +/- 3.2 liters/h). First-pass metabolism should be minimal for ritonavir. The functional half-life, estimated from peak and trough concentrations, were similar among the dosage groups, averaging 3.1 and 5.7 h after the morning and evening doses, respectively. The area under the concentration-time curve at 24 h (AUC24) and apparent terminal-phase elimination rate constant remained relatively time invariant, but predose concentrations decreased 30 to 70% over time. Concentration-dependent autoinduction is the most likely mechanism for the time-dependent pharmacokinetics. The Km and initial maximum rate of metabolism (Vmax) values estimated from population pharmacokinetic modeling (nonlinear mixed-effects models) were 3.43 microg/ml and 46.9 mg/h, respectively. The group IV Vmax increased to 68 mg/h after 2 weeks. The maximum concentration of ritonavir in serum (Cmax) and AUC after the evening doses were an average of 30 to 40% lower than the values after the morning doses, while the concentration at 12 h was an average of 32% lower than the predose concentration, probably due to protracted absorption. Less than 2% of the dose was eliminated unchanged in the urine. Triglyceride levels increased from the levels at the baseline, and the levels were correlated with baseline triglyceride levels and AUC, Cmax, or predose concentrations.
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PMID:Multiple-dose pharmacokinetics of ritonavir in human immunodeficiency virus-infected subjects. 914 41

We report 2 cases of maculopapular eruption and fever in patients infected with human immunodeficiency virus (HIV) on the 2nd day of first administration of ritonavir, a protease inhibitor. In the 1st patient, clinical improvement occurred despite continuation of therapy, and in the 2nd the treatment was stopped with remission and rechallenge resulting in recurrence. Ritonavir should be added to the list of drugs that can induce adverse cutaneous reactions in HIV patients.
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PMID:Early ritonavir-induced maculopapular eruption. 940 88

Modified, human immunodeficiency virus (HIV)-inoculated thy/liv-SCID-hu mice were used to evaluate the in vivo efficacy of antiretroviral drugs. Ritonavir treatment alone initially suppressed plasma viremia, but the viremia recurred with the appearance of ritonavir-resistant HIV isolates. Multidrug therapy suppressed plasma HIV RNA to undetectable levels; however, plasma viremia returned after therapy was stopped, showing that the therapy did not completely suppress HIV infection in the thymic implant. When thy/liv-SCID-hu mice were treated with a combination of zidovudine, lamivudine, and ritonavir immediately after inoculation with HIV, cocultures of the thymic implants remained negative for HIV even 1 month after therapy was discontinued, suggesting that acute treatment can prevent the establishment of HIV infection. Thus, these modified thy/liv-SCID-hu mice should prove to be a useful system for evaluating the effectiveness of different antiretroviral therapies on acute and chronic HIV infection.
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PMID:thy/liv-SCID-hu mice: a system for investigating the in vivo effects of multidrug therapy on plasma viremia and human immunodeficiency virus replication in lymphoid tissues. 946 19

The pharmacology, pharmacokinetics, efficacy, adverse effects, drug interactions, and dosage and administration of protease inhibitors are reviewed. Protease inhibitors are a novel class of drugs used for the treatment of human immunodeficiency virus (HIV) infection. Saquinavir, ritonavir, indinavir, and nelfinavir have been approved in the United States; several other agents are under development. Protease inhibitors selectively block HIV protease, an enzyme involved in the later stages of HIV replication. Various pharmacokinetic differences exist among these agents, including differences in bioavailability, protein binding, and drug interactions. The drugs undergo extensive hepatic metabolism; dosage adjustments should be considered for patients with hepatic dysfunction. Clinical trials have shown protease inhibitors to be effective in reducing HIV RNA levels and increasing CD4+ lymphocyte counts. When protease inhibitors are used in combination with other antiretroviral agents, an additional beneficial effect on these markers occurs. Adverse effects of saquinavir and nelfinavir include mild gastrointestinal disturbances such as diarrhea. Ritonavir is less well tolerated because of gastrointestinal disturbances and circumoral and peripheral paresthesia. Indinavir has been associated with nephrolithiasis and asymptomatic hyperbilirubinemia. The development of resistance to protease inhibitors may be related to suboptimal dosages, noncompliance, or partial compliance. Protease inhibitors are potent and highly selective agents that block a critical step in HIV replication. They are effective and relatively well tolerated, but they are expensive, have extensive drug interaction profiles, and require careful compliance with the prescribed regimen.
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PMID:Protease inhibitors for the treatment of human immunodeficiency virus infection. 949 54

Ritonavir, indinavir, and saquinavir, all human immunodeficiency virus-1 protease inhibitors with a potent antiviral effect during triple therapy, are extensively metabolized by liver cytochrome P450 3A4. As this P450 isoform is involved in the metabolism of about 50% of drugs, coadministration of protease inhibitors with other drugs may lead to serious effects due to enzyme inhibition. Among these drugs, methadone and buprenorphine, both metabolized by P450 3A4, are potential candidates to drug interactions. In this study, metabolic interactions between these protease inhibitors and methadone or buprenorphine were studied in vitro in a panel of 13 human liver microsomes. Ritonavir was the most potent competitive inhibitor with Ki about 50 and 20 nM for methadone and buprenorphine metabolisms, respectively. Indinavir and saquinavir also inhibited methadone N-demethylation (Ki about 3 and 15 microM, respectively) and buprenorphine N-dealkylation (Ki about 0.8 and 7 microM, respectively). The rank order of inhibition potency against metabolism of methadone and buprenorphine was ritonavir > indinavir > saquinavir. There is obvious potential for clinically significant drug interactions, particularly with ritonavir. In brief, caution should be advised if human immunodeficiency virus-1 protease inhibitors are coadministered with methadone and buprenorphine.
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PMID:Inhibition of methadone and buprenorphine N-dealkylations by three HIV-1 protease inhibitors. 949 89

The effect of coadministration of ritonavir and zidovudine (ZDV) on the pharmacokinetics of these drugs was investigated in a three-period, multidose, crossover study. Eighteen asymptomatic, human immunodeficiency virus-positive men were assigned randomly to six different sequences of the following three regimens: ZDV (200 mg every 8 h [q8h] alone for 4 days, ritonavir (300 mg q6h) alone for 4 days, and ZDV with ritonavir for 4 days. Ritonavir pharmacokinetics were unaffected by coadministration with ZDV. However, ZDV exposure was reduced by about 26% (P < 0.05) in the presence of ritonavir. The maximum concentration in (Cmax) of ZDV plasma decreased from 748 +/- 375 (mean +/- standard deviation) to 546 +/- 296, and area under the concentration-time curve from 0 to 24 h (AUC0-24) decreased from 3,052 +/- 1,007 to 2,261 +/- 715 when coadministered with ritonavir. In contrast, the ZDV elimination rate constant was unaffected by ritonavir, suggesting that there was no change in ZDV systemic metabolism. Correspondingly, differences in ZDV-glucuronide Cmax and AUC were not statistically significantly different between regimens (P > 0.31). Also, there were no apparent differences in the formation of 3'-amino-3'-deoxythymidine or in the adverse event profiles between the regimens. The lack of change in ritonavir pharmacokinetics suggests that dosage adjustment of ritonavir is unnecessary when it is administered concurrently with ZDV. The clinical relevance of a 26% reduction in ZDV exposure when ZDV is administered with ritonavir is unknown. In addition to other multidrug regimens, the long-term safety and efficacy of coadministration of ritonavir and ZDV is being investigated.
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PMID:Multidose pharmacokinetics of ritonavir and zidovudine in human immunodeficiency virus-infected patients. 966 Oct 22

We used renal proximal tubules from a teleost fish (killifish; Fundulus heteroclitus), fluorescent substrates and confocal microscopy to study the interactions between human immunodeficiency virus protease inhibitors and drug-transporting ATPases. Both saquinavir and ritonavir inhibited luminal accumulation of a fluorescent cyclosporin A derivative (a substrate for P-glycoprotein) and of fluorescein methotrexate [a substrate for multidrug resistance-associated protein 2 (Mrp2)]. Of the two protease inhibitors, ritonavir was the more potent inhibitor of transport by a factor of at least 20. Ritonavir was at least as good an inhibitor of P-glycoprotein- and Mrp2-mediated transport as cyclosporin A and leukotriene C4, respectively. Inhibition of P-glycoprotein- and Mrp2-mediated transport was not due to toxicity or impaired metabolism, because neither saquinavir nor ritonavir inhibited transport of fluorescein on the renal organic anion system. Experiments with a fluorescent saquinavir derivative showed strong secretion into the tubular lumen that was inhibited by verapamil, leukotriene C4, saquinavir, and ritonavir. Together, the data demonstrate that saquinavir, and especially ritonavir, are potent inhibitors of P-glycoprotein- and Mrp2-mediated transport. The experiments with the fluorescent saquinavir derivative suggest that these protease inhibitors may also be substrates for both P-glycoprotein and Mrp2.
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PMID:Interactions of HIV protease inhibitors with ATP-dependent drug export proteins. 1041 58

The secreted aspartyl proteinase (Sap) of Candida albicans, which is believed to represent an important virulence factor of this opportunistic yeast, and the human immunodeficiency virus type 1 (HIV-1) protease, which is obligatory for the production of infectious virions, both belong to the same family of aspartyl proteinases. We have previously shown that the HIV-1 protease inhibitor Indinavir directly inhibits secretion and proteinase activity of Sap in a dose-dependent manner. Furthermore, at very high concentrations, viability of C. albicans is markedly reduced by Indinavir, indicating that HIV-1 protease inhibitors may possess antifungal activity. We thus proposed that these drugs may add to the resolution of mucosal candidiasis in HIV-1 infected subjects. We have now compared three different HIV-1 protease inhibitors. The rank order of Sap inhibition, already significant at 0.1 mg/ml for all protease inhibitors, was Ritonavir > Indinavir > Saquinavir. However, the cross-reactivity of Ritonavir to pepsin was also more pronounced compared with the other two. Indinavir did not affect Candida viability at concentrations up to 1 mg/ml, in line with our previous study. In contrast, at this concentration Saquinavir was even fungicidal as assessed by three different viability assays (colony formation assay, MTT assay, propidium iodide staining) whereas Ritonavir significantly affected the mitochondrial activity only (MTT assay). No influence on Candida viability was observed for any of the three at concentrations of 0.1 mg/ml or lower. It remains to be examined whether HIV-1 protease inhibitors or derivatives thereof may be suitable for in vivo therapy of subjects suffering from mucosal candidiasis resistant to current antimycotics.
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PMID:Dissimilar attenuation of Candida albicans virulence properties by human immunodeficiency virus type 1 protease inhibitors. 1053 86

Since the introduction of new anti-retroviral agents such as human immunodeficiency virus (HIV) protease inhibitors, oropharyngeal candidiasis is less often observed in acquired immune deficiency syndrome patients. Secretory aspartic proteases of Candida albicans, which have similarities to the HIV aspartic proteases, are pathogenicity factors that have been intensively investigated in recent years. The inhibitory effect of four different HIV aspartic protease inhibitors (ritonavir, saquinavir, indinavir, and nelfinavir), on the activity of different Candida albicans secretory aspartic proteases was demonstrated. These anti-retroviral agents were able to inhibit Candida albicans secretory aspartic proteases 1, 2, and 3 which are involved in Candida adherence. As a consequence of these results we used selected HIV protease inhibitors in an adherence assay of Candida cells to epithelial cells. Ritonavir and saquinavir inhibited adherence of Candida albicans under the chosen experimental conditions similarly to the in vitro results, whereas indinavir had no effect. This inhibition was shown to be concentration dependent. The specificity of these effects with respect to the secretory aspartic proteases was demonstrated by competitive binding experiments using purified recombinant secretory aspartic proteases. On the basis of these studies we conclude that lower rates of oropharyngeal candidiasis in individuals receiving potent anti-retroviral therapy could reflect not only an improvement in the immune system but also direct inhibition of Candida secretory aspartic proteases by HIV protease inhibitors.
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PMID:HIV-Protease inhibitors reduce cell adherence of Candida albicans strains by inhibition of yeast secreted aspartic proteases. 1057 29

The human immunodeficiency virus, type I protease inhibitor Ritonavir has been used successfully in AIDS therapy for 4 years. Clinical observations suggested that Ritonavir may exert a direct effect on the immune system unrelated to inhibition of the human immunodeficiency virus, type I protease. In fact, Ritonavir inhibited the major histocompatibility complex class I restricted presentation of several viral antigens at therapeutically relevant concentrations (5 microM). In search of a molecular target we found that Ritonavir inhibited the chymotrypsin-like activity of the proteasome whereas the tryptic activity was enhanced. In this study we kinetically analyzed how Ritonavir modulates proteasome activity and what consequences this has on cellular functions of the proteasome. Ritonavir is a reversible effector of proteasome activity that protected the subunits MB-1 (X) and/or LMP7 from covalent active site modification with the vinyl sulfone inhibitor(125)I-NLVS, suggesting that they are the prime targets for competitive inhibition by Ritonavir. At low concentrations of Ritonavir (5 microM) cells were more sensitive to canavanine but proliferated normally whereas at higher concentrations (50 microM) protein degradation was affected, and the cell cycle was arrested in the G(1)/S phase. Ritonavir thus modulates antigen processing at concentrations at which vital cellular functions of the proteasome are not yet severely impeded. Proteasome modulators may hence qualify as therapeutics for the control of the cytotoxic immune response.
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PMID:How an inhibitor of the HIV-I protease modulates proteasome activity. 1058 54


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