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Query: UMLS:C0019693 (
HIV
)
170,526
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
We designed, synthesized, and identified UIC-94017 (
TMC114
), a novel nonpeptidic human immunodeficiency virus type 1 (HIV-1) protease inhibitor (PI) containing a 3(R),3a(S),6a(R)-bis-tetrahydrofuranylurethane (bis-THF) and a sulfonamide isostere which is extremely potent against laboratory
HIV
-1 strains and primary clinical isolates (50% inhibitory concentration [IC(50)], approximately 0.003 micro M; IC(90), approximately 0.009 micro M) with minimal cytotoxicity (50% cytotoxic concentration for CD4(+) MT-2 cells, 74 micro M). UIC-94017 blocked the infectivity and replication of each of
HIV
-1(NL4-3) variants exposed to and selected for resistance to saquinavir, indinavir, nelfinavir, or ritonavir at concentrations up to 5 micro M (IC(50)s, 0.003 to 0.029 micro M), although it was less active against
HIV
-1(NL4-3) variants selected for resistance to amprenavir (IC(50), 0.22 micro M). UIC-94017 was also potent against multi-PI-resistant clinical
HIV
-1 variants isolated from patients who had no response to existing antiviral regimens after having received a variety of antiviral agents. Structural analyses revealed that the close contact of UIC-94017 with the main chains of the protease active-site amino acids (Asp-29 and Asp-30) is important for its potency and wide spectrum of activity against multi-PI-resistant
HIV
-1 variants. Considering the favorable pharmacokinetics of UIC-94017 when administered with ritonavir, the present data warrant that UIC-94017 be further developed as a potential therapeutic agent for the treatment of primary and multi-PI-resistant
HIV
-1 infections.
...
PMID:Novel bis-tetrahydrofuranylurethane-containing nonpeptidic protease inhibitor (PI) UIC-94017 (TMC114) with potent activity against multi-PI-resistant human immunodeficiency virus in vitro. 1450 19
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
TMC114
, a newly designed human immunodeficiency virus type 1 (HIV-1) protease inhibitor, is extremely potent against both wild-type (wt) and multidrug-resistant (MDR) viruses in vitro as well as in vivo. Although chemically similar to amprenavir (APV), the potency of
TMC114
is substantially greater. To examine the basis for this potency, we solved crystal structures of
TMC114
complexed with wt HIV-1 protease and
TMC114
and APV complexed with an MDR (L63P, V82T, and I84V) protease variant. In addition, we determined the corresponding binding thermodynamics by isothermal titration calorimetry.
TMC114
binds approximately 2 orders of magnitude more tightly to the wt enzyme (K(d) = 4.5 x 10(-12) M) than APV (K(d) = 3.9 x 10(-10) M). Our X-ray data (resolution ranging from 2.2 to 1.2 A) reveal strong interactions between the bis-tetrahydrofuranyl urethane moiety of
TMC114
and main-chain atoms of D29 and D30. These interactions appear largely responsible for
TMC114
's very favorable binding enthalpy to the wt protease (-12.1 kcal/mol). However,
TMC114
binding to the MDR HIV-1 protease is reduced by a factor of 13.3, whereas the APV binding constant is reduced only by a factor of 5.1. However, even with the reduction in binding affinity to the MDR
HIV
protease,
TMC114
still binds with an affinity that is more than 1.5 orders of magnitude tighter than the first-generation inhibitors. Both APV and
TMC114
fit predominantly within the substrate envelope, a property that may be associated with decreased susceptibility to drug-resistant mutations relative to that of first-generation inhibitors. Overall,
TMC114
's potency against MDR viruses is likely a combination of its extremely high affinity and close fit within the substrate envelope.
...
PMID:Structural and thermodynamic basis for the binding of TMC114, a next-generation human immunodeficiency virus type 1 protease inhibitor. 1547 40
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.
Curr
HIV
/AIDS Rep 2004 Jun
PMID:New antiretroviral agents for the treatment of HIV infection. 1609 Dec 27
[reaction: see text] Two short and efficient synthesis routes have been developed for bis-THF-alcohol 2, a key building block of the investigational
HIV
protease inhibitor
TMC114
(1). Using S-2,3-O-isopropylideneglyceraldehyde (4) as the source of chirality, both routes are based on a diastereoselective Michael addition of nitromethane to give predominantly the syn congeners 6 followed by a Nef oxidation and cyclization to afford lactone acetals 8, which are reduced and cyclized to give 2.
...
PMID:Stereoselective and efficient synthesis of (3R,3aS,6aR)-hexahydrofuro[2,3-b]furan-3-ol. 1635 99
New and potent drugs are urgently needed for the salvage therapy of
HIV
-infected patients. The protease inhibitors Tipranavir and
TMC114
, which have high potency against multidrug-resistant viral strains, are the most promising drugs for the near future. How important they will be in salvage therapy cannot be predicted at this time. New points of attack in the viral replication cycle have been defined. Substances belonging to the groups of integrase and maturation inhibitors are in the early stages of clinical development.
...
PMID:[New drugs--hope for salvage patients?]. 1638 71
Recent data from clinical trials investigating the efficacy of enfuvirtide, a fusion inhibitor, in treatment-experienced patients have revealed that the addition of enfuvirtide (ENF) to an active boosted protease inhibitor regimen doubles the rate of virological response. At week 48 of the TORO studies, 55% of patients previously naive to and receiving lopinavir/ritonavir (LPV/r) with ENF achieved a viral load of <400 copies/mL compared with 24% of patients treated with LPV/r alone. At week 24 of the RESIST studies, 70% of previously ENF-naive patients who took both ENF and tipranavir/ritonavir (TPV/r) achieved a >or=1 log10 reduction in viral load compared with 37% of such patients treated with TPV/r alone. Similarly, concomitant use of
TMC114
/ritonavir (
TMC114
/r) with ENF, compared with
TMC114
/r alone, increased the number of patients with <50 copies/mL from 46% to 64% in a combined 24-week analysis from the POWER trials. Data from these trials suggest that combining one agent from a new class with a new agent from a previously exposed class offers a greater chance of achieving full virological control than either type of agent alone. Undetectable viraemia should be the primary objective for treatment-experienced patients requiring a switch in therapy, and the present data support the combination of an active boosted protease inhibitor with an agent from a new class (e.g., ENF) for triple-class-experienced patients.
HIV
Clin Trials
PMID:Concomitant use of an active boosted protease inhibitor with enfuvirtide in treatment-experienced, HIV-infected individuals: recent data and consensus recommendations. 1679 23
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
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