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668 results on '"Meyerholz, David"'

1. Adult Animal Stem Cell-Derived Organoids in Biomedical Research and the One Health Paradigm.

Author

Gabriel, Vojtech, Zdyrski, Christopher, Sahoo, Dipak, Ralston, Abigail, Wickham, Hannah, Bourgois-Mochel, Agnes, Ahmed, Basant, Merodio, Maria, Paukner, Karel, Piñeyro, Pablo, Kopper, Jamie, Rowe, Eric, Smith, Jodi, Meyerholz, David, Kol, Amir, Viall, Austin, Elbadawy, Mohamed, Mochel, Jonathan, and Allenspach, Karin

Subjects
biomedical, organoid, reverse translational research, veterinary medicine, Adult, Humans, Animals, Mice, One Health, Biomedical Research, Translational Research, Biomedical, Adult Stem Cells, Organoids
Abstract

Preclinical biomedical research is limited by the predictiveness of in vivo and in vitro models. While in vivo models offer the most complex system for experimentation, they are also limited by ethical, financial, and experimental constraints. In vitro models are simplified models that do not offer the same complexity as living animals but do offer financial affordability and more experimental freedom; therefore, they are commonly used. Traditional 2D cell lines cannot fully simulate the complexity of the epithelium of healthy organs and limit scientific progress. The One Health Initiative was established to consolidate human, animal, and environmental health while also tackling complex and multifactorial medical problems. Reverse translational research allows for the sharing of knowledge between clinical research in veterinary and human medicine. Recently, organoid technology has been developed to mimic the original organs epithelial microstructure and function more reliably. While human and murine organoids are available, numerous other organoids have been derived from traditional veterinary animals and exotic species in the last decade. With these additional organoid models, species previously excluded from in vitro research are becoming accessible, therefore unlocking potential translational and reverse translational applications of animals with unique adaptations that overcome common problems in veterinary and human medicine.

Published
2024

3. Establishment and characterization of turtle liver organoids provides a potential model to decode their unique adaptations

Author

Zdyrski, Christopher, Gabriel, Vojtech, Gessler, Thea B., Ralston, Abigail, Sifuentes-Romero, Itzel, Kundu, Debosmita, Honold, Sydney, Wickham, Hannah, Topping, Nicholas E., Sahoo, Dipak Kumar, Bista, Basanta, Tamplin, Jeffrey, Ospina, Oscar, Piñeyro, Pablo, Arriaga, Marco, Galan, Jacob A., Meyerholz, David K., Allenspach, Karin, Mochel, Jonathan P., and Valenzuela, Nicole

Published
2024
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4. Shuttle peptide delivers base editor RNPs to rhesus monkey airway epithelial cells in vivo

Author

Kulhankova, Katarina, Traore, Soumba, Cheng, Xue, Benk-Fortin, Hadrien, Hallée, Stéphanie, Harvey, Mario, Roberge, Joannie, Couture, Frédéric, Kohli, Sajeev, Gross, Thomas J, Meyerholz, David K, Rettig, Garrett R, Thommandru, Bernice, Kurgan, Gavin, Wohlford-Lenane, Christine, Hartigan-O’Connor, Dennis J, Yates, Bradley P, Newby, Gregory A, Liu, David R, Tarantal, Alice F, Guay, David, and McCray, Paul B

Subjects
Medical Physiology, Biomedical and Clinical Sciences, Biotechnology, Lung, Cystic Fibrosis, Genetics, Rare Diseases, Development of treatments and therapeutic interventions, 5.1 Pharmaceuticals, Animals, Humans, Mice, Macaca mulatta, Cystic Fibrosis Transmembrane Conductance Regulator, Epithelial Cells, Respiratory Mucosa, Ribonucleoproteins, Peptides, CRISPR-Cas Systems
Abstract

Gene editing strategies for cystic fibrosis are challenged by the complex barrier properties of airway epithelia. We previously reported that the amphiphilic S10 shuttle peptide non-covalently combined with CRISPR-associated (Cas) ribonucleoprotein (RNP) enabled editing of human and mouse airway epithelial cells. Here, we derive the S315 peptide as an improvement over S10 in delivering base editor RNP. Following intratracheal aerosol delivery of Cy5-labeled peptide in rhesus macaques, we confirm delivery throughout the respiratory tract. Subsequently, we target CCR5 with co-administration of ABE8e-Cas9 RNP and S315. We achieve editing efficiencies of up-to 5.3% in rhesus airway epithelia. Moreover, we document persistence of edited epithelia for up to 12 months in mice. Finally, delivery of ABE8e-Cas9 targeting the CFTR R553X mutation restores anion channel function in cultured human airway epithelia. These results demonstrate the therapeutic potential of base editor delivery with S315 to functionally correct the CFTR R553X mutation in respiratory epithelia.

Published
2023

5. Arteriovenous metabolomics in pigs reveals CFTR regulation of metabolism in multiple organs

Author

Bae, Hosung, Kim, Bo Ram, Jung, Sunhee, Le, Johnny, van der Heide, Dana, Yu, Wenjie, Park, Sang Hee, Hilkin, Brieanna M., Gansemer, Nicholas D., Powers, Linda S., Kang, Taekyung, Meyerholz, David K., Schuster, Victor L., Jang, Cholsoon, and Welsh, Michael J.

Subjects
Cystic fibrosis -- Diagnosis -- Care and treatment, Inflammation -- Care and treatment, Swine -- Diseases, Metabolomics -- Analysis, Health care industry, Diagnosis, Care and treatment, Analysis
Abstract

Mutations in the cystic fibrosis transmembrane conductance regulator (CFTR) gene cause cystic fibrosis (CF), a multiorgan disease that is characterized by diverse metabolic defects. However, other than specific CFTR mutations, the factors that influence disease progression and severity remain poorly understood. Aberrant metabolite levels have been reported, but whether CFTR loss itself or secondary abnormalities (infection, inflammation, malnutrition, and various treatments) drive metabolic defects is uncertain. Here, we implemented comprehensive arteriovenous metabolomics in newborn CF pigs, and the results revealed CFTR as a bona fide regulator of metabolism. CFTR loss impaired metabolite exchange across organs, including disruption of lung uptake of fatty acids, yet enhancement of uptake of arachidonic acid, a precursor of proinflammatory cytokines. CFTR loss also impaired kidney reabsorption of amino acids and lactate and abolished renal glucose homeostasis. These and additional unexpected metabolic defects prior to disease manifestations reveal a fundamental role for CFTR in controlling multiorgan metabolism. Such discovery informs a basic understanding of CF, provides a foundation for future investigation, and has implications for developing therapies targeting only a single tissue., Introduction Cystic fibrosis (CF) is an autosomal recessive disease caused by loss-of-function mutations in the gene encoding the CF transmembrane conductance regulator (CFTR) anion channel (1-4). The clinical phenotype is [...]

Published
2024
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7. Transgenic ferret models define pulmonary ionocyte diversity and function

Author

Yuan, Feng, Gasser, Grace N., Lemire, Evan, Montoro, Daniel T., Jagadeesh, Karthik, Zhang, Yan, Duan, Yifan, Ievlev, Vitaly, Wells, Kristen L., Rotti, Pavana G., Shahin, Weam, Winter, Michael, Rosen, Bradley H., Evans, Idil, Cai, Qian, Yu, Miao, Walsh, Susan A., Acevedo, Michael R., Pandya, Darpan N., Akurathi, Vamsidhar, Dick, David W., Wadas, Thaddeus J., Joo, Nam Soo, Wine, Jeffrey J., Birket, Susan, Fernandez, Courtney M., Leung, Hui Min, Tearney, Guillermo J., Verkman, Alan S., Haggie, Peter M., Scott, Kathleen, Bartels, Douglas, Meyerholz, David K., Rowe, Steven M., Liu, Xiaoming, Yan, Ziying, Haber, Adam L., Sun, Xingshen, and Engelhardt, John F.

Published
2023
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11. Microglia depletion exacerbates demyelination and impairs remyelination in a neurotropic coronavirus infection.

Author

Sariol, Alan, Mackin, Samantha, Allred, Merri-Grace, Ma, Chen, Zhou, Yu, Zhang, Qinran, Zou, Xiufen, Abrahante, Juan, Meyerholz, David, and Perlman, Stanley

Subjects
coronavirus, microglia, neuroinflammation, remyelination, virus-induced demyelination, Animals, Coronavirus Infections, Demyelinating Diseases, Disease Models, Animal, Female, Gene Expression Regulation, Immunity, Cellular, Inflammation, Male, Mice, Mice, Inbred C57BL, Microglia, Murine hepatitis virus, Myelin Sheath, Oligodendroglia, Organic Chemicals, Receptors, Granulocyte-Macrophage Colony-Stimulating Factor, Remyelination, Spinal Cord
Abstract

Microglia are considered both pathogenic and protective during recovery from demyelination, but their precise role remains ill defined. Here, using an inhibitor of colony stimulating factor 1 receptor (CSF1R), PLX5622, and mice infected with a neurotropic coronavirus (mouse hepatitis virus [MHV], strain JHMV), we show that depletion of microglia during the time of JHMV clearance resulted in impaired myelin repair and prolonged clinical disease without affecting the kinetics of virus clearance. Microglia were required only during the early stages of remyelination. Notably, large deposits of extracellular vesiculated myelin and cellular debris were detected in the spinal cords of PLX5622-treated and not control mice, which correlated with decreased numbers of oligodendrocytes in demyelinating lesions in drug-treated mice. Furthermore, gene expression analyses demonstrated differential expression of genes involved in myelin debris clearance, lipid and cholesterol recycling, and promotion of oligodendrocyte function. The results also demonstrate that microglial functions affected by depletion could not be compensated by infiltrating macrophages. Together, these results demonstrate that microglia play key roles in debris clearance and in the initiation of remyelination following infection with a neurotropic coronavirus but are not necessary during later stages of remyelination.

Published
2020

13. CFTR-rich ionocytes mediate chloride absorption across airway epithelia

Author

Lei, Lei, Traore, Soumba, Ibarra, Guillermo S. Romano, Karp, Philip H., Rehman, Tayyab, Meyerholz, David K., Zabner, Joseph, Stoltz, David A., Sinn, Patrick L., Welsh, Michael J., McCray, Paul B., Jr., and Thornell, Ian M.

Subjects
Vector Laboratories Inc., Cystic fibrosis, Health care industry
Abstract

The volume and composition of a thin layer of liquid covering the airway surface defend the lung from inhaled pathogens and debris. Airway epithelia secrete [Cl.sup.-] into the airway surface liquid through cystic fibrosis transmembrane conductance regulator (CFTR) channels, thereby increasing the volume of airway surface liquid. The discovery that pulmonary ionocytes contain high levels of CFTR led us to predict that ionocytes drive secretion. However, we found the opposite. Elevating ionocyte abundance increased liquid absorption, whereas reducing ionocyte abundance increased secretion. In contrast to other airway epithelial cells, ionocytes contained barttin/[Cl.sup.-] channels in their basolateral membrane. Disrupting barttin/[Cl.sup.-] channel function impaired liquid absorption, and overexpressing barttin/[Cl.sup.-] channels increased absorption. Together, apical CFTR and basolateral barttin/[Cl.sup.-] channels provide an electrically conductive pathway for [Cl.sup.-] flow through ionocytes, and the transepithelial voltage generated by apical [Na.sup.+] channels drives absorption. These findings indicate that ionocytes mediate liquid absorption, and secretory cells mediate liquid secretion. Segregating these counteracting activities to distinct cell types enables epithelia to precisely control the airway surface. Moreover, the divergent role of CFTR in ionocytes and secretory cells suggests that cystic fibrosis disrupts both liquid secretion and absorption., Introduction Pulmonary ionocytes are a rare cell type accounting for approximately 1% of airway epithelial cells. Ionocytes have attracted attention because, although rare, in airway epithelia they contain about half [...]

Published
2023
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14. Derivation of adult canine intestinal organoids for translational research in gastroenterology.

Author

Chandra, Lawrance, Borcherding, Dana, Kingsbury, Dawn, Atherly, Todd, Ambrosini, Yoko, Bourgois-Mochel, Agnes, Yuan, Wang, Kimber, Michael, Qi, Yijun, Wang, Qun, Wannemuehler, Michael, Ellinwood, N, Snella, Elizabeth, Martin, Martin, Skala, Melissa, Meyerholz, David, Estes, Mary, Fernandez-Zapico, Martin, Jergens, Albert, Mochel, Jonathan, and Allenspach, Karin

Subjects
Canine, Enteroid, GI diseases, Intestinal stem cell, Organoid model, Translational research, Animals, Dog Diseases, Dogs, Gastroenterology, Intestines, Organoids, Stem Cells, Translational Research, Biomedical
Abstract

BACKGROUND: Large animal models, such as the dog, are increasingly being used for studying diseases including gastrointestinal (GI) disorders. Dogs share similar environmental, genomic, anatomical, and intestinal physiologic features with humans. To bridge the gap between commonly used animal models, such as rodents, and humans, and expand the translational potential of the dog model, we developed a three-dimensional (3D) canine GI organoid (enteroid and colonoid) system. Organoids have recently gained interest in translational research as this model system better recapitulates the physiological and molecular features of the tissue environment in comparison with two-dimensional cultures. RESULTS: Organoids were derived from tissue of more than 40 healthy dogs and dogs with GI conditions, including inflammatory bowel disease (IBD) and intestinal carcinomas. Adult intestinal stem cells (ISC) were isolated from whole jejunal tissue as well as endoscopically obtained duodenal, ileal, and colonic biopsy samples using an optimized culture protocol. Intestinal organoids were comprehensively characterized using histology, immunohistochemistry, RNA in situ hybridization, and transmission electron microscopy, to determine the extent to which they recapitulated the in vivo tissue characteristics. Physiological relevance of the enteroid system was defined using functional assays such as optical metabolic imaging (OMI), the cystic fibrosis transmembrane conductance regulator (CFTR) function assay, and Exosome-Like Vesicles (EV) uptake assay, as a basis for wider applications of this technology in basic, preclinical and translational GI research. We have furthermore created a collection of cryopreserved organoids to facilitate future research. CONCLUSIONS: We establish the canine GI organoid systems as a model to study naturally occurring intestinal diseases in dogs and humans, and that can be used for toxicology studies, for analysis of host-pathogen interactions, and for other translational applications.

Published
2019

17. Eicosanoid signalling blockade protects middle-aged mice from severe COVID-19

Author

Wong, Lok-Yin Roy, Zheng, Jian, Wilhelmsen, Kevin, Li, Kun, Ortiz, Miguel E., Schnicker, Nicholas J., Thurman, Andrew, Pezzulo, Alejandro A., Szachowicz, Peter J., Li, Pengfei, Pan, Ruangang, Klumpp, Klaus, Aswad, Fred, Rebo, Justin, Narumiya, Shuh, Murakami, Makoto, Zuniga, Sonia, Sola, Isabel, Enjuanes, Luis, Meyerholz, David K., Fortney, Kristen, McCray, Jr, Paul B., and Perlman, Stanley

Published
2022
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22. Loss of murine Paneth cell function alters the immature intestinal microbiome and mimics changes seen in neonatal necrotizing enterocolitis

Author

Lueschow, Shiloh R, Stumphy, Jessica, Gong, Huiyu, Kern, Stacy L, Elgin, Timothy G, Underwood, Mark A, Kalanetra, Karen M, Mills, David A, Wong, Melissa H, Meyerholz, David K, Good, Misty, and McElroy, Steven J

Subjects
Microbiology, Biological Sciences, Biomedical and Clinical Sciences, Digestive Diseases, Perinatal Period - Conditions Originating in Perinatal Period, Infant Mortality, Rare Diseases, Preterm, Low Birth Weight and Health of the Newborn, Pediatric, 2.1 Biological and endogenous factors, Aetiology, Good Health and Well Being, Animals, Animals, Newborn, Autophagosomes, Cecum, Cytokines, Diphtheria Toxin, Disease Models, Animal, Dithizone, Enterobacteriaceae, Enterocolitis, Necrotizing, Gastrointestinal Microbiome, Klebsiella pneumoniae, Mice, Mice, Inbred C57BL, Muramidase, Paneth Cells, General Science & Technology
Abstract

Necrotizing enterocolitis (NEC) remains the leading cause of gastrointestinal morbidity and mortality in premature infants. Human and animal studies suggest a role for Paneth cells in NEC pathogenesis. Paneth cells play critical roles in host-microbial interactions and epithelial homeostasis. The ramifications of eliminating Paneth cell function on the immature host-microbial axis remains incomplete. Paneth cell function was depleted in the immature murine intestine using chemical and genetic models, which resulted in intestinal injury consistent with NEC. Paneth cell depletion was confirmed using histology, electron microscopy, flow cytometry, and real time RT-PCR. Cecal samples were analyzed at various time points to determine the effects of Paneth cell depletion with and without Klebsiella gavage on the microbiome. Deficient Paneth cell function induced significant compositional changes in the cecal microbiome with a significant increase in Enterobacteriacae species. Further, the bloom of Enterobacteriaceae species that occurs is phenotypically similar to what is seen in human NEC. This further strengthens our understanding of the importance of Paneth cells to intestinal homeostasis in the immature intestine.

Published
2018

23. Swine models in translational research and medicine.

Author

Meyerholz, David K., Burrough, Eric R., Kirchhof, Nicole, Anderson, Douglas J., and Helke, Kristi L.

Subjects
SWINE, TRANSLATIONAL research, SWINE diseases
Abstract

Swine are increasingly studied as animal models of human disease. The anatomy, size, longevity, physiology, immune system, and metabolism of swine are more like humans than traditional rodent models. In addition, the size of swine is preferred for surgical placement and testing of medical devices destined for humans. These features make swine useful for biomedical, pharmacological, and toxicological research. With recent advances in gene-editing technologies, genetic modifications can readily and efficiently be made in swine to study genetic disorders. In addition, gene-edited swine tissues are necessary for studies testing and validating xenotransplantation into humans to meet the critical shortfall of viable organs versus need. Underlying all of these biomedical applications, the knowledge of husbandry, background diseases and lesions, and biosecurity needs are important for productive, efficient, and reproducible research when using swine as a human disease model for basic research, preclinical testing, and translational studies. [ABSTRACT FROM AUTHOR]

Published
2024
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24. NF1+/ex42del miniswine model the cellular disruptions and behavioral presentations of NF1‐associated cognitive and motor impairment.

Author

Swier, Vicki J., White, Katherine A., Negrão de Assis, Pedro L., Johnson, Tyler B., Leppert, Hannah G., Rechtzigel, Mitchell J., Meyerholz, David K., Dodd, Rebecca D., Quelle, Dawn E., Khanna, Rajesh, Rogers, Christopher S., and Weimer, Jill M.

Subjects
COGNITION disorders, HUMAN anatomy, NEURAL circuitry, CINGULATE cortex, MEMORY disorders, EXECUTIVE function, MOTOR cortex, NEURAL transmission
Abstract

Cognitive or motor impairment is common among individuals with neurofibromatosis type 1 (NF1), an autosomal dominant tumor‐predisposition disorder. As many as 70% of children with NF1 report difficulties with spatial/working memory, attention, executive function, and fine motor movements. In contrast to the utilization of various Nf1 mouse models, here we employ an NF1+/ex42del miniswine model to evaluate the mechanisms and characteristics of these presentations, taking advantage of a large animal species more like human anatomy and physiology. The prefrontal lobe, anterior cingulate, and hippocampus from NF1+/ex42del and wild‐type miniswine were examined longitudinally, revealing abnormalities in mature oligodendrocytes and astrocytes, and microglial activation over time. Imbalances in GABA: Glutamate ratios and GAD67 expression were observed in the hippocampus and motor cortex, supporting the role of disruption in inhibitory neurotransmission in NF1 cognitive impairment and motor dysfunction. Moreover, NF1+/ex42del miniswine demonstrated slower and shorter steps, indicative of a balance‐preserving response commonly observed in NF1 patients, and progressive memory and learning impairments. Collectively, our findings affirm the effectiveness of NF1+/ex42del miniswine as a valuable resource for assessing cognitive and motor impairments associated with NF1, investigating the involvement of specific neural circuits and glia in these processes, and evaluating potential therapeutic interventions. [ABSTRACT FROM AUTHOR]

Published
2024
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31. Evidence of antigenic drift in the fusion machinery core of SARS-CoV-2 spike.

Author

Tan, Timothy J. C., Verma, Abhishek K., Odle, Abby, Ruipeng Lei, Meyerholz, David K., Matreyek, Kenneth A., Perlman, Stanley, Lok-Yin Roy Wong, and Wu, Nicholas C.

Subjects
SARS-CoV-2 Omicron variant, SARS-CoV-2 Delta variant, SARS-CoV-2, IMMUNE response, COVID-19 vaccines, GENETIC counseling
Abstract

Antigenic drift of SARS-CoV-2 is typically defined by mutations in the N-terminal domain and receptor binding domain of spike protein. In contrast, whether antigenic drift occurs in the S2 domain remains largely elusive. Here, we perform a deep mutational scanning experiment to identify S2 mutations that affect binding of SARS-CoV-2 spike to three S2 apex public antibodies. Our results indicate that spatially diverse mutations, including D950N and Q954H, which are observed in Delta and Omicron variants, respectively, weaken the binding of spike to these antibodies. Although S2 apex antibodies are known to be nonneutralizing, we show that they confer protection in vivo through Fc-mediated effector functions. Overall, this study indicates that the S2 domain of SARS-CoV-2 spike can undergo antigenic drift, which represents a potential challenge for the development of more universal coronavirus vaccines. [ABSTRACT FROM AUTHOR]

Published
2024
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32. MERS coronaviruses from camels in Africa exhibit region-dependent genetic diversity

Author

Chu, Daniel K. W., Hui, Kenrie P. Y., Perera, Ranawaka A. P. M., Miguel, Eve, Niemeyer, Daniela, Zhao, Jincun, Channappanavar, Rudragouda, Dudas, Gytis, Oladipo, Jamiu O., Traoré, Amadou, Fassi-Fihri, Ouafaa, Ali, Abraham, Demissié, Getnet F., Muth, Doreen, Chan, Michael C. W., Nicholls, John M., Meyerholz, David K., Kuranga, Sulyman A., Mamo, Gezahegne, Zhou, Ziqi, So, Ray T. Y., Hemida, Maged G., Webby, Richard J., Roger, Francois, Rambaut, Andrew, Poon, Leo L. M., Perlman, Stanley, Drosten, Christian, Chevalier, Veronique, and Peiris, Malik

Published
2018

34. IFN-I response timing relative to virus replication determines MERS coronavirus infection outcomes

Author

Channappanavar, Rudragouda, Fehr, Anthony R., Zheng, Jian, Wohlford-Lenane, Christine, Abrahante, Juan E., Mack, Matthias, Sompallae, Ramakrishna, McCray, Paul B., Jr., Meyerholz, David K., and Perlman, Stanley

Subjects
Vaccines -- Personal narratives -- Health aspects, Middle East respiratory syndrome -- Development and progression -- Personal narratives -- Health aspects, Virus diseases -- Development and progression -- Personal narratives -- Health aspects, Virus replication -- Personal narratives -- Health aspects, Drug approval -- Personal narratives -- Health aspects, Gene expression -- Personal narratives -- Health aspects, T cells -- Personal narratives -- Health aspects, Genes, Inflammation, Macrophages, Pneumonia, Infection, Health care industry, The University of Iowa
Abstract

Type 1 IFNs (IFN-I) generally protect mammalian hosts from virus infections, but in some cases, IFN-I is pathogenic. Because IFN-I is protective, it is commonly used to treat virus infections for which no specific approved drug or vaccine is available. The Middle East respiratory syndrome-coronavirus (MERS-CoV) is such an infection, yet little is known about the role of IFN-I in this setting. Here, we show that IFN-I signaling is protective during MERS- CoV infection. Blocking IFN-I signaling resulted in delayed virus clearance, enhanced neutrophil infiltration, and impaired MERS- CoV-specific T cell responses. Notably, IFN-I administration within 1 day after infection (before virus titers peak) protected mice from lethal infection, despite a decrease in IFN-stimulated gene (ISG) and inflammatory cytokine gene expression. In contrast, delayed IFN-[beta] treatment failed to effectively inhibit virus replication; increased infiltration and activation of monocytes, macrophages, and neutrophils in the lungs; and enhanced proinflammatory cytokine expression, resulting in fatal pneumonia in an otherwise sublethal infection. Together, these results suggest that the relative timing of the IFN-I response and maximal virus replication is key in determining outcomes, at least in infected mice. By extension, IFN-[alpha][beta] or combination therapy may need to be used cautiously to treat viral infections in clinical settings., Introduction Emerging and reemerging highly pathogenic zoonotic viruses are a significant threat to global public health (1-3). This threat is illustrated by the appearance of several highly pathogenic respiratory viruses [...]

Published
2019
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35. RABL6A inhibits tumor-suppressive PP2A/AKT signaling to drive pancreatic neuroendocrine tumor growth

Author

Umesalma, Shaikamjad, Kaemmer, Courtney A., Kohlmeyer, Jordan L., Letney, Blake, Schab, Angela M., Reilly, Jacqueline A., Sheehy, Ryan M., Hagen, Jussara, Tiwari, Nitija, Zhan, Fenghuang, Leidinger, Mariah R., O'Dorisio, Thomas M., Dillon, Joseph, Merrill, Ronald A., Meyerholz, David K., Perl, Abbey L., Brown, Bart J., Braun, Terry A., Scott, Aaron T., Ginader, Timothy, Taghiyev, Agshin F., Zamba, Gideon K., Howe, James R., Strack, Stefan, Bellizzi, Andrew M., Narla, Goutham, Darbro, Benjamin W., Quelle, Frederick W., and Quelle, Dawn E.

Subjects
Everolimus -- Usage, Neuroendocrine tumors -- Care and treatment -- Development and progression -- Patient outcomes, Cancer treatment, Sunitinib, Phosphatases, Tumors, Novels, Health care industry
Abstract

Hyperactivated AKT/mTOR signaling is a hallmark of pancreatic neuroendocrine tumors (PNETs). Drugs targeting this pathway are used clinically, but tumor resistance invariably develops. A better understanding of factors regulating AKT/mTOR signaling and PNET pathogenesis is needed to improve current therapies. We discovered that RABL6A, a new oncogenic driver of PNET proliferation, is required for AKT activity. Silencing RABL6A caused PNET cell-cycle arrest that coincided with selective loss of AKT-S473 (not T308) phosphorylation and AKT/mTOR inactivation. Restoration of AKT phosphorylation rescued the G1 phase block triggered by RABL6A silencing. Mechanistically, loss of AKT-S473 phosphorylation in RABL6A-depleted cells was the result of increased protein phosphatase 2A (PP2A) activity. Inhibition of PP2A restored phosphorylation of AKT-S473 in RABL6A-depleted cells, whereas PP2A reactivation using a specific small-molecule activator of PP2A (SMAP) abolished that phosphorylation. Moreover, SMAP treatment effectively killed PNET cells in a RABL6A-dependent manner and suppressed PNET growth in vivo. The present work identifies RABL6A as a new inhibitor of the PP2A tumor suppressor and an essential activator of AKT in PNET cells. Our findings offer what we believe is a novel strategy of PP2A reactivation for treatment of PNETs as well as other human cancers driven by RABL6A overexpression and PP2A inactivation., Introduction Neuroendocrine tumors (NETs) are malignancies that are clinically challenging to manage and treat whose incidence is steadily increasing (1, 2). They are slow growing, biologically diverse tumors that arise [...]

Published
2019
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37. Gel-forming mucins form distinct morphologic structures in airways

Author

Ostedgaard, Lynda S., Moninger, Thomas O., McMenimen, James D., Sawin, Nicholas M., Parker, Connor P., Thornell, Ian M., Powers, Linda S., Gansemer, Nicholas D., Bouzek, Drake C., Cook, Daniel P., Meyerholz, David K., Alaiwa, Mahmoud H. Abou, Stoltz, David A., and Welsh, Michael J.

Published
2017

41. Solitary Cholinergic Stimulation Induces Airway Hyperreactivity and Transcription of Distinct Pro-inflammatory Pathways

Author

Reznikov, Leah R., Meyerholz, David K., Kuan, Shin-Ping, Guevara, Maria V., Atanasova, Kalina R., and Abou Alaiwa, Mahmoud H.

Subjects
Inflammation -- Complications and side effects -- Genetic aspects -- Research, Asthma -- Development and progression -- Genetic aspects -- Research, Health
Abstract

Airway hyperreactivity is a hallmark feature of asthma and can be precipitated by airway insults, such as ozone exposure or viral infection. A proposed mechanism linking airway insults to airway hyperreactivity is augmented cholinergic transmission. In the current study, we tested the hypothesis that acute potentiation of cholinergic transmission is sufficient to induce airway hyperreactivity. We atomized the cholinergic agonist bethanechol to neonatal piglets and forty-eight hours later measured airway resistance. Bethanechol-treated piglets displayed increased airway resistance in response to intravenous methacholine compared to saline-treated controls. In the absence of an airway insult, we expected to find no evidence of airway inflammation; however, transcripts for several asthma-associated cytokines, including IL17A, IL1A, and IL8, were elevated in the tracheas of bethanechol-treated piglets. In the lungs, prior bethanechol treatment increased transcripts for IFN[gamma] and its downstream target CXCL10. These findings suggest that augmented cholinergic transmission is sufficient to induce airway hyperreactivity, and raise the possibility that cholinergic-mediated regulation of pro-inflammatory pathways might contribute., Author(s): Leah R. Reznikov [sup.1] , David K. Meyerholz [sup.2] , Shin-Ping Kuan [sup.1] , Maria V. Guevara [sup.1] , Kalina R. Atanasova [sup.1] , Mahmoud H. Abou Alaiwa [sup.3] [...]

Published
2018
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42. Microglia are required for protection against lethal coronavirus encephalitis in mice

Author

Wheeler, D. Lori, Sariol, Alan, Meyerholz, David K., and Perlman, Stanley

Subjects
Coronavirus infections -- Development and progression -- Care and treatment, Microglia -- Health aspects, Viral encephalitis -- Development and progression -- Care and treatment, Health care industry
Abstract

Recent findings have highlighted the role of microglia in orchestrating normal development and refining neural network connectivity in the healthy CNS. Microglia are not only vital cells in maintaining CNS homeostasis, but also respond to injury, infection, and disease by undergoing proliferation and changes in transcription and morphology. A better understanding of the specific role of microglia in responding to viral infection is complicated by the presence of nonmicroglial myeloid cells with potentially overlapping function in the healthy brain and by the rapid infiltration of hematopoietic myeloid cells into the brain in diseased states. Here, we used an inhibitor of colony-stimulating factor 1 receptor (CSF1R) that depletes microglia to examine the specific roles of microglia in response to infection with the mouse hepatitis virus (MHV), a neurotropic coronavirus. Our results show that microglia were required during the early days after infection to limit MHV replication and subsequent morbidity and lethality. Additionally, microglia depletion resulted in ineffective T cell responses. These results reveal nonredundant, critical roles for microglia in the early innate and virus-specific T cell responses and for subsequent host protection from viral encephalitis., Introduction Microglia are CNS-resident mononuclear phagocytic cells typified by a unique ramified shape and distinctive gene expression (1, 2). Unlike blood-derived macrophages, however, most microglia are derived from a yolk [...]

Published
2018
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43. Coronavirus-specific antibody production in middle-aged mice requires phospholipase [A.sub.2]G2D

Author

Zheng, Jian, Meyerholz, David, Wong, Lok-Yin Roy, Gelb, Michael, Murakami, Makoto, and Perlman, Stanley

Subjects
Age factors in disease -- Physiological aspects, Phospholipases -- Physiological aspects -- Health aspects, Lungs -- Physiological aspects -- Health aspects, Health care industry
Abstract

Worse outcomes occur in aged compared with young populations after infections with respiratory viruses, including pathogenic coronaviruses (SARS-CoV, MERS-CoV, and SARS-CoV-2), and are associated with a suboptimal lung milieu ('inflammaging'). We previously showed that a single inducible phospholipase, [PLA.sub.2]G2D, is associated with a proresolving/antiinflammatory response in the lungs, and increases with age. Survival was increased in naive [Pla2g2d.sup.-/-] mice infected with SARS-CoV resulting from augmented respiratory dendritic cell (rDC) activation and enhanced priming of virus-specific T cells. Here, in contrast, we show that intranasal immunization provided no additional protection in middle-aged [Pla2g2d.sup.-/-] mice infected with any of the 3 pathogenic human coronaviruses because virtually no virus-specific antibodies or follicular helper [CD4.sup.+] T (Tfh) cells were produced. Using MERS-CoV-infected mice, we found that these effects did not result from T or B cell intrinsic factors. Rather, they resulted from enhanced, and ultimately, pathogenic rDC activation, as manifested most prominently by enhanced IL-1[beta] expression. Wild-type rDC transfer to [Pla2g2d.sup.-/-] mice in conjunction with partial IL-1[beta] blockade reversed this defect and resulted in increased virus-specific antibody and Tfh responses. Together, these results indicate that [PLA.sub.2]G2D has an unexpected role in the lungs, serving as an important modulator of rDC activation, with protective and pathogenic effects in respiratory coronavirus infections and immunization, respectively., Introduction Pathogenic human coronaviruses, which include severe acute respiratory syndrome-coronavirus (SARS-CoV), Middle East respiratory syndrome-CoV (MERS-CoV), and SARS-CoV-2, cause lethal pneumonia. COVID-19, caused by SARS-CoV-2, has reached pandemic proportions, with [...]

Published
2021
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47. Airway acidification initiates host defense abnormalities in cystic fibrosis mice

Author

Shah, Viral S., Meyerholz, David K., Tang, Xiao Xiao, Reznikov, Leah, Alaiwa, Mahmoud Abou, Ernst, Sarah E., Karp, Philip H., Wohlford-Lenane, Christine L., Heilmann, Kristopher P., Leidinger, Mariah R., Allen, Patrick D., Zabner, Joseph, McCray, Paul B., Ostedgaard, Lynda S., Stoltz, David A., Randak, Christoph O., and Welsh, Michael J.

Published
2016

49. Does common cold coronavirus infection protect against severe SARS-CoV-2 disease?

Author

Meyerholz, David K. and Perlman, Stanley

Subjects
Epidemics -- Control -- United States, Medical research, Medicine, Experimental, Cold (Disease) -- Physiological aspects, Disease susceptibility -- Research, Health care industry
Abstract

The coronavirus disease 2019 (COVID-19) pandemic continues to cause morbidity and mortality. Since SARS coronavirus 2 (SARS-CoV-2) was identified as the cause for COVID-19, some have questioned whether exposure to seasonal common cold coronaviruses (CCCs) could provide tangible protection against SARS-CoV-2 infection or disease. In this issue of the JCI, Sagar et al. examined SARS-CoV-2 infections and outcomes of patients who had previously tested positive or negative for CCC infection (CCC* or CCC) by a comprehensive respiratory panel using PCR. No differences were seen between groups in terms of susceptibility to SARS-CoV-2 infection. However, hospitalized patients with a documented history of CCC infection had lower rates of intensive care unit (ICU) admissions and higher rates of survival than hospitalized CCC- patients. While these findings are associative and not causative, they highlight evidence suggesting that previous CCC infection may influence the disease course of SARS-CoV-2 infection., Common cold coronaviruses SARS coronavirus 2 (SARS-CoV-2) emerged in 2019 and continues to cause the worldwide pandemic known as coronavirus disease 2019 (COVID-19) (1, 2). Clinical symptoms typically emerge within [...]

Published
2021
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