Jennifer P. Mewshaw scite author profile

To study retroviral gene transfer to airway epithelia, we used a transient transfection technique to generate high titers (∼109 infectious units/ml after concentration) of murine leukemia virus (MuLV)-derived vectors pseudotyped with the vesicular stomatitis virus envelope glycoprotein (VSV-G). Transformed (CFT1) and primary airway epithelial cells were efficiently transduced by a VSV-G-pseudotyped lacZ vector (HIT-LZ) in vitro. CFT1 cells and primary cystic fibrosis (CF) airway cell monolayers infected with a vector (HIT-LCFSN) containing human CF transmembrane conductance regulator (CFTR) in the absence of selection expressed CFTR, as assessed by Western blot analysis, and exhibited functional correction of CFTR-mediated Cl− secretion. In vitro studies of persistence suggested that pseudotransduction was not a significant problem with our vector preparations. In a sulfur dioxide (SO2) inhalational injury model, bromodeoxyuridine (BrdU) incorporation rates were measured and found to exceed 50% in SO2-injured murine tracheal epithelium. HIT-LZ vector (multiplicity of infection of ∼10) instilled into the SO2-injured tracheas of anesthetized mice transduced 6.1% ± 1.3% of superficial airway cells in tracheas of weanling mice (3 to 4 weeks old; n = 10), compared to 1.4 ± 0.9% in mice 5 weeks of age (n = 4) and 0.2% in mice older than 6 weeks (n = 15). No evidence for gene transfer following delivery of HIT-LZ to tracheas of either weanling or older mice not injured with SO2 was detected. Because only a small fraction of BrdU-labeled airway cells were transduced, we examined the stability of the vector. No significant loss of vector infectivity over intervals (2 h) paralleling those of in vivo protocols was detected in in vitro assays using CFT1 cells. In summary, high-titer vectors permitted complementation of defective CFTR-mediated Cl− transport in CF airway cells in vitro without selection and demonstrated that the age of the animal appeared to be a major factor affecting in vivo retroviral transduction efficiency.

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Dioxolane Guanosine, the Active Form of the Prodrug Diaminopurine Dioxolane, Is a Potent Inhibitor of Drug-Resistant HIV-1 Isolates From Patients for Whom Standard Nucleoside Therapy Fails

Mewshaw

Myrick

Wakefield

et al. 2002

JAIDS Journal of Acquired Immune Deficiency Syndromes

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Amdoxovir ([-]-beta-D-2,6-diaminopurine dioxolane [DAPD]) is a nucleoside reverse transcriptase inhibitor (NRTI) with activity against HIV-1. DAPD is deaminated in vivo by adenosine deaminase to (-)-beta-D-dioxolane guanosine (DXG), a highly active anti-HIV compound. The median 50% effective concentrations (EC 50 ) +/- SD (representing antiviral activity against a laboratory-derived HIV-1 isolate) for DAPD and DXG in peripheral blood mononuclear cells were 4.0 +/- 2.2 micromol/L and 0.25 +/- 0.17 micromol/L, respectively. The 50% cytotoxic dose (CC 50 ) of both DAPD and DXG was >500 micromol/L. Recombinant viruses and clinical isolates of HIV-1 from patients for whom NRTI therapy and/or nonnucleoside reverse transcriptase inhibitor (NNRTI) combination therapies failed remained susceptible to inhibition by DXG (less than fourfold change in EC 50). Similar analysis showed that recombinant viruses harboring mutations known to confer resistance to NRTIs (zidovudine, lamivudine, and abacavir) and NNRTIs (efavirenz and nevirapine) as well as the multidrug resistance-associated mutation Q151M and double codon insertions (SS and SG) were also susceptible to inhibition by DXG. Resistance to DXG was observed only in recombinant isolates containing the 65R and 151M double mutations. Phenotypic analysis of a site-directed mutant containing only the 151M mutation demonstrated moderate resistance to DXG (<10-fold change in EC 50). We also examined site-directed mutants containing only L74V or K65R, the characteristic resistance mutations for DXG. The L74V mutant remained susceptible to inhibition by DXG, and the K65R mutant demonstrated moderate resistance to DXG.

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