Your search keyword '"Lia M. Haynes"' showing total 2 results

1. The Central Conserved Region (CCR) of Respiratory Syncytial Virus (RSV) G Protein Modulates Host miRNA Expression and Alters the Cellular Response to Infection

Author

Abhijeet A. Bakre, Jennifer L. Harcourt, Lia M. Haynes, Larry J. Anderson, and Ralph A. Tripp

Subjects

respiratory syncytial virus, RSV, microRNAs, CX3CR1, IFNλ, Medicine

Abstract

Respiratory Syncytial Virus (RSV) infects respiratory epithelial cells and deregulates host gene expression by many mechanisms including expression of RSV G protein (RSV G). RSV G protein encodes a central conserved region (CCR) containing a CX3C motif that functions as a fractalkine mimic. Disruption of the CX3C motif (a.a. 182–186) located in the CCR of the G protein has been shown to affect G protein function in vitro and the severity of RSV disease pathogenesis in vivo. We show that infection of polarized Calu3 respiratory cells with recombinant RSV having point mutations in Cys173 and 176 (C173/176S) (rA2-GC12), or Cys186 (C186S) (rA2-GC4) is associated with a decline in the integrity of polarized Calu-3 cultures and decreased virus production. This is accompanied with downregulation of miRNAs let-7f and miR-24 and upregulation of interferon lambda (IFNλ), a primary antiviral cytokine for RSV in rA2-GC12/rA2-GC4 infected cells. These results suggest that residues in the cysteine noose region of RSV G protein can modulate IFN λ expression accompanied by downregulation of miRNAs, and are important for RSV G protein function and targeting.

Published

2017

2. The Central Conserved Region (CCR) of Respiratory Syncytial Virus (RSV) G Protein Modulates Host miRNA Expression and Alters the Cellular Response to Infection

Author

Larry J. Anderson, Abhijeet Bakre, Lia M. Haynes, Jennifer L. Harcourt, and Ralph A. Tripp

Subjects

0301 basic medicine, G protein, medicine.medical_treatment, viruses, respiratory syncytial virus, 030106 microbiology, Immunology, lcsh:Medicine, Biology, medicine.disease_cause, Virus, Article, 03 medical and health sciences, CX3CR1, Downregulation and upregulation, Interferon, Drug Discovery, medicine, Pharmacology (medical), Pharmacology, Point mutation, lcsh:R, RSV, microRNAs, IFNλ, Virology, 030104 developmental biology, Infectious Diseases, Respiratory syncytial virus (RSV), Cytokine, medicine.drug

Abstract

Respiratory Syncytial Virus (RSV) infects respiratory epithelial cells and deregulates host gene expression by many mechanisms including expression of RSV G protein (RSV G). RSV G protein encodes a central conserved region (CCR) containing a CX3C motif that functions as a fractalkine mimic. Disruption of the CX3C motif (a.a. 182–186) located in the CCR of the G protein has been shown to affect G protein function in vitro and the severity of RSV disease pathogenesis in vivo. We show that infection of polarized Calu3 respiratory cells with recombinant RSV having point mutations in Cys173 and 176 (C173/176S) (rA2-GC12), or Cys186 (C186S) (rA2-GC4) is associated with a decline in the integrity of polarized Calu-3 cultures and decreased virus production. This is accompanied with downregulation of miRNAs let-7f and miR-24 and upregulation of interferon lambda (IFNλ), a primary antiviral cytokine for RSV in rA2-GC12/rA2-GC4 infected cells. These results suggest that residues in the cysteine noose region of RSV G protein can modulate IFN λ expression accompanied by downregulation of miRNAs, and are important for RSV G protein function and targeting.

Published

2017