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)

Patients who cannot construct a viable antiretroviral regimen with approved drugs will now have easier access to tenofovir, a drug that is currently experimental but may be approved in about six months. Tenofovir is significant because it appears to maintain its antiretroviral activity, with resistant HIV developing relatively slowly.
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PMID:Tenofovir: Gilead applies for approval; expanded access liberalized. 1156 59

The introduction of newer and more potent agents has diverted attention away from the importance of nucleoside analogue reverse transcriptase inhibitors (NRTIs) in modern antiretroviral drug regimens. As a class, these proviral chain terminators lack the virological potency of either non-nucleoside reverse transcriptase inhibitor (NNRTI) or protease inhibitor (PI) drugs, due largely to their competitive mode of inhibition and requirement for metabolic activation. However, neither NNRTIs nor PIs alone can maintain the complete suppression of HIV replication required for extended therapy, and both suffer from serious class cross-resistance on therapeutic failure. Thus, the NRTIs will remain essential components of highly active antiretroviral therapy (HAART) for the foreseeable future, both for their contribution to a regimen's virological potency and the subsequent preservation of the more potent drug classes used with them. However, it has become apparent in recent years that the current NRTIs exhibit duration-dependent adverse events as a class, which may limit the length of time for which they can be safely used. An independent contribution to peripheral fat wasting in lipodystrophy syndrome has been established for the use of NRTI drugs. Of greater clinical concern is their established association with potentially fatal lactic acidaemia and hepatic steatosis. Both these class events, as well as several individual drug events, such as peripheral; neuropathy, can be linked to progressive mitochondrial destruction with a greater or lesser degree of confidence. Mitochondrial toxicity, due in large part to the high affinity of several NRTI agents for uptake by mitochondrial DNA polymerase gamma, has been demonstrated both in vitro and in vivo. New chain-terminating agents are urgently needed that address issues of improved virological potency, greater efficacy in NRTI-experienced individuals, and greater long-term safety. The nucleotide class of reverse transcriptase inhibitor (NtRTI), currently under clinical development, addresses improved potency by abbreviating the intracellular activation pathway to allow a more rapid and complete conversion to the active agent. These nucleoside monophosphate analogues are taken as masked prodrugs bearing labile lipophilic groups to facilitate penetration of target cell membranes. Subsequent unmasking by endogenous chemolytic enzymes releases a partially activated nucleoside analogue metabolite. The NtRTI furthest along the developmental process is tenofovir disoproxil fumarate (TDF), an orally available acyclic adenine phosphonate analogue, currently in Phase III clinical trials. This agent has shown high potency and an unusually durable response in trials of single-agent therapy intensification in highly treatment-experienced individuals, and its active metabolite, tenofovir diphosphate, exhibits a long intracellular half-life in both resting and activated peripheral blood mononuclear cells that permits once daily dosing. Tenofovir diphosphate also exhibits a very low affinity for DNA polymerase gamma in vitro, suggesting a low degree of in vivo mitochondrial toxicity may be observed on long-term follow-up, although clinical data to support this inference are not yet available. The introduction of TDF and other NtRTIs as 'second-generation' nucleoside analogues carefully evaluated for potential long-term toxicity, can be expected to significantly improve the therapeutic options for both those currently on HAART and those yet to begin.
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PMID:An introduction to nucleoside and nucleotide analogues. 1167 69

Tenofovir disoproxil fumarate (DF) is an adenosine analogue with significant activity against HIV-1. Hydroxyurea decreases the intracellular concentrations of deoxyadenosine triphosphate, the active metabolite of adenosine. We therefore tested the hypothesis that hydroxyurea could enhance the anti-HIV activity of low-dose tenofovir in vivo. Eight patients received tenofovir DF, 75 mg, plus hydroxyurea, 500 mg bid, for 28 days. Changes in plasma HIV RNA levels were compared with a previously studied cohort of patients treated with tenofovir DF, 75 mg once daily ( n = 8), or tenofovir placebo ( n = 12). The median change in HIV RNA levels after 28 days of continuous treatment was -0.01 log(10) copies/ml for tenofovir placebo, -0.33 log(10) copies/ml for tenofovir 75 mg once daily, and -0.22 log(10) copies RNA/ml for tenofovir plus hydroxyurea. The difference between placebo and tenofovir-treated groups was significant ( p <.05); however, the difference between the tenofovir and tenofovir plus hydroxyurea groups was not significant ( p =.90). We conclude that hydroxyurea does not significantly enhance the antiviral activity of low-dose tenofovir.
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PMID:Hydroxyurea does not enhance the anti-HIV activity of low-dose tenofovir disoproxil fumarate. 1170 69

Advice from the Food & Drug Administration and the European Medicines Commission indicates that tenofovir is likely to be licensed shortly for use in patients failing antiretroviral therapy as part of a regimen constructed by the clinician. Tenofovir is a nucleotide (NtRTI) that acts in a similar way to nucleoside analogues by inhibiting reverse transcriptase, producing similar HIV plasma viral load fall. In use up to 48 weeks it appears to be safe without evident toxicity. It has particular value because it has activity against many HIV viruses with mutations which render them insensitive to other nucleoside analogues. Its eventual optimal role in treatment, particularly whether it should be part of a first line regimen, awaits the outcome of further studies.
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PMID:The potential place of tenofovir in antiretroviral treatment regimens. 1177 98

Drug-associated dysfunction of mitochondria is believed to play a role in the etiology of the various adverse symptoms that occur in human immunodeficiency virus (HIV)-infected patients treated with the nucleoside reverse transcriptase inhibitors (NRTIs). Tenofovir, a nucleotide analog recently approved for use in the treatment of HIV infection, was evaluated in vitro for its potential to cause mitochondrial toxicity and was compared to currently used NRTIs. Treatment with tenofovir (3 to 300 microM) for up to 3 weeks produced no significant changes in mitochondrial DNA (mtDNA) levels in human hepatoblastoma (HepG2) cells, skeletal muscle cells (SkMCs), or renal proximal tubule epithelial cells. The potencies of inhibition of mtDNA synthesis by the NRTIs tested were zalcitabine (ddC) > didanosine (ddI) > stavudine > zidovudine (ZDV) > lamivudine = abacavir = tenofovir, with comparable relative effects in the three cell types. Unlike ddC and ddI, tenofovir did not affect cellular expression of COX II and COX IV, two components of the mitochondrial cytochrome c oxidase complex. Lactate production was elevated by less than 20% in HepG2 cells or SkMCs following treatment with 300 microM tenofovir. In contrast, lactate synthesis increased by >200% in the presence of 300 microM ZDV. Thus, treatment of various human cell types with tenofovir at concentrations that greatly exceed those required for it both to have in vitro anti-HIV type 1 activity in peripheral blood mononuclear cells (50% effective concentration, 0.2 microM) and to achieve therapeutically relevant levels in plasma (maximum concentrations in plasma, 0.8 to 1.3 microM) is not associated with mitochondrial toxicity.
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PMID:Assessment of mitochondrial toxicity in human cells treated with tenofovir: comparison with other nucleoside reverse transcriptase inhibitors. 1185 Feb 53

Clinical studies with tenofovir disoproxil fumarate, an oral prodrug of the nucleotide analog tenofovir, recently approved for the treatment of HIV, have demonstrated antiviral activity and good tolerability in HIV-infected patients. In order to better understand the cytotoxicity profile of tenofovir relative to the other nucleoside reverse transcriptase inhibitors (NRTIs), the in vitro effects of these agents were evaluated in various human cell types. Tenofovir inhibited the proliferation of liver-derived HepG2 cells and normal skeletal muscle cells with CC(50) values of 398 and 870 microM, respectively. In comparison, ZDV, ddC, ddI, d4T, and abacavir all showed lower CC(50) values in these two cell types. Evaluation of hematopoietic toxicity revealed that tenofovir was less cytotoxic towards erythroid progenitor cells (CC(50)>200 microM) than ZDV, d4T, and ddC (CC(50)=0.06-5 microM). Despite some degree of donor-to-donor variability, the inhibitory activity of the tested NRTIs against myeloid cell lineage, in the order of decreasing severity, was consistently ddC>ZDV>d4T>tenofovir>3TC. Finally, tenofovir showed substantially weaker effects on proliferation and viability of renal proximal tubule epithelial cells than cidofovir, a related nucleotide analog with the potential to induce renal tubular dysfunction. In conclusion, tenofovir exhibited weak cytotoxic effects in all cell types tested with less in vitro cytotoxicity than the majority of NRTIs currently used for the treatment of HIV disease.
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PMID:Tenofovir exhibits low cytotoxicity in various human cell types: comparison with other nucleoside reverse transcriptase inhibitors. 1188 56

Tenofovir is a nucleotide analogue human immunodeficiency virus type 1 (HIV-1) reverse transcriptase (RT) inhibitor, and its oral prodrug, tenofovir disoproxil fumarate, has recently been approved for the treatment of HIV-1 infection in the United States. The objective of this study was to characterize the in vitro susceptibility profiles of a large panel of clinically derived HIV-1 isolates for tenofovir. The distribution of tenofovir susceptibilities in over 1,000 antiretroviral-naive, HIV-1-infected individuals worldwide was determined using the Virco Antivirogram assay. In addition, phenotypic susceptibilities to tenofovir and other RT inhibitors were determined in a panel of nearly 5,000 recombinant HIV-1 clinical isolates from predominantly treatment-experienced patients analyzed as a part of routine drug resistance testing. Greater than 97.5% of isolates from treatment-naive patients had tenofovir susceptibilities <3-fold above those of the wild-type controls by the Antivirogram. The clinically derived panel of 5,000 samples exhibited a broad range of antiretroviral drug susceptibilities, including 69, 43, and 16% having >10-fold-decreased susceptibilities to at least one, two, and three antiretroviral drug classes, respectively. Greater than 88% of these 5,000 clinical isolates were within the threefold susceptibility range for tenofovir, and >99% exhibited <10-fold-reduced susceptibilities to tenofovir. Decreased susceptibility to tenofovir was not directly associated with resistance to other RT inhibitors; r(2) values of log-log linear regression plots of susceptibility to tenofovir versus susceptibility to other RT inhibitors were <0.4. The results suggest that the majority of treatment-naive and treatment-experienced individuals harbor HIV that remains within the normal range of tenofovir susceptibilities and may be susceptible to tenofovir disoproxil fumarate therapy.
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PMID:Phenotypic susceptibilities to tenofovir in a large panel of clinically derived human immunodeficiency virus type 1 isolates. 1189 91

It is widely believed that a Th1 type CD4 response is critical for enhancement of CD8 immunity and for controlling HIV-1 infection. Th2 type responses, such as what might be seen in a chronic parasitic infection, would sacrifice cellular immunity and thus benefit the virus at the expense of the host. However, there has been little direct examination of the hypothesis in a primate model system. Accordingly, the simian immunodeficiency virus (SIV) infected rhesus macaque model was used to investigate the impact of immunisation with SIV expressing DNA constructs and co-injection with IL-4 on the SIV specific immunological responses, lymphocyte cell counts, as well as the impact on viral load. IL-4 is a Th2 type cytokine, which enhances antibody production and inhibits a CD4 Th1 phenotype. Rhesus macaques were infected with 10 AID50 of SIVmac239 and treated with 9-[2-(phosphonomethoxy)propyl]adenine (PMPA) 9 weeks post-infection. During PMPA treatment, animals were immunised with plasmids that expressed the SIV proteins, env, rev, gag and pol. In addition, they were immunised with a construct that encoded the gene for IL-4. IL-4 co-immunisation increased the neutralizing antibody titres in this group. Importantly, the viral loads in animals vaccinated with IL-4 expressing plasmid increased during the immunisation regimens despite the higher neutralizing antibody titres. In addition, neutralizing antibodies did not correlate with viral set point prior to PMPA treatment, however, there was a correlation between viral loads and antibody titres following the treatment with PMPA. Antibody titres decreased following the suppression of viral load. Importantly, vaccination in the absence of IL-4 protected CD4 levels without increasing viral load. The data support the hypothesis that inappropriate immune bias toward a Th2 pathway would ultimately enhance disease progression.
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PMID:IL-4 increases Simian immunodeficiency virus replication despite enhanced SIV immune responses in infected rhesus macaques. 1194 27

Recently there have been good and bad news from the anti-HIV drug development front. First the good news, the Food and Drug Administration (FDA) recently approved tenofovir (Viread) for the treatment of HIV disease. This is welcome news for people who need a new drug to put together a second or third line regimen and may even be an important new choice for first line therapy. Additionally, a long awaited expanded access program for the fusion inhibitor T-20 (pentafuside) has been announced. The bad news is that the program is so small that it will provide drug to only 168 people in the United States, in the first stage of the program. This will be gradually increased as more drug becomes available but a wider expanded program is still a long way off.
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PMID:Anti-HIV therapy update. 1203 1

One area of anti-HIV therapy research that has been inadequately addressed is strategies around third line therapy regimens. As a result, there is only a modest amount of data to guide physicians and patients in making treatment decisions in this setting. Third line therapy is usually defined as a regiment for an individual who has developed resistance to at least one drug in all three classes of anti-HIV therapies [nucleoside analogue reverse transcriptase inhibitors (NRTIs), non-nucleoside reverse transcriptase inhibitors (NNRTIs) and protease inhibitors] or has failed two treatment regimens. In general, the nucleotide analogue drug, tenofovir (Viread) can be considered an NRTI as it shares some of the same resistance patterns. However, just because someone has developed resistance to some drug in all three classes of anti-HIV drugs does not mean that they have no further treatment options. This article will review some of the options available to people exploring third line regimen choices.
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PMID:Strategies for third line therapy. 1203 3


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