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)

New technologies for rapid detection and drug susceptibility testing of mycobacteria are needed in clinical laboratories in order to attempt a rapid diagnosis and effective treatment of tuberculosis (TB) specially of cases resistant to isoniazid (H) and rifampin (RMP) (MDR-TB). A total of 218 pulmonary specimens from 132 HIV coinfected patients were processed and inoculated into the Mycobacterial Growth Indicator Tube system (MGIT, Becton Dickinson, MD) and on Lowenstein-Jensen (L-J) and Stonebrink (SB) solid media. The average time for recovering Mycobacterium tuberculosis (MTB) from MGIT was 18.3 days and 31.0 days from solid media. Of the patients 14.4% (19/132) were only diagnosed by MGIT. In another experiment susceptibility tests by the classical proportion method (PM) in L-J medium with H, RMP, streptomycin (SM), para-aminosalycilic-acid and ethambutol (EMB) were carried out on 120 isolates. The results were later compared with those obtained by determining the minimal inhibitory concentration (MIC) for each drug in MGIT against the above mentioned isolates. MIC results from MGIT method were available in an average of 5 days (3-10) and they correlated (correlation index 0.9974) with those of drug susceptibility obtained by the PM. A 4.7% (2/42) of disagreement among detecting isolates resistant to H and SM was found between PM and MGIT. Our results showed MGIT as a useful, safe and timesaving culture system, specially for detecting TB resistance. It might be used in clinical laboratories to improve the proper management of TB patients.
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PMID:[Rapid diagnosis and susceptibility of Mycobacterium tuberculosis to antibiotics using MGIT system]. 995 36

We examined whether human immunodeficiency virus type 1 (HIV-1) fitness was altered upon the acquisition of a set or subset of five mutations (A62V, V75I, F77L, F116Y, and Q151M) in the pol gene, which confers resistance to multiple dideoxynucleosides (MDR), as well as the zidovudine resistance-associated mutation T215Y, using a competitive HIV-1 replication assay in a setting of an HXB2D genetic background. Target H9 cells were exposed to a 50:50 mixture of paired infectious molecular clones, and HIV-1 in the culture supernatant was transmitted to new cultures every 7 to 10 days. The polymerase-encoding region of the virus was sequenced at various time points, and the relative proportion of the two viral populations was determined. In the absence of drugs, the comparative order for replicative fitness was HIV-162/75/77/116/151 > HIV-177/116/151 > HIV-1151 > wild-type HIV-1 (HIV-1wt) > HIV-175/77/116/151 > HIV-1151/215 > HIV-1215. In the presence of zidovudine or didanosine, the order was HIV-162/75/77/116/151 > HIV-177/116/151 > HIV-175/77/116/151 > HIV-1151 > HIV-1215. HIV-1215S(TCC), a putative intermediate infectious clone for HIV-1215, replicated comparably to HIV-1wt, while two putative intermediates for HIV-1151 [HIV-1151L(CTG) and HIV-1151K(AAG)] replicated much less efficiently than HIV-1wt and HIV-1151, suggesting that for HIV-1151 to develop, two base substitutions are likely to occur concurrently or within a short interval. These data may illustrate the molecular basis by which HIV-1151 emerges much less frequently than HIV-1215. The present data also demonstrate that several MDR HIV-1 variants are more fit than HIV-1wt in the absence of drugs and that resistance-associated mutations and drug pressure are critical variates for HIV-1 fitness.
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PMID:Comparative fitness of multi-dideoxynucleoside-resistant human immunodeficiency virus type 1 (HIV-1) in an In vitro competitive HIV-1 replication assay. 1036 82

We treated in our unit 25 patients (15M--10F) affected by pulmonary tuberculosis (TB) with rifabutin (RBT). Chronic liver disease, multidrug-resistant TB and HIV infection were featuring the clinical history of our selected patients. The treatment was carried out using a 150 mg/day dose of RBT, or 300 mg/day in case of MDR (multiple-drug-resistance)-TB or chronic TB. Rifabutin, isoniazid, ethambutol, and a fourth anti-mycobacterium drug were used when treating MDR-TB. Chest X-ray, haematological and bacteriological tests were performed on a monthly basis during the patients' follow up. No side effects were observed; only in two cases, both females, leukopenia occurred, but was not such a reason to modify our treatment plan. As a matter of fact, RBT is well tolerated by patients and it is particularly effective in bacterial eradication. In our experience, RBT did not provide the expected results only in one patient, affected by chronic TB.
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PMID:[The tolerability and therapeutic efficacy of rifabutin in the treatment of pulmonary tuberculosis]. 1038 May 52

The novel thiourea compound N-[2-(2,5-dimethoxyphenylethyl)]-N'-[2-(5-bromopyridyl)]-thi ourea (HI-236) targeting the non-nucleoside inhibitor (NNI) binding pocket of HIV-1 reverse transcriptase (RT) was rationally designed using a computer model of the NNI binding pocket. The NNI binding pocket model takes into consideration changes in binding pocket size, shape, and changes in residue character that result from clinically-observed NNI resistance-associated mutations of HIV RT. RT assays revealed that HI-236 was not only more potent than trovirdine, MKC-442, and AZT against the drug-sensitive HIV-1 strain HTLV(IIIB), it was also 50-100 times more effective than delavirdine or nevirapine and twice as effective as our recently reported lead compound N-[2-(2-fluorophenethyl)]-N'-[2-(5-bromopyridyl)]-thiourea (HI-240) against the NNI-resistant Y181C mutant HIV-1 strain A17. Most importantly, HI-236 was highly effective against the multidrug-resistant HIV-1 strain RT-MDR with multiple mutations involving the RT residues 74V, 41L, 106A, and 215Y. The activity of HI-236 against RT-MDR was superior to that of other anti-HIV agents tested, which are listed in the following order: HI-236 (IC50: 5 nM) > HI-240 (IC50: 6 nM) > trovirdine (IC50: 20 nM) > AZT (IC50: 150 nM) > MKC-442 (IC50: 300 nM) > delavirdine (IC50: 400 nM) > nevirapine (IC50: 5 microM).
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PMID:Rational design of N-[2-(2,5-dimethoxyphenylethyl)]-N'-[2-(5-bromopyridyl)]-thiourea (HI-236) as a potent non-nucleoside inhibitor of drug-resistant human immunodeficiency virus. 1038 42

Drug-resistant tuberculosis (TB) originally is the product of inadequate therapy; this may entail noncompliance with treatment, interrupted drug supplies, or inappropriate prescription. Patients may sequentially acquire resistance to several drugs through repetition of this process. Loss of activity of the major drugs greatly compromises the treatment process; most problematic is resistance to both isoniazid and rifampicin, so-called 'multidrug-resistant tuberculosis' (MDR-TB). Recent evidence indicates that MDR-TB is being transmitted to others, and particularly to persons with HIV infection/AIDS. Other situations in which epidemic spread of MDR-TB occurs include hospitals and prisons. In several areas of the world, ominous levels of MDR-TB have been identified in a recent WHO survey. Treatment of MDR-TB entails the use of poorly tolerated, second-line medications that are often toxic, and the duration of treatment must be extended to the range of two years. Resectional surgery may be required to effect cures in patients with advanced disease in which most of the first-line agents have been lost to resistance.
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PMID:Management of multidrug-resistant tuberculosis. 1044 92

We have replaced the pyridyl ring of trovirdine with an alicyclic cyclohexenyl, adamantyl or cis-myrtanyl ring. Only the cyclohexenyl-containing thiourea compound N-[2-(1-cyclohexenyl)ethyl]-N'-[2-(5-bromopyridyl)]- thiourea (HI-346) (as well as its chlorine-substituted derivative N-[2-(1-cyclohexenyl)ethyl]-N'-[2-(5-chloropyridyl)]- thiourea/HI-445) showed RT inhibitory activity. HI-346 and HI-445 effectively inhibited recombinant RT with better IC50 values than other anti-HIV agents tested. The ranking order of efficacy in cell-free RT inhibition assays was: HI-346 (IC50 = 0.4 microM) > HI-445 (IC50 = 0.5 microM) > trovirdine (IC50 = 0.8 microM) > MKC-442 (IC5 = 0.8 microM) = delavirdine (IC50 = 1.5 microM) > nevirapine (IC50 = 23 microM). In accord with this data, both compounds inhibited the replication of the drug-sensitive HIV-1 strain HTLV(IIIB) with better IC50 values than other anti-HIV agents tested. The ranking order of efficacy in cellular HIV-1 inhibition assays was: HI-445 = HI-346 (IC50 = 3 nM) > MKC-442 (IC50 = 4 nM) = AZT (IC50 = 4 nM) > trovirdine (IC50 = 7 nM) > delavirdine (IC50 = 9 nM) > nevirapine (IC50 = 34 nM). Surprisingly, the lead compounds HI-346 and HI-445 were 3-times more effective against the multidrug resistant HIV-1 strain RT-MDR with a V106A mutation (as well as additional mutations involving the RT residues 74V,41L, and 215Y) than they were against HTLV(IIIB) with wild-type RT. HI-346 and HI-445 were 20-times more potent than trovirdine, 200-times more potent than AZT, 300-times more potent than MKC-442, 400-times more potent than delavirdine, and 5000-times more potent than nevirapine against the multidrug resistant HIV-1 strain RT-MDR. HI-445 was also tested against the RT Y181C mutant A17 strain of HIV-1 and found to be >7-fold more effective than trovirdine and >1,400-fold more effective than nevirapine or delavirdine. Similarly, both HI-346 and HI-445 were more effective than trovirdine, nevirapine, and delavirdine against the problematic NNI-resistant HIV-1 strain A17-variant with both Y181C and K103N mutations in RT, although their activity was markedly reduced against this strain. Neither compound exhibited significant cytotoxicity at effective concentrations (CC50 >100 microM). These findings establish the lead compounds HI-346 and HI-445 as potent inhibitors of drug-sensitive as well as multidrug-resistant stains of HIV-1.
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PMID:N-[2-(1-cyclohexenyl)ethyl]-N'-[2-(5-bromopyridyl)]-thiourea and N'-[2-(1-cyclohexenyl)ethyl]-N'-[2-(5-chloropyridyl)]-thiourea as potent inhibitors of multidrug-resistant human immunodeficiency virus-1. 1050 23

A computer model of reverse transcriptase (RT) from human immunodeficiency virus type 1 (HIV-1) was used to design thiourea compounds that were predicted to inhibit RT. The RT model was used to approximate how changes in binding pocket shape, volume and chemical properties resulting from residue mutations would affect inhibitor binding. Our lead compound, N-[2-(2,5-dimethoxyphenylethyl)]-N'-[2-(5-bromopyridyl)]-thi ourea (HI-236) was tested against clinically observed non-nucleoside inhibitor (NNI)-resistant mutated strains of HIV. HI-236 was more potent than trovirdine, MKC-442 and zidovudine against the drug-sensitive HIV-1 strain IIIB, 50-100 times more effective than delavirdine or nevirapine and twice as effective as our recently reported lead compound N-[2-(2-fluorophenethyl)]-N'-[2-(5-bromopyridyl)]-thiourea (HI-240) against the NNI-resistant Y181C mutant HIV-1 strain A17. HI-236 was highly effective against the multidrug-resistant HIV-1 strain RT-MDR containing multiple mutations involving the RT residues 74V, 41L, 106A and 215Y. In general, thiourea compounds such as HI-236 and HI-240 showed better inhibition of drug-resistant strains of HIV-1 than thioalkylbenzyl-pyrimidine compounds such as HI-280 and HI-281. The improved activity of thioureas against RT mutants is consistent with a structural analysis of the NNI binding pocket model of RT. The activity of HI-236 against RT-MDR was superior to that of other anti-HIV agents tested, in the following order, from high to low activity; HI-236 (IC50 5 nM), HI-240 (IC50 6 nM), trovirdine (IC50 20 nM), zidovudine (IC50 150 nM), MKC-442 (IC50 300 nM), delavirdine (IC50 400 nM) and nevirapine (IC50 5 microM).
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PMID:Structure-based design of non-nucleoside reverse transcriptase inhibitors of drug-resistant human immunodeficiency virus. 1057 78

The thiophene-ethyl thiourea (TET) compound N'-[2-(2-thiophene)ethyl]-N'-[2-(5-bromopyridyl)]-thiourea (compound HI-443) was five times more potent than trovirdine, 1250 times more potent than nevirapine, 100 times more potent than delavirdine, 75 times more potent than MKC-442, and 50 times more potent than AZT against the multidrug resistant HIV-1 strain RT-MDR with a V106A mutation. HI-443 was almost as potent against the NNI-resistant HIV-1 strain A17 with a Y181C mutation as it was against HTLV(IIIB). The activity of HI-443 against A17 was ten times more potent than that of trovirdine, 2083 times more potent than that of nevirapine, and 1042 times more potent than that of delavirdine. HI-443 inhibited the replication of the NNI-resistant HIV-1 strain A17 variant with Y181C plus K103N mutations in RT with an IC50 value of 3.3 microM, whereas the IC50 values of trovirdine, nevirapine, and delavirdine were all >100 microM. These findings establish the novel thiophene containing thiourea compound HI-443 as a novel NNI with potent antiviral activity against NNI-sensitive, NNI-resistant and multidrug-resistant strains of HIV-1.
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PMID:N'-[2-(2-thiophene)ethyl]-N'-[2-(5-bromopyridyl)] thiourea as a potent inhibitor of NNI-resistant and multidrug-resistant human immunodeficiency virus-1. 1061 82

The composite non-nucleoside reverse transcriptase inhibitor (NNRTI) binding pocket model was used to study a number of thiourea analogues with different substitutions at the 4-phenyl position including N-[2-(4-methylphenyl)ethyl]-N'-[2-(5-bromopyridyl)]-thiourea (compound HI-244), which inhibited recombinant RT better than trovirdine or compound HI-275 with an unsubstituted phenyl ring. HI-244 effectively inhibited the replication of HIV-1 strain HTLV(IIIB) in human peripheral blood mononuclear cells with an IC50 value of 0.007 microM, which is equal to the IC50 value of trovirdine. Notably, HI-244 was 20 times more effective than trovirdine against the multidrug-resistant HIV-1 strain RT-MDR with a V106A mutation (as well as additional mutations involving the RT residues 74V, 41L and 215Y) and seven times more potent than trovirdine against the NNRTI-resistant HIV-1 strain A17 with a Y181C mutation.
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PMID:N-[2-(4-methylphenyl)ethyl]-N'-[2-(5-bromopyridyl)]-thiourea as a potent inhibitor of NNRTI-resistant and multidrug-resistant human immunodeficiency virus type 1. 1081 37

Most human immunodeficiency virus type 1 (HIV-1) infections are acquired via mucosal surfaces, and transmitted viruses are nearly always macrophage-tropic, suggesting that mucosal macrophages participate in early HIV-1 infection. Mucosal lymphocytes isolated from normal human intestine expressed CD4 (14,530+/-7970 antibody-binding sites [ABSs]/cell), CCR5 (2730+/-1524 ABSs/cell), and CXCR4 (2507+/-1840 ABSs/cell), but intestinal macrophages, which also expressed CD4 (2959+/-2695 ABSs/cell), displayed no detectable CCR5 or CXCR4 ABS. The absence of CCR5 on intestinal macrophages was not due to expression of the Delta32 deletion allele because matched-blood monocytes expressed CCR5. CCR5(+)CXCR4(+) intestinal lymphocytes supported both R5 (BaL) and X4 (IIIB) HIV-1 replication, whereas the CCR5(-)CXCR4(-) macrophages were not permissive to either isolate or other laboratory isolates (ADA and DJV) and primary isolates (MDR 24 and JOEL). In the intestinal mucosa, lymphocytes, not macrophages, are the likely target cell for R5 (and X4) HIV-1 and are the major source of HIV-1 production during early infection.
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PMID:Lamina propria lymphocytes, not macrophages, express CCR5 and CXCR4 and are the likely target cell for human immunodeficiency virus type 1 in the intestinal mucosa. 1095 Jul 72


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