Mark A. Yednak scite author profile

Respiratory syncytial virus (RSV) infection of most cultured cell lines causes cell-cell fusion and death. Cell fusion is caused by the fusion (F) glycoprotein and is clearly cytopathic, but other aspects of RSV infection may also contribute to cytopathology. To investigate this possibility, we generated an RSV replicon that lacks all three of its glycoprotein genes and so cannot cause cell-cell fusion or virus spread. This replicon includes a green fluorescent protein gene and an antibiotic resistance gene to enable detection and selection of repliconcontaining cells. Adaptive mutations in the RSV replicon were not required for replicon maintenance. Cells containing the replicon could be cloned and passaged many times in the absence of antibiotic selection, with 99% or more of the cells retaining the replicon after each cell division. Transient expression of the F and G (attachment) glycoproteins supported the production of virions that could transfer the replicon into most cell lines tested. Since the RSV replicon is not toxic to these cultured cells and does not affect their rate of cell division, none of the 8 internal viral proteins, the viral RNA transcripts, or the host response to these molecules or their activities is cytopathic. However, the level of replicon genome and gene expression is controlled in some manner well below that of complete virus and, as such, might avoid cytotoxicity. RSV replicons could be useful for cytoplasmic gene expression in vitro and in vivo and for screening for compounds active against the viral polymerase.

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Respiratory Syncytial Virus Engineered To Express the Cystic Fibrosis Transmembrane Conductance Regulator Corrects the Bioelectric Phenotype of Human Cystic Fibrosis Airway Epithelium In Vitro

Kwilas

Yednak

Zhang

et al. 2010

J Virol

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Cystic fibrosis (CF) is the most common lethal recessive genetic disease in the Caucasian population. It is caused by mutations in the CF transmembrane conductance regulator (CFTR) gene that is normally expressed in ciliated airway epithelial cells and the submucosal glands of the lung. Since the CFTR gene was first characterized in 1989, a major goal has been to develop an effective gene therapy for CF lung disease, which has the potential to ameliorate morbidity and mortality. Respiratory syncytial virus (RSV) naturally infects the ciliated cells in the human airway epithelium. In addition, the immune response mounted against an RSV infection does not prevent subsequent infections, suggesting that an RSV-based vector might be effectively readministered. To test whether the large 4.5-kb CFTR gene could be expressed by a recombinant RSV and whether infectious virus could be used to deliver CFTR to ciliated airway epithelium derived from CF patients, we inserted the CFTR gene into four sites in a recombinant green fluorescent protein-expressing RSV (rgRSV) genome to generate virus expressing four different levels of CFTR protein. Two of these four rgRSV-CFTR vectors were capable of expressing CFTR with little effect on viral replication. rgRSV-CFTR infection of primary human airway epithelial cultures derived from CF patients resulted in expression of CFTR protein that was properly localized at the luminal surface and corrected the chloride ion channel defect in these cells.

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Preferential binding of the epidermal growth factor receptor to ganglioside GM3 coated plates

Yednak

Bremer

1994

Molecular and Chemical Neuropathology

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Ganglioside GM3 has been shown to modulate epidermal growth factor receptor function. These observations have lead to the hypothesis that GM3 may bind to the epidermal growth factor receptor. An enzyme-linked immunosorbant assay was designed to test this hypothesis. In these experiments, receptor-rich vesicle preparations were incubated with ganglioside GM1 or GM3 coated 96-well microtiter plates and the amount of bound receptor was compared. Plates coated with GM3 consistently bound more epidermal growth factor receptor than did GM1 coated plates. The binding of epidermal growth factor receptors to GM3 coated wells appeared to be specific and saturable. These results suggest that GM3 may modulate epidermal growth factor receptor function owing to a specific association of the two molecules.

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Mark A. Yednak

A Respiratory Syncytial Virus Replicon That Is Noncytotoxic and Capable of Long-Term Foreign Gene Expression

Respiratory Syncytial Virus Engineered To Express the Cystic Fibrosis Transmembrane Conductance Regulator Corrects the Bioelectric Phenotype of Human Cystic Fibrosis Airway Epithelium In Vitro

Preferential binding of the epidermal growth factor receptor to ganglioside GM3 coated plates

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