UMLS:C0019693 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Target Concepts:

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

Raltegravir, a first-in-class, oral HIV type-1 (HIV-1) integrase inhibitor, blocks the covalent integration of HIV-1 complementary DNA into the host genome. In a large, randomized, double-blind, multinational, ongoing trial in treatment-naive patients with HIV-1 infection, raltegravir 400 mg twice daily was noninferior to efavirenz 600 mg once daily in achieving plasma HIV-1 RNA viral levels of <50 copies/mL after 48 weeks' treatment (primary endpoint), when used as part of an antiretroviral therapy (ART) combination regimen. The time to achieve a virological response was significantly shorter in the raltegravir group than in the efavirenz group. Furthermore, significantly more raltegravir than efavirenz recipients achieved HIV-1 RNA viral levels of <50 copies/mL at weeks 2-16. The efficacy of raltegravir in achieving HIV-1 RNA levels of <50 copies/mL was also demonstrated in subgroups of patients separated according to baseline viral levels, CD4+ cell counts and viral subtypes. Preliminary evidence suggests that both virological and CD4+ cell count improvements were maintained at 96 weeks for treatment-naive recipients of raltegravir 400 mg twice daily. As part of an ART combination regimen, raltegravir treatment was generally well tolerated and was associated with significantly fewer drug-related adverse events than efavirenz treatment. Moreover, after 96 weeks, raltegravir treatment was associated with a significantly lower impact on serum lipid levels than efavirenz treatment.
...
PMID:Raltegravir: in treatment-naive patients with HIV-1 infection. 2032 8

Hyperlipidemia associated with the HIV protease inhibitor (PI), the major component of highly active antiretroviral treatment (HAART) for HIV infection, has stimulated interest in developing new agents that minimize these side effects in the clinic. HIV integrase inhibitor is a new class of anti-HIV agents. Raltegravir is a first-in-its-class oral integrase inhibitor and has potent inhibitory activity against HIV-1 strains that are resistant to other antiretroviral regimens. Our previous studies have demonstrated that HIV PI-induced endoplasmic reticulum (ER) stress links to dysregulation of lipid metabolism. However, little information is available as to whether raltegravir would have similar effects as the HIV PIs. In this study, we examined the effect of raltegravir on lipid metabolism both in primary rat hepatocytes and in in vivo mouse models, and we further determined whether the combination of raltegravir with existing HIV PIs would potentially exacerbate or prevent the previously observed development of dyslipidemia. The results indicated that raltegravir did not induce ER stress or disrupt lipid metabolism either in vitro or in vivo. However, HIV PI-induced ER stress and lipid accumulation were significantly inhibited by raltegravir both in in vitro primary rat hepatocytes and in in vivo mouse liver. High-performance liquid chromatography analysis further demonstrated that raltegravir did not affect the uptake and metabolism of HIV PIs in hepatocytes. Thus, raltegravir has less hepatic toxicity and could prevent HIV PI-induced dysregulation of lipid metabolism by inhibiting ER stress. These results suggest that incorporation of this HIV integrase inhibitor may reduce the side effects associated with current HAART.
...
PMID:Prevention of HIV protease inhibitor-induced dysregulation of hepatic lipid metabolism by raltegravir via endoplasmic reticulum stress signaling pathways. 2047 67

Raltegravir resistance is conferred by mutations at integrase codons 143, 148, and 155 together with associated secondary mutations. The N155H mutants emerge first, and are eventually replaced by Q148H mutants, usually in combination with G140S. These mutations have different effects on susceptibility and replication capacity, but data on the relative fitness of RAL-resistant viruses are limited. To understand the impact of the different RAL resistance pathways on viral fitness, mutations at integrase codons 74, 92, 138, 140, 148, 155, and/or 163 were introduced into HIV-1NL4-3 by site-directed mutagenesis and expressed in recombinant viruses. Relative fitness and drug susceptibility were determined in the absence or presence of RAL. In the absence of drug, RAL-resistant mutants were less fit than wild type, and the Q148H mutant was significantly less fit than the N155H mutant. Fitness was partially restored by the presence of additional RAL resistance mutations at positions G140S and E92Q or E138K, respectively. In the presence of RAL, the N155H mutant remained fitter than the Q148H mutant, but the G140S/Q148H double mutant was fitter than single mutants or the E92Q/N155H double mutant. These findings correspond well with the clinical trials data and help explain the temporal pattern of RAL resistance evolution.
...
PMID:Effect of raltegravir resistance mutations in HIV-1 integrase on viral fitness. 2063 1

Raltegravir was the first HIV-1 integrase inhibitor that gained FDA approval for use in the treatment of HIV-1 infection. Because of the emergence of IN inhibitor-resistant viral strains, there is a need to identify innovative second-generation IN inhibitors. Previously, we identified 2-thioxo-4-thiazolidinone (rhodanine)-containing compounds as IN inhibitors. Herein, we report the design, synthesis and docking studies of a series of novel rhodanine derivatives as IN inhibitors. All these compounds were further tested against human apurinic/apyrimidinic endonuclease 1 (APE1) to determine their selectivity. Two compounds showed significant cytotoxicity in a panel of human cancer cell lines. Taken together, our results show that rhodanines are a promising class of compounds for developing drugs with antiviral and anticancer properties.
...
PMID:Design, synthesis and structure-activity studies of rhodanine derivatives as HIV-1 integrase inhibitors. 2065 19

In spite of significant progress in anti-HIV-1 therapy, current antiviral chemo-therapy still suffers from deleterious side effects and emerging drug resistance. Therefore, the development of novel antiviral drugs remains a crucial issue for the fight against AIDS. HIV-1 integrase is a key enzyme in the replication cycle of the retrovirus since it catalyzes the integration of the reverse transcribed viral DNA into the chromosomal DNA. Efforts to develop anti-integrase drugs started during the early nineties, culminating with the recent approval of Raltegravir. The discovery and the development of the styrylquinoline inhibitor class was an important step in the overall process. In this review we have described the key synthetic issues and the structure-activity relationship of this family of integrase inhibitors. Crystallographic and docking studies that shed light on their mechanism of action are also examined.
...
PMID:Chemistry and structure-activity relationship of the styrylquinoline-type HIV integrase inhibitors. 2065 64

Novel antiretroviral drugs offer different degrees of improvement in activity against drug-resistant HIV, short- and long-term tolerability, and dosing convenience compared with earlier drugs. Those drugs approved more recently and commonly used in treatment-experienced patients include the entry inhibitor enfuvirtide, protease inhibitors (PIs) [darunavir and tipranavir], a C-C chemokine receptor (CCR) type 5 antagonist (maraviroc), an integrase inhibitor (raltegravir) and etravirine, a non-nucleoside reverse transcriptase inhibitor (NNRTI). Novel agents in earlier stages of development include a CCR5 monoclonal antibody (PRO 140) administered subcutaneously once weekly, once-daily integrase inhibitors (elvitegravir and S/GSK1349572), and several nucleoside (nucleotide) reverse transcriptase inhibitors and NNRTIs. Bevirimat, a maturation inhibitor, has compromised activity in the presence of relatively common Gag polymorphisms. Viral suppression is necessary to control the evolution of drug resistance, reduce chronic immune activation that probably underlies the excess morbidity and mortality in HIV-infected patients, and reduce viral transmission, including transmitted drug resistance. In general, the proportion of viraemic patients who achieve suppression increases with the number of active pharmacokinetically compatible antiretroviral drugs in the regimen. In the ANRS139-TRIO trial, 86% of highly treatment-experienced patients treated with darunavir-ritonavir, etravirine and raltegravir had HIV RNA <50 copies/mL at 48 weeks. In patients who had received at least 12 weeks of a stable regimen and had no darunavir resistance-associated mutations, once-daily darunavir boosted with ritonavir 100 mg was virologically noninferior with better lipid effects than with the twice-daily dosing, which requires a 200 mg total daily dose of ritonavir. Raltegravir plus a boosted PI is being investigated for second-line therapy in patients not responding to NNRTI-based first-line treatment in resource-limited settings (RLS). However, concerns about this potential strategy include the low barrier against resistance of raltegravir, limited penetration of some PIs into the CNS and the unknown impact of integrase polymorphisms seen more commonly in non-B subtype HIV-1. In patients who have already achieved viral suppression, novel agents may be used to simplify the dosing schedule, lower costs (such as by switching to boosted PI monotherapy), reduce adverse events or preserve antiretroviral drug options, especially since the absence of an HIV eradication strategy implies the need for life-long combination antiretroviral therapy. Switching enfuvirtide to raltegravir eliminated painful injection-site reactions without compromising virological suppression. Two studies found different virological outcomes when patients were switched from lopinavir/ritonavir to raltegravir, but there was an improvement in the lipid profile. Simplifying to darunavir-ritonavir monotherapy after suppression of plasma HIV RNA to <50 copies/mL has been found to be safe with no emergence of resistance in cases of viral rebound, but longer-term data are needed. The initial suggestion that maraviroc may possess unique CD4+ T-cell boosting effects was not confirmed in several clinical trials. Improved understanding of HIV pathogenesis has opened new frontiers for research such as identifying the sources, consequences and optimal management of residual viraemia in those with plasma HIV RNA <50 copies/mL. Globally, however, one of the most urgent priorities is providing the increasing number of treatment-experienced virologically failing patients in RLS with access to optimal treatment, including those treatments based on novel antiretroviral agents.
...
PMID:Novel antiretroviral combinations in treatment-experienced patients with HIV infection: rationale and results. 2073 72

Raltegravir is an FDA approved inhibitor directed against human immunodeficiency virus type 1 (HIV-1) integrase (IN). In this study, we investigated the mechanisms associated with multiple strand transfer inhibitors capable of inhibiting concerted integration by HIV-1 IN. The results show raltegravir, elvitegravir, MK-2048, RDS 1997, and RDS 2197 all appear to encompass a common inhibitory mechanism by modifying IN-viral DNA interactions. These structurally different inhibitors bind to and inactivate the synaptic complex, an intermediate in the concerted integration pathway in vitro. The inhibitors physically trap the synaptic complex, thereby preventing target DNA binding and thus concerted integration. The efficiency of a particular inhibitor to trap the synaptic complex observed on native agarose gels correlated with its potency for inhibiting the concerted integration reaction, defined by IC(50) values for each inhibitor. At low nanomolar concentrations (<50 nM), raltegravir displayed a time-dependent inhibition of concerted integration, a property associated with slow-binding inhibitors. Studies of raltegravir-resistant IN mutants N155H and Q148H without inhibitors demonstrated that their capacity to assemble the synaptic complex and promote concerted integration was similar to their reported virus replication capacities. The concerted integration activity of Q148H showed a higher cross-resistance to raltegravir than observed with N155H, providing evidence as to why the Q148H pathway with secondary mutations is the predominant pathway upon prolonged treatment. Notably, MK-2048 is equally potent against wild-type IN and raltegravir-resistant IN mutant N155H, suggesting this inhibitor may bind similarly within their drug-binding pockets.
...
PMID:Physical trapping of HIV-1 synaptic complex by different structural classes of integrase strand transfer inhibitors. 2079 22

Raltegravir is an HIV-1 integrase strand transfer inhibitor with potent activity against HIV-1. A prior investigation of raltegravir coadministered with rifampin demonstrated a decrease in plasma concentrations of raltegravir likely secondary to induction of UGT1A1, the enzyme primarily responsible for the metabolism of raltegravir. Little is known regarding the induction of UGT1A1 by rifabutin, an alternate rifamycin. In vitro characterization of the induction potency of rifampin and rifabutin on UGT1A1 was performed. In vitro studies indicate that rifabutin is a less potent inducer of UGT1A1 messenger RNA expression than is rifampin. A fixed-sequence, 2-period, clinical crossover study was conducted to assess the effect of rifabutin on plasma levels of raltegravir: period 1, 400 mg of raltegravir every 12 hours for 4 days; period 2, 400 mg of raltegravir every 12 hours and 300 mg of rifabutin once daily for 14 days. Geometric mean ratio (GMR) (coadministration of rifabutin and raltegravir vs raltegravir alone) of raltegravir area under the concentration-time curve from 0 to 12 hours post dose (AUC(0-12h)) and the 90% confidence interval (CI) was 1.19 (0.86-1.63); GMR of concentration at 12 hours (C(12h)) and 90% CI was 0.80 (0.68-0.94); and GMR of time to maximal concentration (C(max)) and 90% CI was 1.39 (0.87-2.21). Overall, coadministration of rifabutin did not alter raltegravir pharmacokinetics to a clinically meaningful degree.
...
PMID:Lack of a clinically meaningful pharmacokinetic effect of rifabutin on raltegravir: in vitro/in vivo correlation. 2085 6

Agents active against HIV type 1 (HIV-1) that target the viral integrase by inhibiting the strand transfer step of integration have now entered the clinical arena. Raltegravir is the first in this new class. Clinical trials in treatment-experienced and in treatment-naive patients have shown that raltegravir-containing regimens have potent antiretroviral activity and are well tolerated. Drug resistance emerges relatively frequently in patients who fail therapy and is associated with mutations in the gene encoding the integrase enzyme. Although such mutations often confer cross-resistance to other integrase inhibitors, newer agents in development, such as S/GSK1349572, show promise as potential second-generation integrase inhibitors. Given their potency, safety and novel mechanism of action, integrase inhibitors represent an important advance in HIV-1 therapy.
...
PMID:Integrase inhibitors in the treatment of HIV-1 infection. 2085 68

HIV-1 integrase (IN), one of the essential enzymes in HIV infection, has been validated as a target for HIV treatment. While more than 20 drugs have been approved by the FDA to treat HIV/AIDS, only one drug, Raltegravir (1), was approved as an IN inhibitor. The rapid mutation of the virus, which leads to multidrug resistant HIV strains, presents an urgent need to find potent compounds that can serve as second-generation IN inhibitors. The pyrazolone scaffold, predicted by a computational modeling study using GS-9137(2) as a pharmacophoric model, has shown to inhibit the IN catalytic activities in low micromolar range. We have synthesized various analogs based on the pyrazolone scaffold and performed SAR studies. This paper will showcase the up-to-date result of this scaffold as a promising HIV-1 IN inhibitor.
...
PMID:Development of the next generation of HIV-1 integrase inhibitors: pyrazolone as a novel inhibitor scaffold. 2086 43

<< Previous 1 2 3 4 5 6 7 8 9 10 Next >>