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1. Impact of mAb-FcRn affinity on IgG transcytosis across human well-differentiated airway epithelium.

Author

Togami, Kohei, Wolf, Whitney, Olson, Lucas C., Card, Madison, Shen, Limei, Schaefer, Alison, Okuda, Kenichi, Zeitlin, Larry, Pauly, Michael, Whaley, Kevin, Pickles, Raymond J., and Lai, Samuel K.

Subjects
AIRWAY (Anatomy), FC receptors, TRANSCYTOSIS, VIRUS diseases, RESPIRATORY infections
Abstract

Effective treatment and immunoprophylaxis of viral respiratory infections with neutralizing monoclonal antibodies (mAbs) require maintaining inhibitory concentrations of mAbs at the airway surface. While engineered mAbs with increased affinity to the neonatal Fc receptor (FcRn) are increasingly employed, little is known how increased affinity of Fc to FcRn influences basal-to-apical transepithelial transport (transcytosis) of mAbs across the airway epithelium. To investigate this, we utilized a model of well-differentiated human airway epithelium (WD-HAE) that exhibited robust FcRn expression, and measured the transepithelial transport of a mAb against SARS-CoV-2 Spike protein (CR3022) with either wildtype IgG1-Fc or Fc modified with YTE or LS mutations known to increase affinity for FcRn. Despite the marked differences in the affinity of these CR3022 variants for FcRn, we did not find substantial differences in basal-toapical transport reflective of systemic dosing, or apical-to-basal transport reflective of inhaled dosing, compared to the transport of wildtype IgG1-Fc. These results suggest increasing FcRn affinity may only have limited influence over transcytosis rates of systemically dosed mAbs across the human airway epithelium over short time scales. Over longer time scales, the elevated circulating levels of mAbs with greater FcRn affinity, due to more effective FcRn-mediated recycling, may better resupply mAb into the respiratory tract, leading to more effective extended immunoprophylaxis. [ABSTRACT FROM AUTHOR]

Published
2024
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3. SARS-CoV-2 infection is effectively treated and prevented by EIDD-2801

Author

Wahl, Angela, Gralinski, Lisa E., Johnson, Claire E., Yao, Wenbo, Kovarova, Martina, Dinnon, III, Kenneth H., Liu, Hongwei, Madden, Victoria J., Krzystek, Halina M., De, Chandrav, White, Kristen K., Gully, Kendra, Schäfer, Alexandra, Zaman, Tanzila, Leist, Sarah R., Grant, Paul O., Bluemling, Gregory R., Kolykhalov, Alexander A., Natchus, Michael G., Askin, Frederic B., Painter, George, Browne, Edward P., Jones, Corbin D., Pickles, Raymond J., Baric, Ralph S., and Garcia, J. Victor

Published
2021
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4. Prolonged airway explant culture enables study of health, disease, and viral pathogenesis

Author

Lee-Ferris, Rhianna E, primary, Okuda, Kenichi, additional, Galiger, Jacob R, additional, Schworer, Stephen A, additional, Rogers, Troy D, additional, Dang, Hong, additional, Gilmore, Rodney, additional, Edwards, Caitlin, additional, Nakano, Satoko, additional, Cawley, Anne M., additional, Pickles, Raymond J, additional, Gallant, Samuel C, additional, Crisci, Elisa, additional, Rivier, Lauraine, additional, Hagood, James S, additional, O’Neal, Wanda K, additional, Baric, Ralph S, additional, Grubb, Barbara R, additional, Boucher, Richard C, additional, and Randell, Scott H, additional

Published
2024
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5. Inhaled “Muco‐Trapping” Monoclonal Antibody Effectively Treats Established Respiratory Syncytial Virus (RSV) Infections

Author

McSweeney, Morgan D., primary, Alnajjar, Sarhad, additional, Schaefer, Alison M., additional, Richardson, Zach, additional, Wolf, Whitney, additional, Stewart, Ian, additional, Sriboonyapirat, Pun, additional, McCallen, Justin, additional, Farmer, Ellen, additional, Nzati, Bernadette, additional, Lord, Sam, additional, Farrer, Brian, additional, Moench, Thomas R., additional, Kumar, Priya A., additional, Arora, Harendra, additional, Pickles, Raymond J., additional, Hickey, Anthony J., additional, Ackermann, Mark, additional, and Lai, Samuel K., additional

Published
2024
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6. Viral Airway Injury Promotes Cell Engraftment in an In Vitro Model of Cystic Fibrosis Cell Therapy

Author

Lee, Rhianna E., primary, Mascenik, Teresa M., additional, Major, Sidra C., additional, Galiger, Jacob R., additional, Bulik-Sullivan, Emily, additional, Siesser, Priscila F., additional, Lewis, Catherine A., additional, Bear, James E., additional, Le Suer, Jake A., additional, Hawkins, Finn J., additional, Pickles, Raymond J., additional, and Randell, Scott H., additional

Published
2023
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7. Enhanced susceptibility of pediatric airway epithelium to respiratory syncytial virus infection.

Author

Pickles, Raymond J., Gang Chen, and Randell, Scott H.

Subjects
*RESPIRATORY syncytial virus infections, *EPITHELIAL cell culture, *AIRWAY (Anatomy), *VIRAL shedding, *RESPIRATORY syncytial virus
Abstract

Immature innate and adaptive immunity and vulnerability of narrower airways to obstruction increase the susceptibility of infants to severe respiratory syncytial virus (RSV) disease. In this issue of the JCI, Zhao et al. illustrated greater intrinsic susceptibility of pediatric versus adult airway epithelial cells to RSV-induced cytopathology. Using precision cut lung slices (PCLS) and air-liquid interface (ALI) airway epithelial cell cultures, the authors showed that impaired STAT3 activation in RSV-infected pediatric multiciliated cells increased cell apoptosis and viral shedding, which enhanced the spread of infection. Bolstering STAT3 activation and treatment of neonatal mice with apoptosis inhibitors suppressed virus spread, suggesting that enhancing STAT3 activation may provide therapeutic benefit. [ABSTRACT FROM AUTHOR]

Published
2024
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8. Viral airway injury promotes cell engraftment in an in vitro model of cystic fibrosis cell therapy.

Author

Lee, Rhianna E., Mascenik, Teresa M., Major, Sidra C., Galiger, Jacob R., Bulik-Sullivan, Emily, Siesser, Priscila F., Lewis, Catherine A., Bear, James E., Le Suer, Jake A., Hawkins, Finn J., Pickles, Raymond J., and Randell, Scott H.

Subjects
CYSTIC fibrosis, CELLULAR therapy, LUNGS, ION transport (Biology), WOUNDS & injuries, CELL proliferation, CELL culture
Abstract

Cell therapy is a potential treatment for cystic fibrosis (CF). However, cell engraftment into the airway epithelium is challenging. Here, we model cell engraftment in vitro using the air–liquid interface (ALI) culture system by injuring well-differentiated CF ALI cultures and delivering non-CF cells at the time of peak injury. Engraftment efficiency was quantified by measuring chimerism by droplet digital PCR and functional ion transport in Ussing chambers. Using this model, we found that human bronchial epithelial cells (HBECs) engraft more efficiently when they are cultured by conditionally reprogrammed cell (CRC) culture methods. Cell engraftment into the airway epithelium requires airway injury, but the extent of injury needed is unknown. We compared three injury models and determined that severe injury with partial epithelial denudation facilitates long-term cell engraftment and functional CFTR recovery up to 20% of wildtype function. The airway epithelium promptly regenerates in response to injury, creating competition for space and posing a barrier to effective engraftment. We examined competition dynamics by time-lapse confocal imaging and found that delivered cells accelerate airway regeneration by incorporating into the epithelium. Irradiating the repairing epithelium granted engrafting cells a competitive advantage by diminishing resident stem cell proliferation. Intentionally, causing severe injury to the lungs of people with CF would be dangerous. However, naturally occurring events like viral infection can induce similar epithelial damage with patches of denuded epithelium. We found that viral preconditioning promoted effective engraftment of cells primed for viral resistance. NEW & NOTEWORTHY Cell therapy is a potential treatment for cystic fibrosis (CF). Here, we model cell engraftment by injuring CF air–liquid interface cultures and delivering non-CF cells. Successful engraftment required severe epithelial injury. Intentionally injuring the lungs to this extent would be dangerous. However, naturally occurring events like viral infection induce similar epithelial damage. We found that viral preconditioning promoted the engraftment of cells primed for viral resistance leading to CFTR functional recovery to 20% of the wildtype. [ABSTRACT FROM AUTHOR]

Published
2024
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9. Precision mouse models with expanded tropism for human pathogens

Author

Wahl, Angela, De, Chandrav, Abad Fernandez, Maria, Lenarcic, Erik M., Xu, Yinyan, Cockrell, Adam S., Cleary, Rachel A., Johnson, Claire E., Schramm, Nathaniel J., Rank, Laura M., Newsome, Isabel G., Vincent, Heather A., Sanders, Wes, Aguilera-Sandoval, Christian R., Boone, Allison, Hildebrand, William H., Dayton, Paul A., Baric, Ralph S., Pickles, Raymond J., Braunstein, Miriam, Moorman, Nathaniel J., Goonetilleke, Nilu, and Victor Garcia, J.

Published
2019
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11. Human T cells efficiently control RSV infection

Author

De, Chandrav, primary, Pickles, Raymond J., additional, Yao, Wenbo, additional, Liao, Baolin, additional, Boone, Allison E., additional, Choi, Mingyu, additional, Battaglia, Diana M., additional, Askin, Frederic B., additional, Whitmire, Jason K., additional, Silvestri, Guido, additional, Garcia, J. Victor, additional, and Wahl, Angela, additional

Published
2023
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12. SARS-like WIV1-CoV poised for human emergence

Author

Menachery, Vineet D., Yount, Boyd L., Sims, Amy C., Debbink, Kari, Agnihothram, Sudhakar S., Gralinski, Lisa E., Graham, Rachel L., Scobey, Trevor, Plante, Jessica A., Royal, Scott R., Swanstrom, Jesica, Sheahan, Timothy P., Pickles, Raymond J., Corti, Davide, Randell, Scott H., Lanzavecchia, Antonio, Marasco, Wayne A., and Baric, Ralph S.

Published
2016

14. Human Airway Epithelial Cell Cultures for Modeling Respiratory Syncytial Virus Infection

Author

Pickles, Raymond J., Compans, Richard W, Series editor, Cooper, Max D., Series editor, Gleba, Yuri Y., Series editor, Honjo, Tasuku, Series editor, Melchers, Fritz, Series editor, Oldstone, Michael B. A., Series editor, Vogt, Peter K., Series editor, Malissen, Bernard, Series editor, Aktories, Klaus, Series editor, Kawaoka, Yoshihiro, Series editor, Rappuoli, Rino, Series editor, Galan, Jorge E., Series editor, Anderson, Larry J., editor, and Graham, Barney S., editor

Published
2013
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18. Pharmacokinetic-based failure of a detergent virucidal for severe acute respiratory syndrome-coronavirus-2 (SARS-CoV-2) nasal infections: A preclinical study and randomized controlled trial

Author

Esther, Charles R., Huang, Li Ching, Edwards, Caitlin E., Pickles, Raymond J., Baric, Ralph S., Kimple, Adam J., Kimura, Kyle S., Randell, Scott H., Freeman, Michael H., Wessinger, Bronson C., Von Wahlde, Kate, Strickland, Britton A., Turner, Justin H., Mikami, Yu, Boucher, Richard C., Kato, Takafumi, Bacon, Daniel R., Gupta, Veerain C., Sheng, Quanhu, Das, Suman R., Ceppe, Agathe S., and Brown, Hunter M.

Abstract

BACKGROUND: The nose is the portal for severe acute respiratory syndrome-coronavirus-2 (SARS-CoV-2) infection, suggesting the nose as a target for topical antiviral therapies. The purpose of this study was to assess both the in vivo and in vitro efficacy of a detergent-based virucidal agent, Johnson and Johnson's Baby Shampoo (J&J), in SARS-CoV-2-infected subjects. METHODS: Subjects were randomized into three treatment groups: (1) twice daily nasal irrigation with J&J in hypertonic saline, (2) hypertonic saline alone, and (3) no intervention. Complementary in vitro experiments were performed in cultured human nasal epithelia. The primary outcome measure in the clinical trial was change in SARS-CoV-2 viral load over 21 days. Secondary outcomes included symptom scores and change in daily temperature. Outcome measures for in vitro studies included change in viral titers. RESULTS: Seventy-two subjects completed the clinical study (n = 24 per group). Despite demonstrated safety and robust efficacy in in vitro virucidal assays, J&J irrigations had no impact on viral titers or symptom scores in treated subjects relative to controls. Similar findings were observed administering J&J to infected cultured human airway epithelia using protocols mimicking the clinical trial regimen. Additional studies of cultured human nasal epithelia demonstrated that lack of efficacy reflected pharmacokinetic failure, with the most virucidal J&J detergent components rapidly absorbed from nasal surfaces. CONCLUSION: In this randomized clinical trial of subjects with SARS-CoV-2 infection, a topical detergent-based virucidal agent had no effect on viral load or symptom scores. Complementary in vitro studies confirmed a lack of efficacy, reflective of pharmacokinetic failure and rapid absorption from nasal surfaces.

Published
2022
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21. Pharmacokinetic‐based failure of a detergent virucidal for severe acute respiratory syndrome–coronavirus‐2 (SARS‐CoV‐2) nasal infections: A preclinical study and randomized controlled trial

Author

Esther, Charles R., primary, Kimura, Kyle S., additional, Mikami, Yu, additional, Edwards, Caitlin E., additional, Das, Suman R., additional, Freeman, Michael H., additional, Strickland, Britton A., additional, Brown, Hunter M., additional, Wessinger, Bronson C., additional, Gupta, Veerain C., additional, Von Wahlde, Kate, additional, Sheng, Quanhu, additional, Huang, Li Ching, additional, Bacon, Daniel R., additional, Kimple, Adam J., additional, Ceppe, Agathe S., additional, Kato, Takafumi, additional, Pickles, Raymond J., additional, Randell, Scott H., additional, Baric, Ralph S., additional, Turner, Justin H., additional, and Boucher, Richard C., additional

Published
2022
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22. Thiol-based chemical probes exhibit antiviral activity against SARS-CoV-2 via allosteric disulfide disruption in the spike glycoprotein

Author

Shi, Yunlong, primary, Zeida, Ari, additional, Edwards, Caitlin E., additional, Mallory, Michael L., additional, Sastre, Santiago, additional, Machado, Matías R., additional, Pickles, Raymond J., additional, Fu, Ling, additional, Liu, Keke, additional, Yang, Jing, additional, Baric, Ralph S., additional, Boucher, Richard C., additional, Radi, Rafael, additional, and Carroll, Kate S., additional

Published
2022
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23. RSV-encoded NS2 promotes epithelial cell shedding and distal airway obstruction

Author

Liesman, Rachael M., Buchholz, Ursula J., Luongo, Cindy L., Yang, Lijuan, Proia, Alan D., DeVincenzo, John P., Collins, Peter L., and Pickles, Raymond J.

Subjects
Physiological research, RNA virus infections -- Physiological aspects, Viral proteins -- Physiological aspects, Airway obstruction (Medicine) -- Research, Health care industry
Abstract

Respiratory syncytial virus (RSV) infection is the major cause of bronchiolitis in young children. The factors that contribute to the increased propensity of RSV-induced distal airway disease compared with other commonly encountered respiratory viruses remain unclear. Here, we identified the RSV-encoded nonstructural 2 (NS2) protein as a viral genetic determinant for initiating RSV-induced distal airway obstruction. Infection of human cartilaginous airway epithelium (HAE) and a hamster model of disease with recombinant respiratory viruses revealed that NS2 promotes shedding of infected epithelial cells, resulting in two consequences of virus infection. First, epithelial cell shedding accelerated the reduction of virus titers, presumably by clearing virus-infected cells from airway mucosa. Second, epithelial cells shedding into the narrow-diameter bronchiolar airway lumens resulted in rapid accumulation of detached, pleomorphic epithelial cells, leading to acute distal airway obstruction. Together, these data indicate that RSV infection of the airway epithelium, via the action of NS2, promotes epithelial cell shedding, which not only accelerates viral clearance but also contributes to acute obstruction of the distal airways. Our results identify RSV NS2 as a contributing factor for the enhanced propensity of RSV to cause severe airway disease in young children and suggest NS2 as a potential therapeutic target for reducing the severity of distal airway disease., Introduction Human respiratory syncytial virus (RSV) is a nonsegmented, negative-sense, single-stranded RNA virus belonging to the family Paramyxoviridae, subfamily Pneumovirinae. RSV is the most common virus responsible for acute and [...]

Published
2014
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26. Thiol-based mucolytics exhibit antiviral activity against SARS-CoV-2 through allosteric disulfide disruption in the spike glycoprotein

Author

Shi, Yunlong, primary, Zeida, Ari, additional, Edwards, Caitlin E., additional, Mallory, Michael L., additional, Sastre, Santiago, additional, Machado, Matías R., additional, Pickles, Raymond J., additional, Fu, Ling, additional, Liu, Keke, additional, Yang, Jing, additional, Baric, Ralph S., additional, Boucher, Richard C., additional, Radi, Rafael, additional, and Carroll, Kate S., additional

Published
2021
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27. Tracheobronchial air-liquid interface cell culture: a model for innate mucosal defense of the upper airways?

Author

Kesimer, Mehmet, Kirkham, Sara, Pickles, Raymond J., Henderson, Ashley G., Alexis, Neil E., DeMaria, Genevieve, Knight, David, Thornton, David J., and Sheehan, John K.

Subjects
Airway (Medicine) -- Physiological aspects, Airway (Medicine) -- Research, Cell culture -- Health aspects, Cell culture -- Research, Natural immunity -- Physiological aspects, Natural immunity -- Research, Proteomics -- Usage, Proteomics -- Research, Biological sciences
Abstract

Human tracheobronchial epithelial cells grown in air-liquid interface culture have emerged as a powerful tool for the study of airway biology. In this study, we have investigated whether this culture system produces ''mucus' with a protein composition similar to that of in vivo. induced airway secretions. Previous compositional studies of mucous secretions have greatly underrepresented the contribution of mucins, which are major structural components of normal mucus. To overcome this limitation, we have used a mass spectrometry-based approach centered on prior separation of the mucins from the majority of the other proteins. Using this approach, we have compared the protein composition of apical secretions (AS) from well-differentiated primary human tracheobronchial cells grown at air-liquid interface and human tracheobronchial normal induced sputum (IS). A total of 186 proteins were identified, 134 from AS and 136 from IS; 84 proteins were common to both secretions, with host defense proteins being predominant. The epithelial mucins MUC1, MUC4, and MUC16 and the gel-forming mucins MUC5B and MUC5AC were identified in both secretions. Refractometry showed that the gel-forming mucins were the major contributors by mass to both secretions. When the composition of the IS was corrected for proteins that were most likely derived from saliva, serum, and migratory cells, there was considerable similarity between the two secretions, in particular, in the category of host defense proteins, which includes the mucins. This shows that the primary cell culture system is an important model for study of aspects of innate defense of the upper airways related specifically to mucus consisting solely of airway cell products. mucus; mucin; innate immunity; proteomics; human tracheobronchial epithelial cell culture

Published
2009

28. Pharmacokinetic-based failure of a detergent virucidal for SARS-COV-2 nasal infections

Author

Esther, Charles R., primary, Kimura, Kyle S., additional, Mikami, Yu, additional, Edwards, Caitlin E., additional, Das, Suman R., additional, Freeman, Michael H., additional, Strickland, Britton A., additional, Brown, Hunter M., additional, Wessinger, Bronson C., additional, Gupta, Veerain C., additional, Von Wahlde, Kate, additional, Sheng, Quanhu, additional, Huang, Li Ching, additional, Bacon, Daniel R., additional, Kimple, Adam J., additional, Ceppe, Agathe S., additional, Kato, Takafumi, additional, Pickles, Raymond J., additional, Randell, Scott H., additional, Baric, Ralph S., additional, Turner, Justin H., additional, and Boucher, Richard C., additional

Published
2021
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32. Thiol-based chemical probes exhibit antiviral activity against SARS-CoV-2 via allosteric disulfide disruption in the spike glycoprotein.

Author

Yunlong Shi, Zeida, Ari, Edwards, Caitlin E., Mallory, Michael L., Sastre, Santiago, Machado, Matías R., Pickles, Raymond J., Ling Fu, Keke Liu, Jing Yang, Baric, Ralph S., Boucher, Richard C., Radi, Rafael, and Carroll, Kate S.

Subjects
SARS-CoV-2, ANGIOTENSIN converting enzyme, REDUCING agents, COVID-19 pandemic, FIREPROOFING agents, CORONAVIRUSES
Abstract

The development of small-molecules targeting different components of SARS-CoV-2 is a key strategy to complement antibody-based treatments and vaccination campaigns in managing the COVID-19 pandemic. Here, we show that two thiol-based chemical probes that act as reducing agents, P2119 and P2165, inhibit infection by human coronaviruses, including SARS-CoV-2, and decrease the binding of spike glycoprotein to its receptor, the angiotensin-converting enzyme 2 (ACE2). Proteomics and reactive cysteine pro-filing link the antiviral activity to the reduction of key disulfides, specifically by disruption of the Cys379-Cys432 and Cys391-Cys525 pairs distal to the receptor binding motif in the receptor binding domain (RBD) of the spike glycoprotein. Computational analyses provide insight into conformation changes that occur when these disulfides break or form, consistent with an allosteric role, and indicate that P2119/P2165 target a conserved hydrophobic binding pocket in the RBD with the benzyl thiol-reducing moiety pointed directly toward Cys432. These collective findings establish the vulnerability of human coronaviruses to thiol-based chemical probes and lay the groundwork for developing compounds of this class, as a strategy to inhibit the SARS-CoV-2 infection by shifting the spike glycoprotein redox scaffold. [ABSTRACT FROM AUTHOR]

Published
2022
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37. Inefficient gene transfer by adenovirus vector to cystic fibrosis airway epithelia of mice and humans

Author

Grubb, Barbara R., Pickles, Raymond J., Ye, Hong, Yankaskas, James R., Vick, Ralph N., Engelhardt, John F., Wilson, James M., Johnson, Larry G., and Boucher, Richard C.

Subjects
Cystic fibrosis -- Genetic aspects, Adenovirus diseases -- Genetic aspects, Environmental issues, Science and technology, Zoology and wildlife conservation
Abstract

The efficacy of the in vivo transfer of complementary DNA is evaluated by the use of mice having the disrupted cystic fibrosis (CF) gene. The CF defect is corrected partially in Cl ion transport in vivo even after repeated administration of high doses of adenovirus vectors. The adenovirus vectors are not capable of correcting the sodium ion transport defect. A comparison of human and mice CF genes indicates that a difference in susceptibility to the adenovirus-5 transduction exists in human and mice genes.

Published
1994

39. A live RSV vaccine with engineered thermostability is immunogenic in cotton rats despite high attenuation

Author

Stobart, Christopher C., primary, Rostad, Christina A., additional, Ke, Zunlong, additional, Dillard, Rebecca S., additional, Hampton, Cheri M., additional, Strauss, Joshua D., additional, Yi, Hong, additional, Hotard, Anne L., additional, Meng, Jia, additional, Pickles, Raymond J., additional, Sakamoto, Kaori, additional, Lee, Sujin, additional, Currier, Michael G., additional, Moin, Syed M., additional, Graham, Barney S., additional, Boukhvalova, Marina S., additional, Gilbert, Brian E., additional, Blanco, Jorge C. G., additional, Piedra, Pedro A., additional, Wright, Elizabeth R., additional, and Moore, Martin L., additional

Published
2016
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40. NLRX1 protein attenuates inflammatory responses to virus infection by interfering with the RIG-I-MAVS signaling pathway and TRAF6 ubiquitin ligase

Author

Allen, Irving C., Moore, Chris B., Schneider, Monika, Lei, Yu, Davis, Beckley K., Scull, Margaret A., Gris, Denis, Roney, Kelly E., Zimmermann, Albert G., Bowzard, John B., Ranjan, Priya, Monroe, Kathryn M., Pickles, Raymond J., Sambhara, Suryaprakash, and Ting, Jenny P.Y.

Subjects
Article
Abstract

The nucleotide-binding domain and leucine-rich repeat containing (NLR) proteins regulate innate immunity. Although the positive regulatory impact of NLRs is clear, their inhibitory roles are not well defined. We showed Nlrx1−/− mice exhibited increased expression of antiviral signaling molecules IFN-β, STAT2, OAS1 and IL-6 after influenza virus infection. Consistent with increased inflammation, Nlrx1−/− mice exhibited marked morbidity and histopathology. Infection of these mice with an influenza strain that carries a mutated NS-1 protein, which normally prevents IFN induction by interaction with RNA and the intracellular RNA sensor RIG-I, further exacerbated IL-6 and type I IFN signaling. NLRX1 also weakened cytokine responses to the 2009 H1N1 pandemic influenza virus in human cells. Mechanistically, Nlrx1 deletion led to constitutive interaction of MAVS and RIG-I. Additionally, an inhibitory function is identified for NLRX1 during LPS-activation of macrophages where the MAVS-RIG-I pathway was not involved. NLRX1 interacts with TRAF6 and inhibits NF-κB activation. Thus, NLRX1 functions as a checkpoint of overzealous inflammation.

Published
2011

41. Infection of human mucosal tissue by Pseudomonas aeruginosa requires sequential and mutually dependent virulence factors and a novel pilus-associated adhesin

Author

Pickles, Raymond J., Wolfgang, Matthew C., Koomey, Michael, Winther-Larsen, Hanne C., and Heiniger, Ryan W.

Abstract

Tissue damage predisposes humans to life-threatening disseminating infection by the opportunistic pathogen Pseudomonas aeruginosa. Bacterial adherence to host tissue is a critical first step in this infection process. It is well established that P. aeruginosa attachment to host cells involves type IV pili (TFP), which are retractile surface fibers. The molecular details of attachment and the identity of the bacterial adhesin and host receptor remain controversial. Using a mucosal epithelium model system derived from primary human tissue, we show that the pilus-associated protein PilY1 is required for bacterial adherence. We establish that P. aeruginosa preferentially binds to exposed basolateral host cell surfaces, providing a mechanistic explanation for opportunistic infection of damaged tissue. Further, we demonstrate that invasion and fulminant infection of intact host tissue requires the coordinated and mutually dependent action of multiple bacterial factors, including pilus fiber retraction and the host cell intoxication system, termed type III secretion. Our findings offer new and important insights into the complex interactions between a pathogen and its human host and provide compelling evidence that PilY1 serves as the principal P. aeruginosa adhesin for human tissue and that it specifically recognizes a host receptor localized or enriched on basolateral epithelial cell surfaces.

Published
2010
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43. Normal and Cystic Fibrosis Airway Surface Liquid Homeostasis: THE EFFECTS OF PHASIC SHEAR STRESS AND VIRAL INFECTIONS

Author

Button, Brian, Boucher, Richard C., Pickles, Raymond J., Paradiso, Anthony M., Collins, Peter L., Tarran, Robert, Fredberg, Jeffrey J., Picher, Maryse, Lazarowski, Eduardo R., Ribeiro, Caria M., and Zhang, Liqun

Abstract

Mammalian airways normally regulate the volume of a thin liquid layer, the periciliary liquid (PCL), to facilitate the mucus clearance component of lung defense. Studies under standard (static) culture conditions revealed that normal airway epithelia possess an adenosine-regulated pathway that blends Na+ absorption and Cl− secretion to optimize PCL volume. In cystic fibrosis (CF), the absence of CF transmembrane conductance regulator results in a failure of adenosine regulation of PCL volume, which is predicted to initiate mucus stasis and infection. However, under conditions that mimic the phasic motion of the lung in vivo, ATP release into PCL was increased, CF ion transport was rebalanced, and PCL volume was restored to levels adequate for lung defense. This ATP signaling system was vulnerable, however, to insults that trigger CF bacterial infections, such as viral (respiratory syncitial virus) infections, which up-regulated extracellular ATPase activity and abolished motion-dependent ATP regulation of CF PCL height. These studies demonstrate (i) how the normal coordination of opposing ion transport pathways to maintain PCL volume is disrupted in CF, (ii) the hitherto unknown role of phasic motion in regulating key aspects of normal and CF innate airways defense, and (iii) that maneuvers directed at increasing motion-induced nucleotide release may be therapeutic in CF patients.

Published
2005
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