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6. Longitudinal Phenotypes of Respiratory Health in a High-Risk Urban Birth Cohort

Author

Bacharier, Leonard B., primary, Beigelman, Avraham, additional, Calatroni, Agustin, additional, Jackson, Daniel J., additional, Gergen, Peter J., additional, O’Connor, George T., additional, Kattan, Meyer, additional, Wood, Robert A., additional, Sandel, Megan T., additional, Lynch, Susan V., additional, Fujimura, Kei E., additional, Fadrosh, Douglas W., additional, Santee, Clark A., additional, Boushey, Homer, additional, Visness, Cynthia M., additional, Gern, James E., additional, Wood, R., additional, Matsui, E., additional, Lederman, H., additional, Witter, F., additional, Leimenstoll, S., additional, Scott, D., additional, Cootauco, M., additional, Jones, P., additional, O’Connor, G., additional, Cruikshank, W., additional, Sandel, M., additional, Lee-Parritz, A., additional, Jordan, C., additional, Gjerasi, E., additional, Price-Johnson, P., additional, Gagalis, L., additional, Wang, L., additional, Gonzalez, N., additional, Tuzova, M., additional, Gold, D., additional, Wright, R., additional, Kattan, M., additional, Lamm, C., additional, Whitney, N., additional, Yaniv, P., additional, Pierce, M., additional, Sampson, H., additional, Sperling, R., additional, Rivers, N., additional, Bloomberg, G., additional, Bacharier, L., additional, Sadovsky, Y., additional, Tesson, E., additional, Koerkenmeier, C., additional, Sharp, R., additional, Ray, K., additional, Durrange, J., additional, Bauer, I., additional, Freie, A., additional, Visness, V. Morgan. C., additional, Zook, P., additional, Yaeger, M., additional, Martin, J., additional, Calatroni, A., additional, Jaffee, K., additional, Taylor, W., additional, Budrevich, R., additional, Mitchell, H., additional, Busse, W., additional, Gern, J., additional, Heinritz, P., additional, Sorkness, C., additional, Hernandez, K., additional, Bochkov, Y., additional, Grindle, K., additional, Dresen, A., additional, Pappas, T., additional, Renneberg, M., additional, Stoffel, B., additional, Gergen, P., additional, Togias, A., additional, Smartt, E., additional, and Thompson, K., additional

Published
2019
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7. Airway Microbiota Dynamics Uncover a Critical Window for Interplay of Pathogenic Bacteria and Allergy in Childhood Respiratory Disease

Author

Teo, SM, Tang, HHF, Mok, D, Judd, LM, Watts, SC, Pham, K, Holt, BJ, Kusel, M, Serralha, M, Troy, N, Bochkov, YA, Grindle, K, Lemanske, RF, Johnston, SL, Gern, JE, Sly, Peter, Holt, PG, Holt, KE, Inouye, M, Teo, SM, Tang, HHF, Mok, D, Judd, LM, Watts, SC, Pham, K, Holt, BJ, Kusel, M, Serralha, M, Troy, N, Bochkov, YA, Grindle, K, Lemanske, RF, Johnston, SL, Gern, JE, Sly, Peter, Holt, PG, Holt, KE, and Inouye, M

Published
2018

9. The Infant Nasopharyngeal Microbiome Impacts Severity of Lower Respiratory Infection and Risk of Asthma Development

Author

Teo, SM, Mok, D, Pham, K, Kusel, M, Serralha, M, Troy, N, Holt, BJ, Hales, BJ, Walker, ML, Hollams, E, Bochkov, YA, Grindle, K, Johnston, SL, Gern, JE, Sly, PD, Holt, PG, Holt, KE, Inouye, M, Teo, SM, Mok, D, Pham, K, Kusel, M, Serralha, M, Troy, N, Holt, BJ, Hales, BJ, Walker, ML, Hollams, E, Bochkov, YA, Grindle, K, Johnston, SL, Gern, JE, Sly, PD, Holt, PG, Holt, KE, and Inouye, M

Abstract

The nasopharynx (NP) is a reservoir for microbes associated with acute respiratory infections (ARIs). Lung inflammation resulting from ARIs during infancy is linked to asthma development. We examined the NP microbiome during the critical first year of life in a prospective cohort of 234 children, capturing both the viral and bacterial communities and documenting all incidents of ARIs. Most infants were initially colonized with Staphylococcus or Corynebacterium before stable colonization with Alloiococcus or Moraxella. Transient incursions of Streptococcus, Moraxella, or Haemophilus marked virus-associated ARIs. Our data identify the NP microbiome as a determinant for infection spread to the lower airways, severity of accompanying inflammatory symptoms, and risk for future asthma development. Early asymptomatic colonization with Streptococcus was a strong asthma predictor, and antibiotic usage disrupted asymptomatic colonization patterns. In the absence of effective anti-viral therapies, targeting pathogenic bacteria within the NP microbiome could represent a prophylactic approach to asthma.

Published
2015

12. Ethanol exposure induces oxidative stress and impairs nitric oxide availability in the human placental villi: a possible mechanism of toxicity.

Author

Kay, Helen H., Grindle, Kreg M., Kay, H H, Grindle, K M, and Magness, R R

Subjects
NITRIC-oxide synthases, PHYSIOLOGICAL effects of alcohol, PLACENTA physiology
Abstract

Objective: We undertook this investigation to explore the effects of ethanol exposure on nitric oxide synthase levels and nitric oxide release. Our hypothesis was that ethanol exposure modifies nitric oxide activity within the placenta as a result of oxidative stress.Study Design: Four 10-g samples of term normal human placental villous tissue were perifused with nonrecirculating Dulbecco's modified Eagle's medium and 25-mmol/L N-[2-hydroxyethyl]piperazine-N'-[2-ethanesulfonic acid] with 0-, 50-, 100-, or 200-mmol/L ethanol. After 2 hours of exposure, tissue was removed, fixed, and frozen for analysis. Immunohistochemical analysis was performed for subtype I or neuronal nitric oxide synthase (nNOS), subtype II or inducible nitric oxide synthase (iNOS), and subtype III or endothelial nitric oxide synthase (eNOS) localization. Western blot analysis was performed for eNOS quantitation. Cyclic guanosine monophosphate and copper-zinc superoxide dismutase levels were measured by electroimmunoassay and kinetic assay, respectively. Nitric oxide release was analyzed by a Sievers nitric oxide analyzer.Results: Immunohistochemical examination confirmed that only eNOS was localized to the syncytiotrophoblasts. After ethanol exposure, eNOS protein expression increased 2.5- to 3.0-fold over that of the control. Tissue cyclic guanosine monophosphate content and nitric oxide release into the effluent were decreased, whereas superoxide dismutase levels were increased at higher ethanol levels (P <.05).Conclusion: Ethanol exposure appears to induce oxidative stress, which may account for the decreased nitric oxide release, because nitric oxide may be shunted toward scavenging free radicals. Increased eNOS protein expression may be a response to the increased demand for nitric oxide. Decreased nitric oxide availability could adversely affect placental blood flow regulation, which could, in turn, account for the growth restriction seen in ethanol-exposed fetuses. [ABSTRACT FROM AUTHOR]

Published
2000
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13. Distribution and seasonality of rhinovirus and other respiratory viruses in a cross-section of asthmatic children in Trinidad, West Indies

Author

Roberg Kathy A, Grindle Kris A, Swenson Cheri A, Pappas Tressa E, Pinto Pereira Lexley M, Matthew Jason, Lemanske Robert F, Lee Wai-Ming, and Gern James E

Subjects
Pediatrics, RJ1-570
Abstract

Abstract Background Childhood asthma in the Caribbean is advancing in prevalence and morbidity. Though viral respiratory tract infections are reported triggers for exacerbations, information on these infections with asthma is sparse in Caribbean territories. We examined the distribution of respiratory viruses and their association with seasons in acute and stable asthmatic children in Trinidad. Methods In a cross-sectional study of 70 wheezing children attending the emergency department for nebulisation and 80 stable control subjects (2 to 16 yr of age) in the asthma clinic, nasal specimens were collected during the dry (n = 38, January to May) and rainy (n = 112, June to December) seasons. A multitarget, sensitive, specific high-throughput Respiratory MultiCode assay tested for respiratory-virus sequences for eight distinct groups: human rhinovirus, respiratory syncytial virus, parainfluenza virus, influenza virus, metapneumovirus, adenovirus, coronavirus, and enterovirus. Results Wheezing children had a higher [χ2 = 5.561, p = 0.018] prevalence of respiratory viruses compared with stabilized asthmatics (34.3% (24) versus (vs.) 17.5% (14)). Acute asthmatics were thrice as likely to be infected with a respiratory virus (OR = 2.5, 95% CI = 1.2 – 5.3). The predominant pathogens detected in acute versus stable asthmatics were the rhinovirus (RV) (n = 18, 25.7% vs. n = 7, 8.8%; p = 0.005), respiratory syncytial virus B (RSV B) (n = 2, 2.9% vs. n = 4, 5.0%), and enterovirus (n = 1, 1.4% vs. n = 2, 2.5%). Strong odds for rhinoviral infection were observed among nebulised children compared with stable asthmatics (p = 0.005, OR = 3.6, 95% CI = 1.4 – 9.3,). RV was prevalent throughout the year (Dry, n = 6, 15.8%; Rainy, n = 19, 17.0%) and without seasonal association [χ2 = 0.028, p = 0.867]. However it was the most frequently detected virus [Dry = 6/10, (60.0%); Rainy = 19/28, (67.9%)] in both seasons. Conclusion Emergent wheezing illnesses during childhood can be linked to infection with rhinovirus in Trinidad's tropical environment. Viral-induced exacerbations of asthma are independent of seasons in this tropical climate. Further clinical and virology investigations are recommended on the role of infections with the rhinovirus in Caribbean childhood wheeze.

Published
2009
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14. Standardization and performance evaluation of mononuclear cell cytokine secretion assays in a multicenter study

Author

Grindle Kristine, de la Morena Maite, Lederman Howard M, Cruikshank William W, Burger Melissa, Visness Cynthia M, Shreffler Wayne G, Calatroni Agustin, Sampson Hugh A, and Gern James E

Subjects
Immunologic diseases. Allergy, RC581-607
Abstract

Abstract Background Cryopreservation of peripheral blood mononuclear cells has been used to preserve and standardize immunologic measurements for multicenter studies, however, effects of cryopreservation on cytokine responses are incompletely understood. In designing immunologic studies for a new multicenter birth cohort study of childhood asthma, we performed a series of experiments to determine the effects of two different methods of cryopreservation on the cytokine responses of cord and peripheral blood mononuclear cells. Results Paired samples of PBMC were processed freshly, or after cryopreservation in a Nalgene container (NC) or a controlled-rate freezer (CRF). Although there were some differences between the methods, cryopreservation inhibited PHA-induced IL-10 secretion and Der f 1-induced IL-2 secretion, and augmented PHA-induced IL-2 secretion and spontaneous secretion of TNF-α. In separate experiments, NC cryopreservation inhibited secretion of several cytokines (IL-13, IL-10, IFN-γ, TNF-α) by PHA-stimulated cord blood mononuclear cells. With the exception of PHA-induced IL-13, results from fresh and cryopreserved cord blood samples were not significantly correlated. Finally, in reproducibility studies involving processing of identical cell samples in up to 4 separate laboratories, variances in cytokine responses of fresh cells stimulated at separate sites did not exceed those in cryopreserved cells stimulated at a central site. Conclusion Collectively, these studies indicate that cryopreservation can affect mononuclear cell cytokine response profiles, and that IL-10 secretion and antigen-induced responses may be especially vulnerable. These studies also demonstrate that mononuclear cell responses can be standardized for performance in a small number of laboratories for multicenter studies, and underscore the importance of measuring reproducibility and of testing whether cryopreservation techniques alter specific immunologic outcomes.

Published
2006
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15. Farm animal exposure, respiratory illnesses, and nasal cell gene expression.

Author

Brownell J, Lee KE, Chasman D, Gangnon R, Bendixsen CG, Barnes K, Grindle K, Pappas T, Bochkov YA, Dresen A, Hou C, Haslam DB, Seroogy CM, Ong IM, and Gern JE

Subjects
Humans, Female, Animals, Male, Infant, Child, Preschool, Animals, Domestic immunology, Infant, Newborn, Wisconsin epidemiology, Environmental Exposure adverse effects, Nasal Mucosa immunology, Respiratory Tract Diseases immunology, Respiratory Tract Diseases epidemiology, Respiratory Tract Diseases genetics, Farms
Abstract

Background: Farm exposures in early life reduce the risks for childhood allergic diseases and asthma. There is less information about how farm exposures relate to respiratory illnesses and mucosal immune development., Objective: We hypothesized that children raised in farm environments have a lower incidence of respiratory illnesses over the first 2 years of life than nonfarm children. We also analyzed whether farm exposures or respiratory illnesses were related to patterns of nasal cell gene expression., Methods: The Wisconsin Infant Study Cohort included farm (n = 156) and nonfarm (n = 155) families with children followed to age 2 years. Parents reported prenatal farm and other environmental exposures. Illness frequency and severity were assessed using illness diaries and periodic surveys. Nasopharyngeal cell gene expression in a subset of 64 children at age 2 years was compared to farm exposure and respiratory illness history., Results: Farm versus nonfarm children had nominally lower rates of respiratory illnesses (rate ratio 0.82 [95% CI, 0.69, 0.97]) with a stepwise reduction in illness rates in children exposed to 0, 1, or ≥2 animal species, but these trends were nonsignificant in a multivariable model. Farm exposures and preceding respiratory illnesses were positively related to nasal cell gene signatures for mononuclear cells and innate and antimicrobial responses., Conclusions: Maternal and infant exposure to farms and farm animals was associated with nonsignificant trends for reduced respiratory illnesses. Nasal cell gene expression in a subset of children suggests that farm exposures and respiratory illnesses in early life are associated with distinct patterns of mucosal immune expression., (Copyright © 2024 American Academy of Allergy, Asthma & Immunology. Published by Elsevier Inc. All rights reserved.)

Published
2024
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16. TCR-α/β and CD19 depleted stem cell grafts from haploidentical donors for allogeneic transplantation in patients with relapsed lymphoma: a single-center experience.

Author

Kenkre VP, Bradley K, Milton A, Burkholder JK, Grindle K, McMannes J, Kim K, Callander N, Juckett M, Longo W, and Hematti P

Subjects
Humans, Receptors, Antigen, T-Cell, alpha-beta, Transplantation, Homologous, Antigens, CD19, Transplantation Conditioning, Hematopoietic Stem Cell Transplantation, Lymphoma diagnosis, Lymphoma therapy, Graft vs Host Disease etiology, Graft vs Host Disease prevention & control
Published
2023
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17. Rhinoviruses A and C elicit long-lasting antibody responses with limited cross-neutralization.

Author

Bochkov YA, Devries M, Tetreault K, Gangnon R, Lee S, Bacharier LB, Busse WW, Camargo CA, Choi T, Cohen R, De R, DeMuri GP, Fitzpatrick AM, Gergen PJ, Grindle K, Gruchalla R, Hartert T, Hasegawa K, Khurana Hershey GK, Holt P, Homil K, Jartti T, Kattan M, Kercsmar C, Kim H, Laing IA, Le Souëf PN, Liu AH, Mauger DT, Pappas T, Patel SJ, Phipatanakul W, Pongracic J, Seroogy C, Sly PD, Tisler C, Wald ER, Wood R, Lemanske RF Jr, Jackson DJ, and Gern JE

Subjects
Child, Humans, Animals, Mice, Child, Preschool, Antibody Formation, Antibodies, Neutralizing, Cross Reactions, Rhinovirus, Asthma
Abstract

Rhinoviruses (RVs) can cause severe wheezing illnesses in young children and patients with asthma. Vaccine development has been hampered by the multitude of RV types with little information about cross-neutralization. We previously showed that neutralizing antibody (nAb) responses to RV-C are detected twofold to threefold more often than those to RV-A throughout childhood. Based on those findings, we hypothesized that RV-C infections are more likely to induce either cross-neutralizing or longer-lasting antibody responses compared with RV-A infections. We pooled RV diagnostic data from multiple studies of children with respiratory illnesses and compared the expected versus observed frequencies of sequential infections with RV-A or RV-C types using log-linear regression models. We tested longitudinally collected plasma samples from children to compare the duration of RV-A versus RV-C nAb responses. Our models identified limited reciprocal cross-neutralizing relationships for RV-A (A12-A75, A12-A78, A20-A78, and A75-A78) and only one for RV-C (C2-C40). Serologic analysis using reference mouse sera and banked human plasma samples confirmed that C40 infections induced nAb responses with modest heterotypic activity against RV-C2. Mixed-effects regression modeling of longitudinal human plasma samples collected from ages 2 to 18 years demonstrated that RV-A and RV-C illnesses induced nAb responses of similar duration. These results indicate that both RV-A and RV-C nAb responses have only modest cross-reactivity that is limited to genetically similar types. Contrary to our initial hypothesis, RV-C species may include even fewer cross-neutralizing types than RV-A, whereas the duration of nAb responses during childhood is similar between the two species. The modest heterotypic responses suggest that RV vaccines must have a broad representation of prevalent types., (© 2023 The Authors. Journal of Medical Virology published by Wiley Periodicals LLC.)

Published
2023
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18. Enhanced Neutralizing Antibody Responses to Rhinovirus C and Age-Dependent Patterns of Infection.

Author

Choi T, Devries M, Bacharier LB, Busse W, Camargo CA Jr, Cohen R, Demuri GP, Evans MD, Fitzpatrick AM, Gergen PJ, Grindle K, Gruchalla R, Hartert T, Hasegawa K, Khurana Hershey GK, Holt P, Homil K, Jartti T, Kattan M, Kercsmar C, Kim H, Laing IA, LeBeau P, Lee KE, Le Souëf PN, Liu A, Mauger DT, Ober C, Pappas T, Patel SJ, Phipatanakul W, Pongracic J, Seroogy C, Sly PD, Tisler C, Wald ER, Wood R, Gangnon R, Jackson DJ, Lemanske RF Jr, Gern JE, and Bochkov YA

Subjects
Adolescent, Age Factors, Asthma epidemiology, Asthma virology, Australia epidemiology, Child, Child, Preschool, Cohort Studies, Female, Finland epidemiology, Genetic Variation, Genotype, Humans, Infant, Infant, Newborn, Longitudinal Studies, Male, Picornaviridae Infections epidemiology, Picornaviridae Infections immunology, United States epidemiology, Antibodies, Neutralizing blood, Asthma physiopathology, Disease Susceptibility, Picornaviridae Infections physiopathology, Respiratory Sounds physiopathology, Rhinovirus genetics, Rhinovirus pathogenicity
Abstract

Rationale: Rhinovirus (RV) C can cause asymptomatic infection and respiratory illnesses ranging from the common cold to severe wheezing. Objectives: To identify how age and other individual-level factors are associated with susceptibility to RV-C illnesses. Methods: Longitudinal data from the COAST (Childhood Origins of Asthma) birth cohort study were analyzed to determine relationships between age and RV-C infections. Neutralizing antibodies specific for RV-A and RV-C (three types each) were determined using a novel PCR-based assay. Data were pooled from 14 study cohorts in the United States, Finland, and Australia, and mixed-effects logistic regression was used to identify factors related to the proportion of RV-C versus RV-A detection. Measurements and Main Results: In COAST, RV-A and RV-C infections were similarly common in infancy, whereas RV-C was detected much less often than RV-A during both respiratory illnesses and scheduled surveillance visits ( P  < 0.001, χ 2 ) in older children. The prevalence of neutralizing antibodies to RV-A or RV-C types was low (5-27%) at the age of 2 years, but by the age of 16 years, RV-C seropositivity was more prevalent (78% vs. 18% for RV-A; P  < 0.0001). In the pooled analysis, the RV-C to RV-A detection ratio during illnesses was significantly related to age ( P  < 0.0001), CDHR3 genotype ( P  < 0.05), and wheezing illnesses ( P  < 0.05). Furthermore, certain RV types (e.g., C2, C11, A78, and A12) were consistently more virulent and prevalent over time. Conclusions: Knowledge of prevalent RV types, antibody responses, and populations at risk based on age and genetics may guide the development of vaccines or other novel therapies against this important respiratory pathogen.

Published
2021
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19. Development of a Rhinovirus Inoculum Using a Reverse Genetics Approach.

Author

Gern JE, Lee WM, Swenson CA, Nakagome K, Lee I, Wolff M, Grindle K, Sigelman S, Liggett SB, Togias A, Evans M, Denlinger L, Gangnon R, Bochkov YA, and Crisafi G

Subjects
Adult, Antibodies, Neutralizing blood, Antibodies, Viral blood, Female, Humans, Male, Mucus, Picornaviridae Infections transmission, Rhinovirus physiology, Picornaviridae Infections virology, Reverse Genetics methods, Rhinovirus genetics
Abstract

Background: Experimental inoculation is an important tool for common cold and asthma research. Producing rhinovirus (RV) inocula from nasal secretions has required prolonged observation of the virus donor to exclude extraneous pathogens. We produced a RV-A16 inoculum using reverse genetics and determined the dose necessary to cause moderate colds in seronegative volunteers., Methods: The consensus sequence of RV-A16 from a previous inoculum was cloned, and inoculum virus was produced using reverse genetics techniques. After safety testing, volunteers were inoculated with either RV-A16 (n = 26) or placebo (n = 10), Jackson cold scores were recorded, and nasal secretions were tested for shedding of RV-A16 ribonucleic acid., Results: The reverse genetics process produced infectious virus that was neutralized by specific antisera and had a mutation rate similar to conventional virus growth techniques. The 1000 median tissue culture infectious dose (TCID50) dose produced moderate colds in most individuals with effects similar to that of a previously tested conventional RV-A16 inoculum., Conclusions: Reverse genetics techniques produced a RV-A16 inoculum that can cause clinical colds in seronegative volunteers, and they also serve as a stable source of virus for laboratory use. The recombinant production procedures eliminate the need to derive seed virus from nasal secretions, thus precluding introduction of extraneous pathogens through this route., (© The Author(s) 2018. Published by Oxford University Press for the Infectious Diseases Society of America. All rights reserved. For permissions, e-mail: journals.permissions@oup.com.)

Published
2019
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20. Airway Microbiota Dynamics Uncover a Critical Window for Interplay of Pathogenic Bacteria and Allergy in Childhood Respiratory Disease.

Author

Teo SM, Tang HHF, Mok D, Judd LM, Watts SC, Pham K, Holt BJ, Kusel M, Serralha M, Troy N, Bochkov YA, Grindle K, Lemanske RF Jr, Johnston SL, Gern JE, Sly PD, Holt PG, Holt KE, and Inouye M

Subjects
Acute Disease, Asthma diagnosis, Asthma prevention & control, Child, Preschool, Cohort Studies, Disease Susceptibility blood, Disease Susceptibility microbiology, Disease Susceptibility virology, Female, Humans, Hypersensitivity diagnosis, Hypersensitivity prevention & control, Infant, Longitudinal Studies, Male, Prospective Studies, Respiratory Sounds, Respiratory Tract Infections blood, Risk Factors, Immunoglobulin E blood, Microbiota genetics, Nasopharynx microbiology, Nasopharynx virology, Respiratory Tract Infections microbiology, Respiratory Tract Infections virology
Abstract

Repeated cycles of infection-associated lower airway inflammation drive the pathogenesis of persistent wheezing disease in children. In this study, the occurrence of acute respiratory tract illnesses (ARIs) and the nasopharyngeal microbiome (NPM) were characterized in 244 infants through their first five years of life. Through this analysis, we demonstrate that >80% of infectious events involve viral pathogens, but are accompanied by a shift in the NPM toward dominance by a small range of pathogenic bacterial genera. Unexpectedly, this change frequently precedes the detection of viral pathogens and acute symptoms. Colonization of illness-associated bacteria coupled with early allergic sensitization is associated with persistent wheeze in school-aged children, which is the hallmark of the asthma phenotype. In contrast, these bacterial genera are associated with "transient wheeze" that resolves after age 3 years in non-sensitized children. Thus, to complement early allergic sensitization, monitoring NPM composition may enable early detection and intervention in high-risk children., (Copyright © 2018 Elsevier Inc. All rights reserved.)

Published
2018
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21. Association of rhinovirus species with common cold and asthma symptoms and bacterial pathogens.

Author

Bashir H, Grindle K, Vrtis R, Vang F, Kang T, Salazar L, Anderson E, Pappas T, Gangnon R, Evans MD, Jackson DJ, Lemanske RF Jr, Bochkov YA, and Gern JE

Subjects
Child, Child, Preschool, Female, Humans, Male, Nasal Mucosa immunology, Nasal Mucosa microbiology, Nasal Mucosa virology, Asthma immunology, Asthma microbiology, Asthma virology, Bacteria classification, Bacteria immunology, Bacterial Infections immunology, Bacterial Infections virology, Common Cold immunology, Common Cold microbiology, Common Cold virology, Picornaviridae Infections immunology, Picornaviridae Infections microbiology, Rhinovirus immunology
Published
2018
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22. Assessment of wheezing frequency and viral etiology on childhood and adolescent asthma risk.

Author

Anderson HM, Lemanske RF Jr, Evans MD, Gangnon RE, Pappas T, Grindle K, Bochkov YA, Gern JE, and Jackson DJ

Subjects
Adolescent, Child, Female, Humans, Male, Asthma diagnosis, Asthma etiology, Asthma immunology, Picornaviridae Infections complications, Picornaviridae Infections immunology, Respiratory Sounds immunology, Respirovirus immunology, Respirovirus Infections complications, Respirovirus Infections immunology, Rhinovirus immunology
Published
2017
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23. The infant nasopharyngeal microbiome impacts severity of lower respiratory infection and risk of asthma development.

Author

Teo SM, Mok D, Pham K, Kusel M, Serralha M, Troy N, Holt BJ, Hales BJ, Walker ML, Hollams E, Bochkov YA, Grindle K, Johnston SL, Gern JE, Sly PD, Holt PG, Holt KE, and Inouye M

Subjects
Humans, Infant, Longitudinal Studies, Respiratory Tract Infections microbiology, Respiratory Tract Infections virology, Risk Assessment, Asthma epidemiology, Microbiota, Nasopharynx microbiology, Nasopharynx virology, Respiratory Tract Infections pathology
Abstract

The nasopharynx (NP) is a reservoir for microbes associated with acute respiratory infections (ARIs). Lung inflammation resulting from ARIs during infancy is linked to asthma development. We examined the NP microbiome during the critical first year of life in a prospective cohort of 234 children, capturing both the viral and bacterial communities and documenting all incidents of ARIs. Most infants were initially colonized with Staphylococcus or Corynebacterium before stable colonization with Alloiococcus or Moraxella. Transient incursions of Streptococcus, Moraxella, or Haemophilus marked virus-associated ARIs. Our data identify the NP microbiome as a determinant for infection spread to the lower airways, severity of accompanying inflammatory symptoms, and risk for future asthma development. Early asymptomatic colonization with Streptococcus was a strong asthma predictor, and antibiotic usage disrupted asymptomatic colonization patterns. In the absence of effective anti-viral therapies, targeting pathogenic bacteria within the NP microbiome could represent a prophylactic approach to asthma., (Copyright © 2015 Elsevier Inc. All rights reserved.)

Published
2015
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24. Withaferin A disrupts ubiquitin-based NEMO reorganization induced by canonical NF-κB signaling.

Author

Jackson SS, Oberley C, Hooper CP, Grindle K, Wuerzberger-Davis S, Wolff J, McCool K, Rui L, and Miyamoto S

Subjects
Animals, Blotting, Western, Cell Proliferation drug effects, Cells, Cultured, Electrophoretic Mobility Shift Assay, Embryonic Stem Cells cytology, Embryonic Stem Cells metabolism, Fibroblasts cytology, Fibroblasts metabolism, Flow Cytometry, Fluorescent Antibody Technique, Humans, I-kappa B Kinase metabolism, Immunoenzyme Techniques, Immunoprecipitation, Intracellular Signaling Peptides and Proteins chemistry, Mice, Mice, Knockout, Precursor Cells, B-Lymphoid cytology, Precursor Cells, B-Lymphoid metabolism, Signal Transduction, Tumor Necrosis Factor-alpha pharmacology, Ubiquitination, Embryonic Stem Cells drug effects, Fibroblasts drug effects, Intracellular Signaling Peptides and Proteins physiology, NF-kappa B metabolism, Precursor Cells, B-Lymphoid drug effects, Ubiquitin metabolism, Withanolides pharmacology
Abstract

The NF-κB family of transcription factors regulates numerous cellular processes, including cell proliferation and survival responses. The constitutive activation of NF-κB has also emerged as an important oncogenic driver in many malignancies, such as activated B-cell like diffuse large B cell lymphoma, among others. In this study, we investigated the impact and mechanisms of action of Withaferin A, a naturally produced steroidal lactone, against both signal-inducible as well as constitutive NF-κB activities. We found that Withaferin A is a robust inhibitor of canonical and constitutive NF-κB activities, leading to apoptosis of certain lymphoma lines. In the canonical pathway induced by TNF, Withaferin A did not disrupt RIP1 polyubiquitination or NEMO-IKKβ interaction and was a poor direct IKKβ inhibitor, but prevented the formation of TNF-induced NEMO foci which colocalized with TNF ligand. While GFP-NEMO efficiently formed TNF-induced foci, a GFP-NEMO(Y308S) mutant that is defective in binding to polyubiquitin chains did not form foci. Our study reveals that Withaferin A is a novel type of IKK inhibitor which acts by disrupting NEMO reorganization into ubiquitin-based signaling structures in vivo., (Copyright © 2014 Elsevier Inc. All rights reserved.)

Published
2015
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25. Molecular identification and quantification of human rhinoviruses in respiratory samples.

Author

Lee WM, Grindle K, Vrtis R, Pappas T, Vang F, Lee I, and Gern JE

Subjects
Humans, Molecular Typing methods, Phylogeny, Picornaviridae Infections diagnosis, Real-Time Polymerase Chain Reaction methods, Respiratory Tract Infections diagnosis, Rhinovirus genetics, Viral Load genetics, Picornaviridae Infections virology, Polymerase Chain Reaction methods, Respiratory Tract Infections virology, Rhinovirus pathogenicity
Abstract

PCR-based molecular assays have become standard diagnostic procedures for the identification and quantification of human rhinoviruses (HRVs) and other respiratory pathogens in most, if not all, clinical microbiology laboratories. Molecular assays are significantly more sensitive than traditional culture-based and serological methods. This advantage has led to the recognition that HRV infections are common causes for not only upper airway symptoms but also more severe lower respiratory illnesses. In addition, molecular assays improve turnaround time, can be performed by technicians with ordinary skills, and can easily be automated. This chapter describes two highly sensitive and specific PCR-based methods for identifying and quantifying HRVs. The first is a two-step PCR method for the detection and typing of HRV. The second is a pan-HRV real-time quantitative (q) PCR method for measuring viral loads in respiratory samples.

Published
2015
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26. Improved molecular typing assay for rhinovirus species A, B, and C.

Author

Bochkov YA, Grindle K, Vang F, Evans MD, and Gern JE

Subjects
5' Untranslated Regions, Capsid Proteins genetics, Child, Child, Preschool, DNA Primers genetics, Female, Genotype, Humans, Male, Molecular Sequence Data, RNA, Viral genetics, Sensitivity and Specificity, Sequence Analysis, DNA, Genotyping Techniques methods, Polymerase Chain Reaction methods, Rhinovirus classification, Rhinovirus genetics
Abstract

Human rhinoviruses (RVs), comprising three species (A, B, and C) of the genus Enterovirus, are responsible for the majority of upper respiratory tract infections and are associated with severe lower respiratory tract illnesses such as pneumonia and asthma exacerbations. High genetic diversity and continuous identification of new types necessitate regular updating of the diagnostic assays for the accurate and comprehensive detection of circulating RVs. Methods for molecular typing based on phylogenetic comparisons of a variable fragment in the 5' untranslated region were improved to increase assay sensitivity and to eliminate nonspecific amplification of human sequences, which are observed occasionally in clinical samples. A modified set of primers based on new sequence information and improved buffers and enzymes for seminested PCR assays provided higher specificity and sensitivity for virus detection. In addition, new diagnostic primers were designed for unequivocal species and type assignments for RV-C isolates, based on phylogenetic analysis of partial VP4/VP2 coding sequences. The improved assay was evaluated by typing RVs in >3,800 clinical samples. RVs were successfully detected and typed in 99% of the samples that were RV positive in multiplex diagnostic assays., (Copyright © 2014, American Society for Microbiology. All Rights Reserved.)

Published
2014
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27. A diverse group of previously unrecognized human rhinoviruses are common causes of respiratory illnesses in infants.

Author

Lee WM, Kiesner C, Pappas T, Lee I, Grindle K, Jartti T, Jakiela B, Lemanske RF Jr, Shult PA, and Gern JE

Subjects
Cell Line, Cloning, Molecular, DNA, Complementary metabolism, Genes, Viral, Genome, Viral, Humans, Infant, Infant, Newborn, Models, Genetic, Molecular Sequence Data, Phylogeny, Sequence Analysis, DNA, Picornaviridae Infections genetics, Picornaviridae Infections virology, Respiratory Tract Infections genetics, Respiratory Tract Infections virology, Rhinovirus metabolism
Abstract

Background: Human rhinoviruses (HRVs) are the most prevalent human pathogens, and consist of 101 serotypes that are classified into groups A and B according to sequence variations. HRV infections cause a wide spectrum of clinical outcomes ranging from asymptomatic infection to severe lower respiratory symptoms. Defining the role of specific strains in various HRV illnesses has been difficult because traditional serology, which requires viral culture and neutralization tests using 101 serotype-specific antisera, is insensitive and laborious., Methods and Findings: To directly type HRVs in nasal secretions of infants with frequent respiratory illnesses, we developed a sensitive molecular typing assay based on phylogenetic comparisons of a 260-bp variable sequence in the 5' noncoding region with homologous sequences of the 101 known serotypes. Nasal samples from 26 infants were first tested with a multiplex PCR assay for respiratory viruses, and HRV was the most common virus found (108 of 181 samples). Typing was completed for 101 samples and 103 HRVs were identified. Surprisingly, 54 (52.4%) HRVs did not match any of the known serotypes and had 12-35% nucleotide divergence from the nearest reference HRVs. Of these novel viruses, 9 strains (17 HRVs) segregated from HRVA, HRVB and human enterovirus into a distinct genetic group ("C"). None of these new strains could be cultured in traditional cell lines., Conclusions: By molecular analysis, over 50% of HRV detected in sick infants were previously unrecognized strains, including 9 strains that may represent a new HRV group. These findings indicate that the number of HRV strains is considerably larger than the 101 serotypes identified with traditional diagnostic techniques, and provide evidence of a new HRV group.

Published
2007
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28. High-throughput, sensitive, and accurate multiplex PCR-microsphere flow cytometry system for large-scale comprehensive detection of respiratory viruses.

Author

Lee WM, Grindle K, Pappas T, Marshall DJ, Moser MJ, Beaty EL, Shult PA, Prudent JR, and Gern JE

Subjects
Adult, Child, Preschool, DNA Primers genetics, Fluorescent Antibody Technique, Humans, Nasal Lavage Fluid virology, Sensitivity and Specificity, Virus Cultivation, Flow Cytometry methods, Polymerase Chain Reaction methods, Respiratory Tract Infections virology, Virology methods, Viruses classification, Viruses isolation & purification
Abstract

Human respiratory viruses are a diverse group of pathogens composed of hundreds of virus strains, and this presents a major challenge for diagnostic laboratories. To efficiently detect numerous viruses in a large epidemiologic study, we developed a fast, multitarget, sensitive, and specific assay named the Respiratory MultiCode-PLx Assay (RMA). The RMA utilizes improved multiplex PCR chemistry (EraGen MultiCode-PLx technology) coupled with high-throughput microsphere flow cytometry (Luminex). Eighteen sets of virus-specific multiplex PCR primers were developed based on the conserved sequences of all available respiratory-virus sequences for eight distinct groups: human rhinovirus (HRV), respiratory syncytial virus (RSV), parainfluenza virus (PIV), influenza virus (InfV), metapneumovirus, adenovirus (Ad), coronavirus, and enterovirus. Each primer set detected 20 cDNA copies of the intended target per sample and had no reaction with 60,000 copies of human genomic DNA. The accuracy and sensitivity of the RMA for detecting respiratory viruses in human samples were tested with two sets of clinical specimens. First, 101 nasal-wash specimens that were positive for HRV, RSV, InfV, PIV, or Ad by traditional techniques were reanalyzed by RMA, and all target viruses were detected with an overall sensitivity of 94% and specificity of 99%. Second, 103 nasal-wash samples from 5-year-old children with asthma and respiratory symptoms were analyzed; RMA detected viruses in 74 specimens (71.8%) compared to only 24 (23.3%) by traditional culture and immunofluorescent-staining techniques. These results show that RMA is an accurate, sensitive, and practical test for respiratory-virus infections.

Published
2007
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29. Microarray analysis of BeWo and JEG3 trophoblast cell lines: identification of differentially expressed transcripts.

Author

Burleigh DW, Kendziorski CM, Choi YJ, Grindle KM, Grendell RL, Magness RR, and Golos TG

Subjects
Cell Line, DNA Primers, Female, Humans, Integrins genetics, Placenta cytology, Placenta physiology, Polymerase Chain Reaction, Pregnancy, Proteins genetics, Transcription, Genetic, Gene Expression Regulation, Developmental, Oligonucleotide Array Sequence Analysis, Trophoblasts cytology, Trophoblasts physiology
Abstract

Trophoblast cell lines are important research tools used as a surrogate for primary trophoblast cells in the study of placental function. Because the cellular origins of transformed trophoblasts are likely to be diverse, it would be of value to understand the unique and shared phenotypes of the cells on a global scale. We have compared two widely used cell lines, BeWo and JEG3, by microarray analysis in order to identify differentially expressed genes. Results indicated that approximately 2700 genes were differentially expressed between the cell lines, with principal differences observed in the biological processes of response to stress, cell adhesion, signal transduction, and protein and nucleobase metabolisms. These data suggest that BeWo and JEG3 cell lines, and perhaps other trophoblast cell lines, are sufficiently dissimilar from each other such that they will be differentially suited for specific experimental paradigms.

Published
2007
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30. Markers of oxidative stress in placental villi exposed to ethanol.

Author

Kay HH, Tsoi S, Grindle K, and Magness RR

Subjects
Aldehydes analysis, Female, Guanosine analogs & derivatives, Guanosine analysis, Humans, Pregnancy, Trophoblasts chemistry, Tyrosine analogs & derivatives, Tyrosine analysis, Biomarkers analysis, Ethanol pharmacology, Oxidative Stress, Placenta chemistry, Placenta drug effects
Abstract

Objective: Ethanol exposure during pregnancy may result in fetal alcohol syndrome (FAS). The mechanism by which this occurs is unknown. Recent studies in several organ systems, including the placenta, suggest that oxidative stress is involved. In this study we investigated the presence and levels of three oxidative stress markers in placental villous tissue exposed to ethanol., Methods: Villous tissues from normal placentas were perfused with Dulbeco's modified Eagle's medium (DMEM) with HEPES buffer, sodium bicarbonate, and glucose at pH 7.4. After stabilization, 100 mM ethanol was added to the perfusate. After 2 hours of perfusion, the tissue was removed, fixed and stained for nitrotyrosine, 4-hydroxy-2-nonenal (4HNE) and 8-hydroxyguanosine (8-OHDG). Staining within the trophoblasts was quantified with densitometry., Results: Nitrotyrosine and 4HNE immunostaining was seen in the trophoblasts. 4HNE was also seen in the stroma. In contrast, 8-OHDG was seen only in the stroma and endothelial cells in the fetal circulation. Ethanol exposure significantly increased nitrotyrosine levels in the trophoblasts beyond levels in the control tissue. Nitrotyrosine and 8-OHDG levels were also increased in stroma., Conclusion: Within the placental villi, markers of oxidative stress are present in the trophoblasts and stroma after a short period of ethanol exposure. There is an increase in oxidative stress, primarily involving the nitric oxide pathway, in the trophoblasts as well as DNA damage in the stroma. Lipid peroxidation is not acutely changed in our 2-hour exposure window.

Published
2006
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31. Relationship of upper and lower airway cytokines to outcome of experimental rhinovirus infection.

Author

Gern JE, Vrtis R, Grindle KA, Swenson C, and Busse WW

Subjects
Adolescent, Adult, Asthma immunology, Base Sequence, Female, Humans, Male, Molecular Sequence Data, Nasal Lavage Fluid chemistry, Patient Selection, Reverse Transcriptase Polymerase Chain Reaction statistics & numerical data, Rhinitis, Allergic, Perennial immunology, Sputum chemistry, Time Factors, Bronchi immunology, Common Cold immunology, Cytokines analysis, Nose immunology, Rhinovirus
Abstract

To test the hypothesis that rhinovirus (RV)-induced immune responses influence the outcome of RV infections, we inoculated 22 subjects with allergic rhinitis or asthma with RV16. Nasal secretions and induced sputum were repeatedly sampled over the next 14 d. RV16 infection increased nasal granulocyte colony-stimulating factor (G-CSF) and interleukin (IL)-8, which was accompanied by neutrophilia in blood and nasal secretions. Nasal G-CSF correlated closely with increased blood neutrophils (r(s) = 0.69, p < 0.005), whereas nasal neutrophils correlated with both G-CSF (r(s) = 0.87, p < 0.001) and IL-8 (r(s) = 0.75, p < 0.001). Although similar relationships were present in sputum, changes in sputum neutrophils and G-CSF with RV16 infection were relatively modest. In addition, virus-induced changes in the sputum interferon-gamma-to-IL-5 messenger RNA ratio were inversely related to both peak cold symptoms (r(s) = -0.60, p < 0.005) and the time to viral clearance (undetectable picornavirus RNA). These results indicate that airway IL-8 and G-CSF are closely associated with virus-induced neutrophilic inflammation during an experimental RV infection in atopic volunteers. In addition, the balance of airway T-helper cell type 1 (Th1)- and Th2-like cytokines induced by RV infection may help determine the clinical outcome of common cold infections, raising the possibility that the individual subject's immune response, rather than atopic status per se, is important in this regard.

Published
2000
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