Maribavir sensitivity of cytomegalovirus isolates resistant to ganciclovir, cidofovir or foscarnet.

BACKGROUND: The cytomegalovirus (CMV) UL97 inhibitor drug maribavir (MBV) is undergoing clinical antiviral trials. OBJECTIVES: To assess the MBV sensitivity of CMV strains and isolates containing mutations that confer resistance to current antiviral drugs ganciclovir, cidofovir or foscarnet. STUDY DESIGN: Resistant clinical isolates and laboratory strains containing UL97 and or UL54 DNA polymerase mutations were tested for sensitivity to all four drugs by standard plaque reduction assay and a reporter-based yield reduction assay. Sensitive control strains were also tested. RESULTS: Eleven CMV strains or isolates resistant to GCV, four resistant to FOS and two resistant to CDV, were all sensitive to MBV. These viruses represent four UL97 mutations and three UL54 DNA polymerase mutations. The laboratory derived UL97 L397R mutant was highly MBV-resistant but remained sensitive to the other three drugs. CONCLUSIONS: No cross-resistance has been detected between viruses resistant to MBV and those resistant to one or more of the current CMV antiviral drugs, consistent with differences in their mechanisms of action.

Id1 gene expression is up-regulated in hyperplastic and neoplastic thyroid tissue and regulates growth and differentiation in thyroid cancer cells.

The Id (inhibitor of DNA binding) proteins are a family of helix-loop-helix (HLH) proteins (Id1, Id2, Id3, and Id4) that lack the basic domain necessary for DNA binding. The Id1 protein enhances cell proliferation and inhibits cellular differentiation in a variety of cell types. We have previously demonstrated that the Id1 gene is up-regulated in papillary and medullary thyroid cancers. In this study we characterized the expression and distribution of the Id1 protein in normal, hyperplastic, and neoplastic human thyroid tissue. We also evaluated the effect of the Id1 gene on thyroid cancer cell growth and markers of thyroid cell differentiation. We used semiquantitative immunohistochemistry to characterize Id1 protein expression in normal, hyperplastic (multinodular goiter and Graves' disease), and neoplastic thyroid tissue from 103 patients. Normal thyroid tissue had the lowest level of Id1 protein expression (P < 0.0001). Anaplastic thyroid cancer had the highest level (vs. benign and malignant thyroid tissues, P < 0.01). Id1 protein expression was higher in malignant thyroid tissue than in hyperplastic thyroid tissue (P < 0.02). We found no significant association between the level of Id1 protein expression and patient age, sex, tumor-node-metastasis stage, tumor size, primary tumor vs. lymph node metastasis, primary tumor vs. recurrent tumors, and extent of tumor differentiation. Inhibiting Id1 mRNA expression in thyroid cancer cell lines using Id1 antisense oligonucleotides resulted in growth inhibition (P < 0.03) and decreased thyroglobulin and sodium-iodine symporter mRNA expression (P < 0.02). In conclusion, Id1 is overexpressed in hyperplastic and neoplastic thyroid tissue and directly regulates the growth of thyroid cancer cells of follicular cell origin, but is not a marker of aggressive phenotype in differentiated thyroid cancer.

Viral DNA polymerase mutations associated with drug resistance in human cytomegalovirus.

Certain mutations in the viral DNA polymerase (pol) gene are known to confer drug resistance when transferred to susceptible human cytomegalovirus (CMV) strains, whereas other putative resistance mutations remain unproven. A new marker-transfer technique was used to produce recombinant CMV strains, to determine the drug susceptibility phenotypes conferred by 10 pol mutations (9 observed in clinical isolates). Various degrees of resistance to ganciclovir and cidofovir were conferred by mutations D301N, N410K, D413E, T503I, and L516R, which are located within exonuclease functional domains where D301N and D413E affect highly conserved residues. Mutations A692S, E756K, and E756D, which are not located within recognized functional domains, each conferred foscarnet resistance. This study significantly increases the number of confirmed CMV pol resistance mutations, at both conserved and nonconserved loci, with implications for molecular mechanisms and the genotypic diagnosis of antiviral resistance.

Frequency and duration of plasma CMV viremia in seroconverting blood donors and recipients.

BACKGROUND: Both CMV-seronegative blood and unscreened, filtered blood carry a low but definite risk of transmitting CMV infection. To explain this residual risk, evidence of cell-free viremia was sought in seroconverting and seroprevalent blood donors and seroconverting transfusion recipients by means of a plasma-based assay for CMV DNA. STUDY DESIGN AND METHODS: A CMV DNA PCR assay (COBAS Amplicor CMV Monitor, Roche) was used to detect CMV DNA in 384 paired plasma samples from 192 donors who seroconverted to anti-CMV, 488 anti-CMV EIA-positive samples from 60 seroprevalent donors, and 113 serial samples from 11 seroconverting recipients with posttransfusion CMV hepatitis. RESULTS: Three of 384 samples from 192 seroconverting donors had low levels of plasma CMV DNA (400-1600 copies/mL); one donor was positive before seroconversion, and the other two, after seroconversion. None of the 488 serial samples from 60 anti-CMV- positive donors contained CMV DNA in plasma. Three of 11 recipients demonstrated transient plasma viremia that temporally coincided with seroconversion. CONCLUSIONS: Plasma CMV DNA was detected in a small percentage of seroconverting blood donors and a larger percentage of recipients but was undetectable in seroprevalent donors. Plasma viremia in seroconverting donors may partially explain the low residual risk of CMV transmission by both CMV-seronegative and WBC-reduced seropositive blood.

Absence of activation of CMV by blood transfusion to HIV-infected, CMV-seropositive patients.

BACKGROUND: The Viral Activation Transfusion Study (VATS) afforded an opportunity to determine whether blood transfusions, and in particular exogenous WBCs, "activate" CMV replication in HIV-infected, CMV-seropositive patients, and whether such patients can be superinfected by additional strains of CMV transmitted via blood transfusions. STUDY DESIGN AND METHODS: A total of 531 patients were randomized to receive either WBC-reduced (WBCR) or non-WBC-reduced (NWBCR) RBC units. Plasma CMV PCR assays were performed before transfusion and weekly after transfusion for 4 weeks. NWBCR cases with evidence of possible reactivation and/or superinfection were further studied for donor viremia by DNA PCR of frozen retention segments and new genotype acquisition using gB envelope sequence analysis of pre- and posttransfusion recipient specimens. RESULTS: VATS patients received a median of two RBC units during their initial transfusion. Whether positive or negative for CMV DNA at baseline, there were no significant treatment-arm differences in the percentage of patients who had positive qualitative CMV PCR or increases in CMV viral load at follow-up. Of 50 recipients randomized to NWBCR RBC and meeting criteria for possible CMV superinfection, 25 had sufficient CMV DNA load in a baseline and one or more viremic follow-up sample to permit comparison of gB genotypes. Only two recipients showed genotype shifts. Of 125 WBC pellets prepared from the seropositive units transfused into these 50 cases, only 1 tested weakly PCR positive for CMV DNA (insufficient copy number for genotyping). CONCLUSION: There was no evidence of "activation" of CMV by blood transfusion. Among the NWBCR RBC recipients, there was little evidence of possible transmission of new CMV strains. Hence, the current policy for transfusion support of HIV-infected patients, which allows transfusion of CMV-antibody-positive blood to CMV-seropositive patients, is appropriate.

Cytomegalovirus UL97 phosphotransferase mutations that affect susceptibility to ganciclovir.

Most ganciclovir (GCV)-resistant cytomegalovirus (CMV) isolates contain UL97 gene mutations at codon 460 or 520 or between codons 590 and 607, where an increasing variety of mutations have been detected, including deletions. To determine their phenotypic effect, 9 UL97 mutations not previously studied were transferred to drug-sensitive laboratory CMV strains that contained unique restriction sites developed for this purpose. Deletion of the entire codon range 591-607 conferred a 6-fold increase in GCV resistance, with little effect on viral replication. Some mutations found in clinical isolates, including C592G and A594T, conferred only 2-3-fold decreases in GCV susceptibility. For C592G, this phenotype was confirmed by transfer to different CMV strains and by restoration of full drug susceptibility after removal of the mutation. Low drug levels resulting from oral GCV therapy may predispose the virus to the initial selection of these low-grade UL97 resistance mutations and to later accumulation of other mutations and greater resistance.

Cytomegalovirus glycoprotein B groups in human immunodeficiency virus-infected patients with incident retinitis.

Cytomegalovirus (CMV) strains may be categorized into 4 different groups on the basis of glycoprotein B (gB) genotype. gB genotypes in CMV polymerase chain reaction (PCR)-positive samples from case patients who were diagnosed with retinitis during prospective follow-up were compared with genotypes in CMV PCR-positive samples from an equal number of retinitis-free matched control subjects. All patients were infected with human immunodeficiency virus (HIV) and CMV. Control subjects and their plasma samples were matched with case patients according to baseline CD4(+) T cell count, transfusion history, HIV risk factor, and follow-up time. CMV DNA was genotyped by restriction-enzyme digestion. Eighteen patients met our case definition. Approximately one-third of patients had gB genotype 1, and half had gB genotype 2. These rates were similar among case patients and control subjects and were similar by risk group. The CMV gB2 genotype is not a major determinant of retinitis pathogenicity but appears to be highly prevalent among HIV-infected patients.

Phase I dose escalation trial evaluating the pharmacokinetics, anti-human cytomegalovirus (HCMV) activity, and safety of 1263W94 in human immunodeficiency virus-infected men with asymptomatic HCMV shedding.

1263W94 [maribavir; 5,6-dichloro-2-(isopropylamino)-1,beta-L-ribofuranosyl-1-H-benzimidazole] is a novel benzimidazole compound for treatment of human cytomegalovirus (HCMV) infection and disease, with potent in vitro activity against HCMV and good oral bioavailability. A phase I study was conducted to determine the pharmacokinetics (PK), anti-HCMV activity, and safety of 1263W94 administered as multiple oral doses to human immunodeficiency virus type 1-infected adult male subjects with asymptomatic HCMV shedding. Subjects received one of six dosage regimens (100, 200, or 400 mg three times a day, or 600, 900, or 1,200 mg twice a day) or a placebo for 28 days. 1263W94 demonstrated linear PK, with steady-state plasma 1263W94 profiles predictable based on single-dose data. 1263W94 was rapidly absorbed following oral dosing, and values for the maximum concentration of the drug in plasma and the area under the concentration-time curve increased in proportion to the dose. 1263W94 demonstrated in vivo anti-HCMV activity in semen at all of the dosage regimens tested, with mean reductions in semen HCMV titers of 2.9 to 3.7 log(10) PFU/ml among the four regimens evaluated for anti-HCMV activity. 1263W94 was generally well tolerated; taste disturbance was the most frequently reported adverse event over the 28-day dosing period.