UMLS:C0019693 - FACTA Search

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Query: UMLS:C0019693 (HIV)
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The stability of dideoxynucleoside-type anti-HIV drugs in solution when in contact with hairless rat skin was investigated in order to study the feasibility of their transdermal delivery. The freshly excised dorsal region of hairless rat skin was mounted on Valia-Chien skin permeation cells, and both epidermis (donor) and dermis (receptor) were extracted with isotonic phosphate buffer (pH 7.4) at 37 degrees C for 24 h. Zalcitabine (DDC), didanosine (DDI), and zidovudine (AZT) were found to be stable in the extract of the epidermis at 37 degrees C for at least 30 h. However, DDC and DDI degraded in the extract of the dermis following first-order kinetics at both 25 and 37 degrees C, while AZT was stable at 37 degrees C for at least 30 h. The degradation mechanism(s) of DDC and DDI was (were) studied by analyzing HPLC chromatograms and by evaluating the drug stability in the extract which was filtered to remove any microbes. An unidentified peak produced by DDC in the dermis extract did not appear when the drug was added to the filtered extract, which suggested a bacterial degradation of DDC. On the other hand, DDI was unstable even in the filtered extract and produced a degradation product which corresponded to hypoxanthine, which suggested that a cutaneous enzyme is also involved in the degradation of DDI. DDC was stabilized by the addition of 0.01% (w/v) of an antibacterial agent, such as thimerosal or gentamicin, in the receptor solution, while DDI was stabilized by 0.01% (w/v) purine nucleoside phosphorylase inhibitor, i.e., p-chloromercuribenzoic acid. These results show the importance of stability studies when designing skin permeation experiments using hairless rat since compounds with similar chemical structures can have different stability profiles when in contact with hairless rat skin.
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PMID:Transdermal delivery of dideoxynucleoside-type anti-HIV drugs. 1. Stability studies for hairless rat skin permeation. 853 82

The effects of vehicles and enhancers on the skin permeation of the dideoxynucleoside-type anti-HIV drugs Zalcitabine (DDC), Didanosine (DDI), and Zidovudine (AZT) were studied using hairless rat skin at 37 degrees C. After each drug was saturated in various volume fractions of ethanol (EtOH)/water or EtOH/tricaprylin (TCP) cosolvent system for 48 h at 37 degrees C, an in vitro skin permeation study was conducted using Valia-Chien permeation cells for 30 h. The skin permeation rates of DDC, DDI, and AZT from both EtOH/water and EtOH/TCP cosolvent systems increased as the volume fraction of ethanol was increased, reached maximum values at 50-60% (v/v) of ethanol, and then decreased with further increase of ethanol volume fraction. The EtOH/water cosolvent system seems to enhance the skin permeation of these drugs by increasing both the solubility of drug in the vehicles and partitioning of drug into the skin. The skin permeation enhancing effect of EtOH/TCP seems to be solely due to the increase in partitioning of drug into the skin. Addition of 1.0% (v/v) of permeation enhancers, such as oleic acid (OA) and N-methyl-2-pyrrolidone (NMP), in the EtOH/TCP (50:50) cosolvent system could not significantly increase the permeation rate of these drugs. Incorporation of viscous TCP into ethanol probably reduced the thermodynamic activity of enhancers to distribute from the vehicle to the skin. However, incorporation of 1.0% (v/v) of OA in the EtOH/water (60:40) cosolvent system dramatically enhanced the skin permeation of these drugs while reducing the lag time. The permeation rates of these drugs increased as OA concentration was increased up to 0.3% (v/v) in the EtOH/water (60:40) cosolvent system and reached a plateau with further addition of OA. Using a saturated solution in the EtOH/water (60:40) cosolvent system containing 1.0% (v/v) OA, DDC, and AZT reached the target permeation rate required to maintain a therapeutic system level across hairless rat skin. Although only DDC reached the target permeation rate across human cadaver skin, these results suggest that the mutual enhancement effect of ethanol and OA may make transdermal delivery of dideoxynucleoside-type anti-HIV drugs feasible.
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PMID:Transdermal delivery of dideoxynucleoside-type anti-HIV drugs. 2. The effect of vehicle and enhancer on skin permeation. 868 51

Zidovudine (AZT), didanosine (ddI) and zalcitabine (ddC) are the reference antiretroviral therapy in patients with AIDS. A toxic mitochondrial myopathy can be observed in patients treated with AZT, but not with ddI and ddC. All 3 compounds can inhibit mitochondrial (mt)DNA polymerase and cause termination of synthesis of growing mtDNA strands and mtDNA depletion. The propensity to injure particular target tissues is unexplained. In our work, cultured muscle cells prepared from human muscle biopsies, were exposed to various concentrations of AZT (4-5000 micromol/l), ddI (5-1000 micromol/l) and ddC (1-1000 micromol/l) for 10 days. We evaluated cell proliferation and differentiation and measured lipid droplet accumulation, lactate production and respiratory chain enzyme activities. All 3 compounds induced a dose-related decrease of cell proliferation and differentiation. AZT seemed to be the most potent inhibitor of cell proliferation. AZT, ddI and ddC induced cytoplasmic lipid droplet accumulations, increased lactate production and decreased activities of COX (complex IV) and SDH (part of complex II). NADHR (complex I) and citrate sinthase activities were unchanged. Zalcitabine (ddC) and, to a lesser extent, ddI, were the most potent inhibitors of mitochondrial function. In conclusion, AZT, ddI and ddC all exert cytotoxic effects on human muscle cells and induce functional alterations of mitochondria possibly due to mechanisms other than the sole mtDNA depletion. Our results provide only a partial explanation of the fact that AZT, but not ddI and ddC, can induce a myopathy in HIV-infected patients. AZT myopathy might not simply result from a direct mitochondrial toxic effect of crude AZT.
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PMID:Cellular and mitochondrial toxicity of zidovudine (AZT), didanosine (ddI) and zalcitabine (ddC) on cultured human muscle cells. 916 61

Zalcitabine is a dideoxynucleoside antiretroviral agent that is phosphorylated to the active metabolite 2',3'-dideoxycytidine 5'-triphosphate (ddCTP) within both uninfected and HIV-infected cells. At therapeutic concentrations, ddCTP inhibits HIV replication by inhibiting the enzyme reverse transcriptase and terminating elongation of the proviral DNA chain. The results of 3 large pivotal trials comparing zidovudine monotherapy with combination therapy have now clearly established that zalcitabine plus zidovudine combination with an improvement in viral load and CD4+ cell count compared with zidovudine monotherapy. More recently, clinical end-point and surrogate marker data have established the efficacy of zalcitabine in combination with the protease inhibitor saquinavir in zidovudine-experienced patients. Other studies have demonstrated the utility of zalcitabine in combination with ritonavir and the nucleoside analogue lamivudine. Importantly, early use of zalcitabine in the treatment sequence does not appear to limit the therapeutic efficacy of subsequent therapy with other nucleoside analogues such as lamivudine. Peripheral neuropathy is the most frequent dose-limiting adverse effect associated with zalcitabine therapy and is generally reversible on discontinuation of treatment. Stomatitis and mouth ulcers may occur frequently with zalcitabine therapy but tend to resolve with continuing treatment. Haematological toxicity, which is a common adverse effect associated with zidovudine, is reported infrequently with zalcitabine. Overall, combination therapy with zalcitabine plus zidovudine or saquinavir has been shown to have a tolerability profile comparable to that of either agent alone, although treatment with zidovudine plus zalcitabine was associated with a significant increase in the incidence of haematological toxicity compared with zidovudine monotherapy in one study. Therefore, current data suggest that zalcitabine is a useful antiretroviral agent for inclusion as a component of initial double combination therapy with zidovudine or as part of triple combination therapy including zidovudine plus a protease inhibitor in the management of patients with HIV infection.
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PMID:Zalcitabine. An update of its pharmacodynamic and pharmacokinetic properties and clinical efficacy in the management of HIV infection. 917 31

Our objective was to determine the effect of pregnancy, mode of administration and neonatal age on the pharmacokinetics of the anti-HIV drug zalcitabine (2',3'-dideoxycytidine; ddC) in the pigtailed macaque (Macaca nemestrina). Zalcitabine was administered as an i.v. bolus dose to pregnant dams (n = 3) at term and at 6 weeks post-partum. No significant differences were found between the pre- and post-partum systemic plasma clearance, steady-state volume of distribution or terminal plasma half-life of zalcitabine, indicating that pregnancy does not affect the pharmacokinetics of the drug in the macaque. The observed maternal plasma, fetal plasma and amniotic fluid concentration-time profiles were compared with profiles that were simulated using pharmacokinetic parameter estimates obtained in an earlier constant i.v. infusion study in pregnant macaques. The fetal:maternal ratio of the area under the simulated zalcitabine plasma concentration-time profile after an i.v. bolus dose (0.58) was close to the earlier observed fetal:maternal steady-state plasma concentration ratio after i.v. infusion of the drug (0.58 +/- 0.05). The excellent agreement between observed and simulated fetal:maternal ratio of zalcitabine demonstrates that the steady-state infusion experimental design can be used to estimate the drug exposure to the fetus after a single dose. To determine the influence of age on the pharmacokinetics of zalcitabine, the drug was administered as a single i.v. bolus dose to four infant macaques serially at the ages of 1-2 weeks, 1 month and 4 months. The systemic plasma clearance of zalcitabine was significantly smaller and the terminal plasma half-life significantly longer at age 1-2 weeks than at 1 and 4 months of age. If replicated in humans, these substantial age-dependent changes in the pharmacokinetics of zalcitabine would warrant smaller and less frequent dosing with zalcitabine in HIV-infected neonates than in older children and adults.
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PMID:Effect of pregnancy, mode of administration and neonatal age on the pharmacokinetics of zalcitabine (2', 3'-dideoxycytidine) in the pigtailed macaque (Macaca nemestrina). 942 17

Resistance usually manifests following long-term dideoxynucleoside therapy of HIV-1 infection. This period appears to coincide with reduced dosage regimens. Resistance that is associated with long-term monotherapy may, in part, be due to decreased intracellular drug concentrations. It has been reported that intracellular uptake of the dideoxynucleosides is enhanced by dipyridamole. Hence, dipyridamole may potentially be used to optimize the effects of zalcitabine in HIV-1 antiretroviral "cocktail". The purpose of this study was to characterize the pharmacokinetics of zalcitabine when administered alone and concomitantly with dipyridamole. Also, we determined, indirectly, whether dipyridamole modulated the intracellular uptake of zalcitabine. Rats were intravenously administered either zalcitabine 100 mg/kg alone or with dipyridamole 15 mg/kg. Except renal clearance (CIR), there were no statistically significant differences in the pharmacokinetic parameters including the steady-state volume of distribution and distribution coefficient. Zalcitabine plasma concentrations declined rapidly in a bi-exponential fashion, with a terminal half-life of 1.03 +/- 0.18 hr. alone versus 1.08 +/- 0.22 hr. with dipyridamole. The area under the concentration-time curve was not significantly different with or without dipyridamole. ClR, was 1.42 +/- 0.37 l/hr./kg for zalcitabine alone versus 1.09 +/- 0.28 l/hr./kg with dipyridamole. Our single dose study show that zalcitabine disposition kinetics were not significantly modulated by dipyridamole.
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PMID:Lack of pharmacokinetic interaction between dipyridamole and zalcitabine in rats. 944 37

In a set of 42 antiretroviral naive HIV-1 infected persons who were treated with either Zidovudine (AZT) monotherapy, or a combination of AZT + ddC (Zalcitabine) or AZT + ddI (Didanosine), the HIV-1 DNA load was measured by competitive polymerase chain reaction (PCR) and related to the HIV-1 RNA load in plasma, the CD4+ counts and to clinical markers. The question was whether a reduction in the cellular HIV-1 DNA level contributes to clinical benefit, as predicted by a lasting response in HIV-1 RNA levels in plasma. No significant decline relative to baseline in HIV-1 DNA load was found in the AZT monotherapy arm. In this arm the differences from baseline for both HIV-1 RNA load and CD4+ T cell counts were small and transient. In both combination therapy arms, the maximum mean decline in HIV-1 DNA load was 0.6 log and it never differed significantly from baseline. This is in contrast to plasma HIV-1 RNA load that declined earlier and steeper (mean of 1.5 and 1.9 log for AZT + ddC and AZT + ddI, respectively) and that remained significantly below baseline for 80 weeks. Although 9 of 42 (32%) of the patients under combination therapy had prolonged decreased plasma RNA levels, the proviral HIV-1 DNA remained present in the cells throughout the total follow-up of 144 weeks. In conclusion, combination therapy showed better laboratory parameter responses than AZT monotherapy, in agreement with the clinical data. The HIV-1 DNA sequences did not disappear in any of the patients, heralding renewed active infection after cessation of therapy.
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PMID:Cellular proviral HIV type 1 DNA load persists after long-term RT-inhibitor therapy in HIV type 1 infected persons. 971 20

2',3'-Dideoxycytidine (ddC) and azidothymidine (AZT) inhibit HIV-1 replication and currently are used in AIDS therapy. Long-term use of the drugs is associated with the selection of drug-resistant HIV strains, thus limiting their effectiveness. Another mechanism, associated with their altered metabolism in host cells, also can cause "cellular" drug resistance. Human lymphocytic H9 cell lines (H9-ddC0.5w and H9-ddC5.0w) selected for ddC resistance by exposure to 0.5 and 5.0 microM ddC were found to be cross-resistant to AZT. Compared with controls, the thymidine kinase (TK) activities in H9-ddC0.5w and H9-ddC5.0w cells were 56.7 and 51.4% (with thymidine as a substrate) and 50.3 and 42% (with AZT as a substrate). Consequently the cellular incorporation of AZT and thymidine (24-hr incubation) also was reduced to 51.3 and 70.0% in H9-ddC0.5w cells and to 12.1 and 17.3% in H9-ddC5.0w cells. A 3-hr incubation with 25 microM AZT and ddC decreased their cellular incorporation to 50.5 and 76.15% in H9-ddC0.5w cells and to 12.95 and 47.8% in H9-ddC5.0w cells compared with H9 cells. Thus, the change in AZT accumulation did not correlate exactly with the decrease in TK activity and far exceeded the effect on ddC accumulation. Evidence is presented that ddC, in addition to deoxycytidine kinase, affected TK1 activity. The involvement of multidrug resistance proteins in the mechanism of the resistance was ruled out by the failure of trifluoperazine and verapamil to alter cellular accumulations of AZT, ddC, daunorubicin, and rhodamine-123. Development of cellular ddC and AZT cross-resistance may affect the therapeutic efficacy of these antiviral agents.
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PMID:Cross-resistance of dideoxycytidine-resistant cell lines to azidothymidine. 1053 51

Dideoxynucleosides currently in use for anti-HIV therapy have been found to be inefficient in passing through the blood-brain barrier to enter and maintain therapeutic drug levels in brain, a very significant reservoir of HIV. The low bioavailability of these drugs combined with the bone marrow toxicity of AZT (3'-azido, 3'-deoxythymidine, Zidovudine), resulting in anemia and leukopenia, pancreatitis with ddI (2',3'-dideoxyinosine, Didanosine) and painful peripheral neuropathy in case of ddC (2',3-dideoxycytosine, Zalcitabine) are the limiting factors in their use. In addition, the emergence of strains of HIV resistant to AZT, the most commonly used drug, further restricts its use. Thus the control of AIDS and its complications, needs special therapeutic approaches to combat the disease. In order to overcome these limitations, AZT and ddI have been synthesized as ester-linked ceramide- and phosphatidylcholine-linked prodrugs possessing therapeutic attributes lacking in the parent compounds. There is greater uptake and longer retention of these prodrugs in NIH/3T3 cells in vitro. Pretreatment with our prodrugs blocked infection of these cells by Moloney murine leukemia virus (M-MuLV) for an extended period, which the parent drugs failed to do. When human CD4+ HeLa cells were continuously exposed to the AZT prodrug, subsequent infection of these cells by HIV was blocked. Similar results were obtained with NIH/3T3 cells exposed to M-MuLV. AE(6)C, a prodrug of AZT linked to ceramide via a cleavable ester bond and a six carbon linker, was less toxic to both mouse and human bone marrow progenitor cells than free AZT. Most significantly, the prodrugs concentration was greater and the retention longer, in well known sanctuaries for HIV, such as the brain, testes and thymus.
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PMID:Improved uptake and retention of lipophilic prodrug to improve treatment of HIV. 1083 73

The Quattro Trial compared the use of four HIV-1 reverse transcriptase (RT) inhibitors (zidovudine, lamivudine, loviride and zalcitabine), given either as four-drug combination therapy or monotherapy, with 8-week cycles of each drug, with zidovudine/lamivudine dual therapy. Observations of resistance associated and other mutations in the RT gene were made to determine whether therapy failure could be explained by acquisition of these mutations and whether novel mutation patterns developed. As in the intent-to-treat analysis, the use of cyclical monotherapy gave a smaller reduction in plasma virus load at 64 weeks (0.4 log10 copies/ml below baseline) than the quadruple or dual therapy arms (1.3 and 0.8 log10 copies/ml below baseline). Cyclical therapy appeared to generate less genotypic resistance to zidovudine, loviride or zalcitabine than the other arms. Resistance to lamivudine (mutation M184V) developed rapidly in all three arms. Resistance to zidovudine was acquired by a larger proportion of subjects on dual therapy than on quadruple therapy. Resistance to loviride or zalcitabine was rarely observed. During lamivudine monotherapy the M184V mutation was rapidly acquired and viral load rebounded. Zalcitabine monotherapy initially selected M184V mutants, but these were lost as therapy continued. Novel mutations that may have been associated with combination or cyclical quadruple therapy were observed infrequently. There was no clear correlation between changes in response to therapy and the development of previously described resistance mutations or with novel mutations in the RT gene.
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PMID:Observations of HIV-1 genotypic drug resistance in a trial of four reverse transcriptase inhibitors (Quattro Trial). 1200 83

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