Rebecca Brockman-Schneider

Publications (5)30.61 Total impact

• Article: Biological characteristics and propagation of human rhinovirus-C in differentiated sinus epithelial cells.

  Shamaila Ashraf, Rebecca Brockman-Schneider, Yury A Bochkov, Thomas R Pasic, James E Gern
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  ABSTRACT: Information about the basic biological properties of human rhinovirus-C (HRV-C) viruses is lacking due to difficulties with culturing these viruses. Our objective was to develop a cell culture system to grow HRV-C. Epithelial cells from human sinuses (HSEC) were differentiated at air-liquid interface (ALI). Differentiated cultures supported 1-2logs growth of HRV-C15 as detected by quantitative RT-PCR. Two distinguishing features of HRVs are acid lability and optimal growth at 33-34°C. We used this system to show that HRV-C15 is neutralized by low pH (4.5). In contrast to most HRV types, replication of HRV-C15 and HRV-C41 was similar at 34 and 37°C. The HSEC ALI provides a useful tool for quantitative studies of HRV-C replication. The ability of HRV-C to grow equally well at 34°C and 37°C may contribute to the propensity for HRV-C to cause lower airway illnesses in infants and children with asthma.
  Virology 11/2012; · 3.35 Impact Factor
• Source

  Available from: Wai-Ming Lee

  Article: Basal cells of differentiated bronchial epithelium are more susceptible to rhinovirus infection.

  Bogdan Jakiela, Rebecca Brockman-Schneider, Svetlana Amineva, Wai-Ming Lee, James E Gern
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  ABSTRACT: We used an in vitro model of differentiated tracheobronchial epithelium to analyze the susceptibility of different cell types to infection with rhinoviruses (RVs). Primary cells from control subjects were cultured in an air-liquid interface to form differentiated epithelia. Suprabasal and basal fractions were separated after trypsin digestion, and cell suspensions were infected with serotypes RV16 and RV1A. These cell fractions were analyzed for expression of viral capsid protein VP2 (flow cytometry), viral replication (real-time PCR), cytokeratin-14, and intercellular adhesion molecule-1 (ICAM-1). Compared with suprabasal fraction, basal cells had increased percentages of cells staining positive for VP2 (RV1A: 37.8% versus 9.1%, P < 0.01; RV16: 12.0 versus 3.0%, P < 0.05). The average number of viral RNA copies per cell was also higher in basal cells (2.2- and 2.4-fold increase in RV1A- and RV16-infected cells, respectively) compared with suprabasal cells. Furthermore, ICAM-1 was expressed by 33.3% of basal cells, compared with 8.1% of suprabasal cells (P < 0.05). Finally, in culture models of epithelial injury (detached suprabasal cells or scratched surface), there was significantly greater replication of RV1A compared with intact cell layer. These findings demonstrate that basal cells are more susceptible to RV infection than suprabasal cells. For major group RV, this may be in part due to increased expression of ICAM-1; however, minor group RV also replicated more effectively in basal cells. These results suggest the possibility that epithelial cell differentiation is associated with the maturation of antiviral defense mechanisms.
  American Journal of Respiratory Cell and Molecular Biology 05/2008; 38(5):517-23. · 5.13 Impact Factor
• Article: Allele-specific targeting of microRNAs to HLA-G and risk of asthma.

  Zheng Tan, Glenn Randall, Jihua Fan, Blanca Camoretti-Mercado, Rebecca Brockman-Schneider, Lin Pan, Julian Solway, James E Gern, Robert F Lemanske, Dan Nicolae, Carole Ober
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  ABSTRACT: HLA-G is a nonclassic, class I HLA molecule that has important immunomodulatory properties. Previously, we identified HLA-G as an asthma-susceptibility gene and discovered that the risk of asthma in a child was determined by both the child's HLA-G genotype and the mother's affection status. Here we report a SNP in the 3' untranslated region of HLA-G that influences the targeting of three microRNAs (miRNAs) to this gene, and we suggest that allele-specific targeting of these miRNAs accounts, at least in part, for our earlier observations on HLA-G and the risk of asthma.
  The American Journal of Human Genetics 11/2007; 81(4):829-34. · 10.60 Impact Factor
• Article: Serum and low-density lipoprotein enhance interleukin-8 secretion by airway epithelial cells.

  James E Gern, Rebecca Brockman-Schneider, Saswati Bhattacharya, James S Malter, William W Busse
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  ABSTRACT: Viral respiratory infections rapidly increase vascular permeability, which leads to the transudation of serum proteins into airway secretions and tissues. To determine whether this process activates airway epithelial cells, bronchial epithelial cells were incubated with serum, and interleukin (IL)-8 secretion and gene expression were examined. As little as 0.1% serum significantly enhanced IL-8 secretion, and maximal secretion (65 +/- 4 ng/ml, 48 h) was observed with 10% serum. Low-density lipoprotein, but not albumin or immunoglobulin G, augmented bronchial epithelial IL-8 secretion, which was partially blocked by a monoclonal antibody specific for the low-density lipoprotein receptor. The IL-8-inducing activity of plasma was also augmented by clotting and platelet activation. Mechanistically, serum activated nuclear factor-kappaB and increased the stability and steady state levels of IL-8 mRNA. In summary, specific components of serum are potent activators of IL-8 mRNA and secretion, and the increased IL-8 production is likely to be a result of both increased transcription and mRNA stability. This effect may represent an innate mechanism for the recruitment of neutrophils to the airway in response to noxious stimuli, such as viral infections, that increase vascular permeability.
  American Journal of Respiratory Cell and Molecular Biology 11/2003; 29(4):483-9. · 5.13 Impact Factor
• Article: Similar frequency of rhinovirus-infectible cells in upper and lower airway epithelium.

  Anne G Mosser, Rebecca Brockman-Schneider, Svetlana Amineva, Lacinda Burchell, Julie B Sedgwick, William W Busse, James E Gern
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  ABSTRACT: Rhinovirus (RV) infections can alter lower airway physiology and inflammation, yet the characteristics of RV replication in lower airway cells are incompletely understood. An RV serotype 16 (RV16)-specific monoclonal antibody was identified. Immunohistochemistry and an infectious center assay were used to quantitate the infectivity of RV16 in primary bronchial and adenoidal epithelial cells. The proportion of infectible epithelial cells increased with the inoculum but did not exceed 10%. Analysis of bronchial tissue samples infected ex vivo demonstrated a small subset of RV-infected cells in the epithelial layer. These data confirm previous reports that RV infects only a small subset of epithelial cells in upper airway tissues and indicate that lower airway epithelial cells have a similar susceptibility to RV infection. In confirming that RV can infect cells in the lower airway, these results suggest that lower airway dysfunction occurs through this mechanism in susceptible persons.
  The Journal of Infectious Diseases 04/2002; 185(6):734-43. · 6.41 Impact Factor