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:C0019693 (HIV)
170,526 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Updates are provided for new anti-HIV drugs currently in development. ABT-378, Tipranavir, and DMP-450 are among the new protease inhibitors discussed. Drugs from other classes that are discussed include emivirine (Coactinon, formerly MKC-442), FTC (emtricitabine, Coviracil), adefovir (Preveon), and pentafuside (T-20). A small study has found that women using Ritonavir (Norvir) may be at a greater risk for anemia (a decrease in red blood cells), caused by excessive menstrual bleeding or hypermenorrhea. New formulations of Ritonavir and ddI (Didanosine, Videx) are described.
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PMID:New anti-HIV drugs in development. 1136 65

Concomitant administration of three or more antiretroviral drugs is the standard treatment for HIV-infected patients. I.p. and NNRT are metabolized by cytochrome P450 and are inhibitors or inducers of CYP3A4. Therefore a number of drug-drug interactions are likely to occur. Ritonavir, a potent CYP3A4 inhibitor, is coadministered with saquinavir, indinavir and amprenavir to enhance their plasma concentrations and their virological efficacy. In contrast, nevirapine and efavirenz are CYP3A4 inducers, which warrant an increase in i.p. dosing. These properties lead to interactions with other drugs metabolized by CYP3A4 and a knowledge or the route of biotransformation is useful to avoid side-effects or decrease efficacy (as in the case of statine coadministration). Some important interactions can lead to contraindications such as coadministration of rifampicine, astemizole, ergot derivates or cizapride, as a large decrease or increase in concentration can lead to inefficacy or to major side-effects. Clinical trials and notification of side-effects are important to detect unpredictable interactions and to propose guidelines; such an example is therapeutic drug monitoring of methadone to avoid withdrawal syndrome when coadministered with ritonavir or nelfinavir.
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PMID:[Drug interactions with antiretroviral agents]. 1147 6

Oropharyngeal candidiasis is one of the first and most commonly reported opportunistic infections of untreated AIDS patients. With the introduction of the new antiviral HAART therapy, including HIV protease inhibitors, this mucocutaneous infection is nowadays only rarely observed in treated patients. It was recently shown that HIV protease inhibitors have a direct attenuating effect on Candida albicans secreted aspartic proteinases (Saps), an investigation prompted by the fact that both Sap and HIV protease belong to the superfamily of aspartic proteinases and by the observation that mucocutaneous infections sometimes resolve even in the absence of an immunological improvement of the host. As these Saps are important fungal virulence factors and play a key role in adhesion to human epithelial cells we tried to assess the effect of the HIV protease inhibitors Ritonavir, Indinavir and Saquinavir on fungal adhesion to these cells. The effect on phagocytosis by polymorphonuclear leukocytes was also assessed. Ritonavir was found to be the most potent inhibitor of fungal adhesion. A dose-dependent inhibition of adhesion to epithelial cells was found already at 0.8 microM and was significant at 4 microM or higher, at 500 microM the inhibition was about 55%. Indinavir and Saquinavir inhibited significantly at 4 microM or 20 microM, respectively; at 500 microM the inhibition was 30% or 50%. In contrast, no protease inhibitor was able to modulate phagocytosis of Candida by polymorphonuclear leukocytes. In conclusion, inhibition of Saps by HIV protease inhibitors may directly help to ease the resolution of mucosal candidiasis. In future, derivatives of HIV protease inhibitors, being more specific for the fungal Saps, may form an alternative in the treatment of mucosal candidiasis insensitive to currently available antimycotics.
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PMID:HIV protease inhibitors attenuate adherence of Candida albicans to epithelial cells in vitro. 1147 84

The authors assessed the impact of protease and reverse transcription (RT) mutations and individual pharmacokinetic parameters on virologic response to a four-drug regimen including ritonavir/saquinavir. Treatment was given at the start of the study (M0) to 22 HIV-1 protease inhibitor-naive or pretreated patients. Protease and RT genes were sequenced at M0, at the time of virologic failure, or at the end of the follow-up. Plasma ritonavir and saquinavir peak C(max), C(min), and area under the curve (AUC) were determined based on samples taken 0, 1, 2, 3, 4, 6, 8, and 12 hours after administration. HIV-1 RNA decreased to less than 50 copies/mL in 11 patients (group 1). At M0, five of them had no RT mutation and 10 had three or fewer secondary protease mutations with no new mutation during follow-up. Ritonavir and saquinavir pharmacokinetics showed wide interindividual variability. Treatment failed in 11 patients (group 2): 9 had three to eight protease mutations and a mean of 5.8 RT mutations at M0, with emergence of new mutations during follow-up. Pharmacokinetics was similar to those of group 1. The other two patients with virologic failure showed no baseline primary mutation but were the only patients with insufficient saquinavir and ritonavir AUC. The authors showed the complementarity between drug-resistance genotype and individual pharmacokinetics and the potential utility of AUC and Cmax to manage treatment.
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PMID:Pharmacokinetics and resistance mutations affect virologic response to ritonavir/saquinavir-containing regimens. 1147 13

This exploratory analyses characterizes patterns of lymphocyte recovery in HIV-1-infected patients treated with highly active antiretroviral therapy (HAART) and investigates their relationship with baseline indices and virologic responses. We modeled kinetics of total CD4+ lymphocytes, as well as naive (CD45RA+ CD62L+), and memory (CD45RA- CD45RO+) subsets in 48 patients treated with AZT/3TC/Ritonavir for 48 weeks in ACTG protocol 315. Cell kinetic indices were estimated by nonlinear regression methods and were correlated with baseline factors and virologic responses. Five different kinetic patterns were identified, including biphasic growth, growth-plateau, growth-depletion, decay-recovery, and biphasic decay. Although overall mean lymphocyte responses showed a biphasic increase in cell number, a careful investigation reveals that only one-third of patients actually followed the biphasic growth pattern in CD4+ cell response, while 44% of 48 patients from this study followed the growth-depletion pattern. CD4+ cell recovery during the first phase and the 48-week study period were negatively correlated with baseline CD4+ cell counts, and positively correlated with baseline viral load. Memory CD4+ cell recovery during the first phase was also negatively correlated with baseline memory CD4+ and total CD4+ cell number, but the recovery rate of memory CD4+ cells during the second phase was positively correlated with baseline CD4+ cell number. Patients with a decay in CD4+ cell count during treatment were more likely to have experienced virological rebound (58%) than patients with nondecay patterns (24%). The rate and magnitude of the absolute increase in total CD4+ and memory CD4+ cell number (but not naive CD4+ cells) during the second phase were lower in patients with viral rebound compared with patients with persistent viral suppression. These results show that the kinetics of lymphocyte reconstitution in response to potent antiretroviral therapy in individual patients vary considerably from the "classic" biphasic increase that characterizes the mean or median response pattern. Pattern analysis of lymphocyte kinetics may be useful for testing relationships among factors that modulate the response to treatment.
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PMID:Multiple CD4+ cell kinetic patterns and their relationships with baseline factors and virological responses in HIV type 1 patients receiving highly active antiretroviral therapy. 1155 22

This paper summarises some of the oral adverse effects of antiretroviral agents. Some are related to bone marrow suppression which may also predispose to mouth ulcers. Erythema multiforme and toxic epidermal necrolysis are especially well recognized in HIV disease, particularly as reactions to sulphonamides and to antiretroviral agents. Oral lichenoid reactions have been described in HIV disease often relating to zidovudine use. Didanosine has also produced erythema multiforme and not unusually induces xerostomia, again by an unknown mechanism. Xerostomia may be seen in up to one-third of patients taking didanosine. Taste abnormalities are common with the protease inhibitors and oral and perioral paraesthesia can be a disturbing adverse effect. Ritonavir in particular can give rise to circumoral paraesthesia in over 25% of patients. Indinavir can also produce cheilitis.
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PMID:Orofacial effects of antiretroviral therapies. 1157 69

Ritonavir strongly inhibits cytochrome P450, thus altering the metabolism of other drugs. We report on an HIV-positive man who, on his 13th day of ritonavir therapy, developed severe ergotism after self-administration of low doses of ergotamine. Drug interactions, the degree of responsibility of the patient and the availability of over-the-counter medications must be considered when prescribing antiretroviral therapy.
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PMID:Clinical ergotism induced by ritonavir. 1172 55

Continually maintaining maximally suppressive drug concentrations represents a key defence against the emergence of resistance. If drug levels fall and replication occurs, the opportunity for mutant virus to be selected occurs. It has been increasingly recognized that variability in the pharmacokinetics of antiretrovirals, particularly protease inhibitors (PIs), means that drug exposure is not always optimal, giving the virus a chance to replicate. A significant number of patients receiving PIs two or three times daily will have trough (Ctrough or Cmin) plasma concentrations, which are close to, or below, the plasma protein binding-corrected inhibitory concentration (IC50 or IC95) during the dosing interval. It is primarily in this context that therapeutic drug monitoring of PIs has been proposed as an aid to patient management, to ensure that patients maintain adequate drug concentrations throughout the dosing interval. Ideally, an antiretroviral drug will have a pharmacokinetic (PK) profile that maintains drug levels well above the viral inhibitory concentration throughout the entire dosing interval. Beneficial drug-drug interactions have been shown to improve PI pharmacokinetics. Ritonavir (RTV) inhibits the key enzymes that limit the bioavailability or speed the metabolism of other PIs. It is therefore increasingly used for boosting and maintaining PI plasma concentrations. At low (100 mg twice a day) doses it acts as a pharmacoenhancer of indinavir (IDV), amprenavir, saquinavir, lopinavir and to a more limited degree nelfinavir. Using a pharmacoenhancer with a PI results in increased exposure to the PI, higher Cmin levels, and in most cases prolonged elimination half-lives. The long-term clinical benefits of PK enhancing are unknown as are the long-term toxicities, although the incidence of nephrolithiasis with IDV appears increased when IDV is combined with low-dose RTV in HIV-infected patients. Head-to-head clinical comparisons of boosted PI regimens will help answer some of the questions that remain with regard to PK enhancement.
HIV Med 2001 Apr
PMID:Principles and practice of HIV-protease inhibitor pharmacoenhancement. 1173 87

In the last five years, as HAART has become standard therapy in HIV seropositive or AIDS patients, changes have been noted in the numbers and types of opportunistic fungal infections in these cohorts of patients. Particularly, oropharyngeal candidiasis have become rare in HIV infected patients since the introduction of new anti-HIV drugs of the protease inhibitors type. At the Immunology Institute of the Universidad Central de Venezuela the most frequent protease inhibitors (PIs) used for the treatment of these patients have been: Nelfinavir (Viracept, Roche), Indinavir (Crixivan Merck), Ritonavir (Norvir, Abbott), Saquinavir (Fortovase, Roche). Recently, we observed that recurrent candidiasis was less frequent and no Candida could be isolated in our patients. A direct relation to the PIs was suspected. In order to assess the "in vitro" antifungal activity of the afore mentioned protease inhibitors on Candida sp., we used both the well diffusion test and the NCCLS broth microdilution test to assay 100 Candida sp. isolates from HIV seropositive or AIDS patients with syntomatic oropharyngeal Candida infection. In general, the data obtained with the well diffusion test were in agreement with those obtained by the broth microdilution test. All 100 isolates were susceptible to Saquinavir and 32 were susceptible to Indinavir using the NCCLS microdilution test, while 97 were susceptible to Saquinavir and 52 to Indinavir by the well diffusion test. From 17 C. albicans resistant to fluconazole, all were susceptible to Saquinavir by the NCCLS micromethod and 16 by the well diffusion test. Our results showed anticandidal activity "in vitro" of PIs, mainly Saquinavir.
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PMID:"In vitro" antifungal activity of protease inhibitors. 1181 41

Treatment of patients with human immunodeficiency virus (HIV) protease inhibitors such as ritonavir can result in increases in CD4(+) T-cell counts that are independent of a reduction in HIV-1 viral load. This lack of correlation between the 2 has led to the identification of additional effects of ritonavir that potentially alter HIV disease pathogenesis. Our previous studies indicated that ritonavir directly affects immune cell activation, proliferation, and susceptibility to apoptosis. We show here that ritonavir inhibited the activation and proliferation of primary endothelial cells and decreased the production of tumor necrosis factor alpha (TNF-alpha) interleukin 6 (IL-6), IL-8, and vascular endothelial growth factor, factors that all contribute to tumor neovascularization and to the development of Kaposi sarcoma (KS) lesions. Ritonavir also suppressed the expression of vascular cell adhesion molecule 1, intercellular adhesion molecule 1, and E-selectin, which correlated with a functional decrease in leukocyte adhesion. Transcriptional activation of nuclear factor-kappaB, as induced by the KS-promoting factor TNF-alpha, the HIV-1 Tat protein, or the human herpesvirus 8 protein ORF74, was inhibited by ritonavir. KS-derived cell lines underwent apoptosis in vitro after treatment with ritonavir at concentrations that are obtained in clinical therapy (3-15 microM). In a KS mouse xenotransplantation model, ritonavir inhibited tumor formation and progression by KS-derived cells. Taken together, these data suggest that ritonavir has antineoplastic effects that are independent from its ability to inhibit the HIV protease.
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PMID:Antitumorigenic effects of HIV protease inhibitor ritonavir: inhibition of Kaposi sarcoma. 1198 35


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