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:2.7.7.49 (
reverse transcriptase
)
31,746
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Issues, such as complexity, tolerability, and drug resistance and cross-resistance, limit the effectiveness of current antiretroviral regimens and make the continued development of newer agents important, despite the availability of 20 approved drugs for the treatment of HIV infection. Many new compounds are in development in existing classes: nucleoside and nucleotide analogue
reverse transcriptase
inhibitors (eg, D-d4FC and SPD754), non-nucleoside analogue
reverse transcriptase
inhibitors (eg, capravirine and TMC125), and protease inhibitors (eg, tipranavir and
TMC114
). In addition, newer classes of antiretroviral drugs, such as HIV entry inhibitors (eg, TNX-355, SCH 417690, UK-427,857, AMD 11070), that target the first step in the HIV life cycle are under development. Continued improvement in the treatment of HIV infection will result from the availability of convenient, well-tolerated, and affordable drugs with potent and durable antiretroviral activity.
...
PMID:New Antiretroviral Agents for the Treatment of HIV Infection. 1526 63
The purpose of this study was to characterize the antiviral activity, cytotoxicity, and mechanism of action of
TMC114
, a novel human immunodeficiency virus type 1 (HIV-1) protease inhibitor (PI).
TMC114
exhibited potent anti-HIV activity with a 50% effective concentration (EC50) of 1 to 5 nM and a 90% effective concentration of 2.7 to 13 nM.
TMC114
exhibited no cytotoxicity at concentrations up to 100 muM (selectivity index, >20,000). All viruses in a panel of 19 recombinant clinical isolates carrying multiple protease mutations and demonstrating resistance to an average of five other PIs, were susceptible to
TMC114
, defined as a fold change in EC50 of <4.
TMC114
was also effective against the majority of 1,501 PI-resistant recombinant viruses derived from recent clinical samples, with EC50s of <10 nM for 75% of the samples. In sequential passage experiments using HIV-1 LAI, two mutations (R41T and K70E) were selected. One selected virus showed a 10-fold reduction in susceptibility to
TMC114
, but <10-fold reductions in susceptibility to the current PIs (atazanavir was not assessed), except saquinavir. However, when the selected mutations were introduced into a laboratory strain by site-directed mutagenesis, they had no effect on susceptibility to
TMC114
or other PIs. There was no evidence of antagonism between
TMC114
and any currently available PIs or
reverse transcriptase
inhibitors. Combinations with ritonavir, nelfinavir, and amprenavir showed some evidence of synergy. These results suggest that
TMC114
is a potential candidate for the treatment of both naive and PI-experienced patients with HIV.
...
PMID:TMC114, a novel human immunodeficiency virus type 1 protease inhibitor active against protease inhibitor-resistant viruses, including a broad range of clinical isolates. 1591 27
New treatment modalities for HIV infection in 2005 are based on the availability of new antiretrovirals and new strategies for their use. For
reverse transcriptase
inhibitors, abacavir/lamivudine and tenofovir/emtricitabine combinations minimize risks of mitochondrial toxicity and are now available as a single daily tablet. New protease inhibitors (PI) are boosted by ritonavir. Some that are already available (atazanavir, fosamprenavir) have good tolerance, resistance and dosing profiles. PIs in advanced stages of development (tipranavir and
TMC114
) specifically target strains with resistant mutations. Entry inhibitors affecting the CCR5 co-receptor are a new promising drug class. Enfuvirtide, a fusion inhibitor administered in subcutaneous injections, significantly improves the antiretroviral and immunologic response to antiretroviral regimens in patients with previous treatment failures. For successfully treated patients, simplification and treatment interruptions are sometimes possible. For non-responders, thorough virological-pharmacological assessment is necessary, together with access to new molecules and new drug classes.
...
PMID:[New antiretroviral treatment modalities]. 1602 64
Issues, such as complexity, tolerability, and drug resistance and cross-resistance, limit the effectiveness of current antiretroviral regimens and make the continued development of newer agents important, despite the availability of 20 approved drugs for the treatment of HIV infection. Many new compounds are in development in existing classes: nucleoside and nucleotide analogue
reverse transcriptase
inhibitors (eg, D-d4FC and SPD754), non-nucleoside analogue
reverse transcriptase
inhibitors (eg, capravirine and TMC125), and protease inhibitors (eg, tipranavir and
TMC114
). In addition, newer classes of antiretroviral drugs, such as HIV entry inhibitors (eg, TNX-355, SCH 417690, UK-427,857, AMD 11070), that target the first step in the HIV life cycle are under development. Continued improvement in the treatment of HIV infection will result from the availability of convenient, well-tolerated, and affordable drugs with potent and durable antiretroviral activity.
...
PMID:New antiretroviral agents for the treatment of HIV infection. 1609 Dec 27
Human immunodeficiency virus (HIV) infection affects close to 40 million individuals worldwide. Since 1981 when the first case reports of individuals dying from a then rare opportunistic infection were published, twenty million people have died from this epidemic. With 3 or more antiretrovirals as the standard of care, the prevalence of single, double and triple-class resistant HIV strains has increased significantly over the last 5 years due to the tremendous replicative capacity of HIV and selective drug pressure. With greater resistance comes the need for novel and effective antiretrovirals to treat these resistant strains. The purpose of this review is to highlight the most promising agents and classes in Phase II-III drug development by assessing the clinical efficacy, pharmacology, resistance and tolerability. Three out of the four existing antiretroviral classes (nucleosides, non-nucleosides, protease inhibitors) with agents in clinical trials will be discussed such as nucleoside
reverse transcriptase
inhibitors (D-d4FC, SPD754), non-nucleoside
reverse transcriptase
inhibitors (capravirine, TMC125) and protease inhibitors (tipranavir,
TMC114
). In the next several years, antiretrovirals from novel pharmacologic classes will enter the HIV armamentarium. Based on the early clinical studies, these promising agents will be reviewed from the following classes: attachment inhibitors (TNX-355, BMS-488043), CCR5 coreceptor antagonists (SCH-D, UK-427857, GW 873140) and a maturation inhibitor (PA-457). It is hoped that these agents will represent a therapeutic advance and better activity against HIV resistant strains by providing effective therapy that will reduce viral load, increase the CD4+ cell count and ultimately, prolong survival with minimal adverse effects.
...
PMID:On the horizon: promising investigational antiretroviral agents. 1651 88
Despite landmark achievements (e.g. >20 new anti-HIV drugs), a number of important therapeutic challenges remain. Although an expanding array of new drug discovery technologies has become available, drug research and development (R&D) productivity in general is still low. The establishment of close functional links between specialists active in early discovery, development and the clinic can thereby contribute to overall efficiency and higher success rates of new drug candidates. One of the more qualitative discovery challenges is to improve the predictability of early stage research models in term of in vivo drug efficacy. A cell-based model using viral replication in human T cells (MT-4) is used as an example from the HIV field to highlight the role of cell-based assays as tools for new target discovery, lead finding and optimization. The development of the next generation HIV non-nucleoside
reverse transcriptase
inhibitors (NNRTIs) TMC125 and TMC278 and the protease inhibitor (PI)
TMC114
(Prezista), further point to new fundamental strategies to combat and prevent antiviral drug resistance and to the importance of incorporating clinical and pharmaceutical aspects into lead finding and optimization, drug design and drug candidate selection. A more parallel-oriented drug discovery strategy is thus portrayed that harnesses some 'evolutionary' principles in combination with technologies that are currently rationalizing drug discovery.
...
PMID:Aspects of successful drug discovery and development. 1682 74
The XV International HIV Drug Resistance Workshop recorded advances in basic and clinical science of HIV resistance to antiretrovirals as well as new findings on resistance by hepatitis B virus (HBV) and hepatitis C virus (HCV). In the clinical arena, attendees learned of four cases of resistance to lopinavir/ritonavir monotherapy, correlation between low-frequency pretreatment mutations and failure of a first antiretroviral regimen, emergence of non-nucleoside-related mutations in 20% of patients interrupting a suppressive nonnucleoside regimen, and evolution of mutations conferring resistance to an HIV entry inhibitor that is being studied as a vaginal microbicide. New data reported from the POWER 1, 2 and 3 salvage trials suggested that there is a close correlation between darunavir (
TMC114
) phenotypic susceptibility, the number of baseline protease inhibitor-related resistance mutations and virological response. Scientists exploring the mechanisms of resistance reported of mutations in the carboxy-terminal domain of
reverse transcriptase
that may further resistance to zidovudine, novel mutations that may contribute to resistance of both nucleoside and non-nucleoside
reverse transcriptase
inhibitors, and a mechanism that HCV and HIV may share to resist antiviral therapy.
...
PMID:Key reports from the XV International HIV Drug Resistance Workshop 2006. 1750 58
Antiretroviral drug combinations that include two nucleoside
reverse transcriptase
inhibitors and a protease inhibitor (PI) can suppress HIV replication to undetectable levels, improving the prognosis of HIV-infected individuals. The aim of therapy is complete virological suppression, with a current goal of <50 copies/mL HIV-1 RNA, in order to minimize the occurrence of drug resistance. Improved understanding of the pharmacology of PIs, primarily the importance of adequate drug exposure, has led to the widespread administration of PIs combined with a low 'boosting' dose of ritonavir. The combination of PIs with ritonavir can improve treatment responses in both treatment-naive and -experienced patients. Boosted PIs are an important therapeutic option for HIV and extensive data exist supporting their use. Use of individual agents should be guided by a resistance test at all stages of treatment from naive through to highly treatment-experienced patients. Currently, seven boosted PIs have both US and European licensing approval: indinavir, saquinavir, lopinavir, fosamprenavir, atazanavir, tipranavir and darunavir (formerly
TMC114
). The preferred first-line option in the USA is lopinavir. Many of the older PIs are less effective and/or have less favourable tolerability profiles. Emergent PI resistance is a major challenge in treatment, and it can be accelerated by partial suppression of viral load through inappropriate therapy combinations. Using the newer boosted PIs, which have more robust resistance profiles, with an optimized background regimen may increase the likelihood of complete viral suppression. This review discusses the relative strengths and weaknesses of boosted PIs in current practice.
...
PMID:Overview of boosted protease inhibitors in treatment-experienced HIV-infected patients. 1789 Feb 81
