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7. Murine pancreatic duct ligation induces stress kinase activation, acute pancreatitis, and acute lung injury

Author

Meyerholz, David K., Williard, Deborah E., Grittmann, Ana-Maria, and Samuel, Isaac

Subjects
Acute respiratory distress syndrome, Pancreatitis, Health
Abstract

To link to full-text access for this article, visit this link: http://dx.doi.org/10.1016/j.amjsurg.2008.07.009 Byline: David K. Meyerholz (a), Deborah E. Williard (b), Ana-Maria Grittmann (b), Isaac Samuel (b)(c) Keywords: Acute pancreatitis; Mouse; Acute lung injury; Pancreatic duct; Morphology; Acinar cell; Stress kinases Abstract: Acute lung injury is a major determinant of outcomes in acute pancreatitis. We evaluated acute lung injury and stress kinase activation in ligation-induced acute pancreatitis in mice. Author Affiliation: (a) Department of Pathology, University of Iowa Roy J. and Lucille A. Carver College of Medicine, Iowa City, IA, USA (b) Department of Surgery, University of Iowa Roy J. and Lucille A. Carver College of Medicine, Iowa City, IA, USA (c) Department of Surgery, Veterans Affairs Medical Center, Iowa City, IA, USA Article History: Received 20 May 2008; Revised 21 July 2008 Article Note: (footnote) Dr. I. Samuel was supported for this work by a National Institutes of Health NIDDK Career Development Award (Grant No. K08-DK062805) and a VA Merit Review Award. Dr. D.K. Meyerholz was supported in part by the Department of Pathology, University of Iowa Carver College of Medicine.

Published
2008

10. Genetic ataxia telangiectasia porcine model phenocopies the multisystemic features of the human disease.

Author

Beraldi, Rosanna, Meyerholz, David K., Savinov, Alexei, Kovács, Attila D., Weimer, Jill M., Dykstra, Jordan A., Geraets, Ryan D., and Pearce, David A.

Subjects
*ATAXIA telangiectasia, *CEREBELLUM degeneration, *LUNG diseases, *APOPTOSIS, *KILLER cells, *PATIENTS
Abstract

Ataxia telangiectasia (AT) is a progressive multisystem autosomal recessive disorder caused by mutations in the AT-mutated ( ATM ) gene. Early onset AT in children is characterized by cerebellar degeneration, leading to motor impairment. Lung disease and cancer are the two most common causes of death in AT patients. Accelerated thymic involution may contribute to the cancer, and recurrent and/or chronic respiratory infections may be a contributing factor to lung disease in AT. AT patients have fertility issues, are highly sensitive to ionizing radiation and they present oculocutaneous telangiectasia. Current treatments only slightly ameliorate disease symptoms; therapy that alters or reverses the course of the disease has not yet been discovered. Previously, we have shown that ATM −/− pigs, a novel model of AT, present with a loss of Purkinje cells, altered cerebellar cytoarchitecture and motor coordination deficits. ATM −/− porcine model not only recapitulates the neurological phenotype, but also other multifaceted clinical features of the human disease. Our current study shows that ATM −/− female pigs are infertile, with anatomical and functional signs of an immature reproductive system. Both male and female ATM −/− pigs show abnormal thymus structure with decreased cell cycle and apoptosis markers in the gland. Moreover, ATM −/− pigs have an altered immune system with decreased CD8 + and increased natural killer and CD4 + CD8 + double-positive cells. Nevertheless, ATM −/− pigs manifest a deficient IgG response after a viral infection. Based on the neurological and peripheral phenotypes, the ATM −/− pig is a novel genetic model that may be used for therapeutic assessments and to identify pathomechanisms of this disease. [ABSTRACT FROM AUTHOR]

Published
2017
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11. Simple and reproducible approaches for the collection of select porcine ganglia.

Author

Meyerholz, David K. and Reznikov, Leah R.

Subjects
*GANGLIA, *SWINE physiology, *MOLECULAR neurobiology, *ANIMAL models of psychopharmacology, *MOLECULAR structure
Abstract

Background The anatomy and physiology of the pig nervous system is more similar to humans compared to traditional rodent models. This makes the pig an attractive model to answer questions relating to human health and disease. Yet the technical and molecular tools available to pig researchers are limited compared to rodent researchers. New method We developed simple and rapid methods to isolate the trigeminal, nodose (distal vagal), and dorsal root ganglia from neonatal pigs. We selected these ganglia due to their broad applicability to basic science researchers and clinicians. Results Use of these methods resulted in reproducible isolation of all three types of ganglia as validated by histological examination. Comparison with existing method(s) There are currently no methods that describe a step-by-step protocol to isolate these porcine ganglia. Conclusions In conclusion, these methods for ganglia collection will facilitate and accelerate future neuroscience investigations in pig models of human disease. [ABSTRACT FROM AUTHOR]

Published
2017
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14. Systemic inflammation with multiorgan dysfunction is the cause of death in murine ligation-induced acute pancreatitis.

Author

Yuan, Zuobiao, Meyerholz, David, Twait, Erik, Kempuraj, Duraisamy, Williard, Deborah, Samuel, Isaac, Meyerholz, David K, Twait, Erik C, and Williard, Deborah E

Subjects
*MULTIPLE organ failure, *PANCREATITIS, *CAUSES of death, *CELLULAR signal transduction, *INFLAMMATION, *LIGATURE (Surgery), *LABORATORY mice, *ANIMAL experimentation, *BILE ducts, *BIOLOGICAL models, *COMPARATIVE studies, *RESEARCH methodology, *MEDICAL cooperation, *MICE, *PANCREATIC duct, *RESEARCH, *EVALUATION research, *SYSTEMIC inflammatory response syndrome, *SURGERY, BILE duct surgery
Abstract

Background: We have previously shown that distal pancreatic duct ligation-induced acute pancreatitis in mice is associated with substantial mortality.Methods: We examined the cause of death in duct ligation-induced acute pancreatitis in mice by serial examination of multiple parameters in three experimental groups: distal pancreatic duct ligation (PD), bile duct ligation alone (BD), and sham operation (S).Results: BD and S had no mortality, while PD had 94% mortality with most deaths between days 2 and 4. Characteristics of mice with acute pancreatitis included (ANOVA; p < 0.05): extracellular regulated kinase activation in the pancreas and lung; pancreatic neutrophil infiltration and acinar cell necrosis maximal on day 2; increased plasma cytokine and aspartate aminotransferase levels and bronchoalveolar lavage fluid neutrophil count and cytokine levels, peaked on day 3; hypotension and bradycardia were worst on day 4; pulmonary neutrophil infiltration and plasma creatinine level peaked on day 4. Liver injury evidenced by raised aspartate serum transaminase after hepatic obstruction was exacerbated by PD.Conclusions: Systemic inflammation with multiorgan dysfunction causes death in pancreatic duct ligation-induced acute pancreatitis in mice. This experimental model is a suitable experimental analogy of "early severe gallstone pancreatitis" to investigate disease pathogenesis and to evaluate novel therapeutic strategies. [ABSTRACT FROM AUTHOR]

Published
2011
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15. Lessons learned from the cystic fibrosis pig.

Author

Meyerholz, David K.

Subjects
*SWINE embryology, *CYSTIC fibrosis, *LUNG diseases, *ION channels, *ELECTRIC properties of biological membranes, *PATIENTS, *DISEASE risk factors
Abstract

Deficient function in the anion channel cystic fibrosis (CF) transmembrane conductance regulator is the fundamental cause for CF. This is a monogenic condition that causes lesions in several organs including the respiratory tract, pancreas, liver, intestines, and reproductive tract. Lung disease is most notable, given it is the leading cause of morbidity and mortality in people with CF. Shortly after the identification of CF transmembrane conductance regulator, CF mouse models were developed that did not show spontaneous lung disease as seen in humans, and this spurred development of additional CF animal models. Pig models were considered a leading choice for several reasons including their similarity to humans in respiratory anatomy, physiology, and in size for translational imaging. The first CF pig models were reported in 2008 and have been extremely valuable to help clarify persistent questions in the field and advance understanding of disease pathogenesis. Because CF pigs are susceptible to lung disease like humans, they have direct utility in translational research. In addition, CF pig models are useful to compare and contrast with current CF mouse models, human clinical studies, and even newer CF animal models being characterized. This “triangulation” strategy could help identify genetic differences that underlie phenotypic variations, so as to focus and accelerate translational research. [ABSTRACT FROM AUTHOR]

Published
2016
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16. Morphologic characterization of early ligation–induced acute pancreatitis in rats

Author

Meyerholz, David K. and Samuel, Isaac

Subjects
*PANCREATITIS, *INFLAMMATION, *PANCREATIC diseases, *NECROTIZING pancreatitis, *PANCREATITIS diagnosis, *PANCREATIC duct, *ANIMAL experimentation, *APOPTOSIS, *BIOLOGICAL models, *CELL physiology, *COMPARATIVE studies, *IMMUNOHISTOCHEMISTRY, *LIGATURE (Surgery), *MACROPHAGES, *RESEARCH methodology, *MEDICAL cooperation, *NEUTROPHILS, *RATS, *RESEARCH, *EVALUATION research, *ACUTE diseases, *SURGERY
Abstract

Background: Bile-pancreatic duct ligation in rats causes acute pancreatic inflammation. We performed serial morphologic evaluation of the exocrine pancreas after duct ligation to facilitate further investigations using the model.Methods: The pancreas was excised from 74 rats after 0, 1, 3, 5, 24 or 48 hours of duct ligation or sham surgery. A pathologist evaluated 1 hematoxylin- and eosin-stained slide from each rat. Confirmatory immunostaining was performed with markers for apoptosis (activated caspase-3), proliferation (cyclin D3), neutrophils (myeloperoxidase), and macrophages (CD68).Results: Interstitial edema and white blood cell infiltration were apparent at 24 hours and increased at 48 hours. Progressive periods of duct ligation were characterized by ductular ectasia (1 to 3 hours), acinar vacuolization (5 to 48 hours), leukocytic margination and neutrophil exocytosis (5 to 48 hours), ductule epithelium hypertrophy and proliferation (24 to 48 hours), and discernible loss of zymogen granules (48 hours).Conclusions: Ligation-induced acute pancreatitis in rats is a useful model to investigate early events in disease pathogenesis. [ABSTRACT FROM AUTHOR]

Published
2007
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17. Expression of select immune genes (surfactant proteins A and D, sheep beta defensin 1, and toll-like receptor 4) by respiratory epithelia is developmentally regulated in the preterm neonatal lamb

Author

Meyerholz, David K., Kawashima, Kenji, Gallup, Jack M., Grubor, Branka, and Ackermann, Mark R.

Subjects
*MESSENGER RNA, *SURFACE active agents, *DNA polymerases, *PARAMYXOVIRUSES
Abstract

Abstract: Preterm infants experience enhanced susceptibility and severity to respiratory syncytial virus (RSV) infection. Terminal airway epithelium is an important site of RSV infection and the extent of local innate immune gene expression is poorly understood. In this study, expression of surfactant proteins A and D (SP-AD), sheep beta defensin 1 (SBD1), and toll-like receptor 4 (TLR4) mRNA were determined in whole lung homogenates from lambs. SP-AD and TLR4 mRNA expression increased (p<0.05) from late gestation to term birth. In addition, gene expression of LCM-retrieved type II pneumocytes (CD208+), adjacent epithelium (CD208−) and bronchial epithelium demonstrated that bronchiole-alveolar junction epithelium (combined CD208+/−) had significant (p<0.05) developmental increases in SP-AD, SBD1 and TLR4 mRNA, whereas CD208+ cells had statistically significant increases only with SP-A mRNA. Using immunofluorescence, SP-AD antigen distribution and intensity were also greater with developmental age. These studies show reduced SBD1, SP-AD, and TLR4 expression in the preterm lung and this may underlie enhanced RSV susceptibility. [Copyright &y& Elsevier]

Published
2006
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18. Reduced clearance of respiratory syncytial virus infection in a preterm lamb model

Author

Meyerholz, David K., Grubor, Branka, Fach, Sasha J., Sacco, Randy E., Lehmkuhl, Howard D., Gallup, Jack M., and Ackermann, Mark R.

Subjects
*PARAMYXOVIRUSES, *RESPIRATORY syncytial virus, *VIRUS diseases, *EPITHELIUM
Abstract

Abstract: Respiratory syncytial virus (RSV) causes significant respiratory disease in children worldwide. For the study of severe RSV disease seen in preterm infants, a suitable animal model is lacking. The novel hypothesis of this study was that preterm lambs are susceptible to bovine RSV (bRSV) infection, an analogous pneumovirus with ruminant host specificity, and that there would be age-dependent differences in select RSV disease parameters. During RSV infection, preterm lambs had elevated temperatures and respiration rates with mild anorexia and cough compared to controls. Gross lesions included multifocal consolidation and atelectasis with foci of hyperinflation. Microscopic lesions included multifocal alveolar septal thickening and bronchiolitis. Immunohistochemistry localized the RSV antigen to all layers of bronchiolar epithelium from a few basal cells to numerous sloughing epithelia. A few mononuclear cells were also immunoreactive. To assess for age-dependent differences in RSV infection, neonatal lambs were infected similarly to the preterm lambs or with a high-titer viral inoculum. Using morphometry at day 7 of infection, preterm lambs had significantly more cellular immunoreactivity for RSV antigen (P &#60;0.05) and syncytial cell formation (P &#60;0.05) than either group of neonatal lambs. This work suggests that perinatal RSV clearance is age-dependent, which may explain the severity of RSV infection in preterm infants. The preterm lamb model is useful for assessing age-dependent mechanisms of severe RSV infection. [Copyright &y& Elsevier]

Published
2004
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19. Developmental expression and distribution of sheep β-defensin-2

Author

Meyerholz, David K., Gallup, Jack M., Grubor, Branka M., Evans, Richard B., Tack, Brian F., McCray Jr., Paul B., and Ackermann, Mark R.

Subjects
*ONTOGENY, *EMBRYOLOGY, *SHEEP, *RIBOSE
Abstract

The aim of this study was to define the ontogeny of sheep β-defensin-2 (SBD-2) mRNA and peptide in selected tissues of fetal, neonatal and adult sheep by real-time PCR and immunohistochemistry, respectively. Fetal and neonatal lambs had significantly greater SBD-2 tissue distribution than adult sheep. For all ages, the intestines had consistent SBD-2 mRNA expression while extra intestinal expression was sporadic and weak. In adult sheep, SBD-2 mRNA levels decreased from the jejunum caudally to the rectum and a pooled sample from all age groups showed a similar tendency. SBD-2 immunoreactive cells were predominantly in the crypts and base of villi in the small intestine and in a modest number of glands in the large intestine. Interestingly, ileal follicle-associated epithelium lacked detectable SBD-2 immunoreactivity. SBD-2 mRNA and peptide expression are greatest in the intestinal tract and tissue distribution progressively decreases with maturity. [Copyright &y& Elsevier]

Published
2004
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21. Loss of iRhom2 accelerates fat gain and insulin resistance in diet-induced obesity despite reduced adipose tissue inflammation.

Author

Skurski, Joseph, Penniman, Christie M., Geesala, Ramasatyaveni, Dixit, Garima, Pulipati, Priyanjali, Bhardwaj, Gourav, Meyerholz, David K., Issuree, Priya D., O'Neill, Brian T., and Maretzky, Thorsten

Subjects
ADIPOSE tissues, INSULIN resistance, WHITE adipose tissue, EPIDERMAL growth factor receptors, TUMOR necrosis factors, OBESITY
Abstract

Low-grade inflammation and metabolic dysregulation are common comorbidities of obesity, both of which are associated with alterations in iRhom2-regulated pro-inflammatory cytokine and epidermal growth factor receptor (EGFR) ligand signaling. Our objective was to determine the role of iRhom2 in the regulation of low-grade inflammation and metabolic dysregulation in a murine model of diet-induced obesity. Wild type (WT) and iRhom2 -deficient mice were fed normal chow (NC) or a high-fat diet (HFD) starting at 5 weeks of age for up to 33 weeks. Body composition, glucose and insulin tolerance, feeding behavior, and indirect calorimetry were measured at defined time points. Adipose tissue cytokine expression and inflammatory lesions known as crown-like structures (CLS) were analyzed at the end-point of the study. iRhom2 -deficient mice show accelerated fat gain on a HFD, accompanied by insulin resistance. Indirect calorimetry did not demonstrate changes in energy expenditure or food intake, but locomotor activity was significantly reduced in HFD iRhom2 -deficient mice. Interestingly, CLS, macrophage infiltration, and tumor necrosis factor (TNF) production were decreased in adipose tissue from HFD iRhom2 -deficient mice, but circulating cytokines were unchanged. In inguinal and perigonadal fat, the EGFR ligand amphiregulin was markedly induced in HFD controls but completely prevented in iRhom2 -deficient mice, suggesting a potentially dominant role of EGFR-dependent mechanisms over TNF in the modulation of insulin sensitivity. This study elucidates a novel role for iRhom2 as an immuno-metabolic regulator that affects adipose tissue inflammation independent of insulin resistance. • iRhom2 is an immuno-metabolic regulator that can dissociate adipose tissue inflammation from insulin resistance • iRhom2 -deficient mice show accelerated fat gain on a high-fat diet accompanied by insulin resistance • Crown-like structures are reduced in adipose tissue from obese iRhom2 -/- mice, but other inflammatory markers are unchanged • In white adipose tissue, amphiregulin is markedly induced in obese controls but completely prevented in iRhom2 −/−mice • Metabolic dysbiosis in diet-induced obesity can occur independent of myeloid cell-derived low-grade inflammation [ABSTRACT FROM AUTHOR]

Published
2020
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22. Abnormal CD161+ immune cells and retinoic acid receptor–related orphan receptor γt–mediate enhanced IL-17F expression in the setting of genetic hypertension.

Author

Singh, Madhu V., Cicha, Michael Z., Kumar, Santosh, Meyerholz, David K., Irani, Kaikobad, Chapleau, Mark W., and Abboud, François M.

Abstract

Background Hypertension is considered an immunologic disorder. However, the role of the IL-17 family in genetic hypertension in the spontaneously hypertensive rat (SHR) has not been investigated. Objective We tested the hypothesis that enhanced T H 17 programming and IL-17 expression in abundant CD161 + immune cells in SHRs represent an abnormal proinflammatory adaptive immune response. Furthermore, we propose that this response is driven by the master regulator retinoic acid receptor–related orphan receptor γt (RORγt) and a nicotinic proinflammatory innate immune response. Methods We measured expression of the CD161 surface marker on splenocytes in SHRs and normotensive control Wistar-Kyoto (WKY) rats from birth to adulthood. We compared expression of IL-17A and IL-17F in splenic cells under different conditions. We then determined the functional effect of these cytokines on vascular reactivity. Finally, we tested whether pharmacologic inhibition of RORγt can attenuate hypertension in SHRs. Results SHRs exhibited an abnormally large population of CD161 + cells at birth that increased with age, reaching more than 30% of the splenocyte population at 38 weeks. The SHR splenocytes constitutively expressed more RORγt than those of WKY rats and produced more IL-17F on induction. Exposure of WKY rat aortas to IL-17F impaired endothelium-dependent vascular relaxation, whereas IL-17A did not. Moreover, in vivo inhibition of RORγt by digoxin decreased systolic blood pressure in SHRs. Conclusions SHRs have a markedly enhanced potential for RORγt-driven expression of proinflammatory and prohypertensive IL-17F in response to innate immune activation. Increased RORγt and IL-17F levels contribute to SHR hypertension and might be therapeutic targets. [ABSTRACT FROM AUTHOR]

Published
2017
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26. Gene profiling studies in the neonatal ovine lung show enhancing effects of VEGF on the immune response

Author

Sow, Fatoumata B., Gallup, Jack M., Meyerholz, David K., and Ackermann, Mark R.

Subjects
*IMMUNE response, *IMMUNOLOGY, *PARAMYXOVIRUSES, *RESPIRATORY distress syndrome
Abstract

Abstract: Preterm and young neonates have an increased predisposition to respiratory distress syndrome (RDS) associated with an immature development of lung surfactant. Glucocorticoids (GCs) are the major immunomodulatory agents used to increase lung development and reduce the mortality and morbidity of preterm infants with RDS. However, their safety remains uncertain, and the precise mechanisms by which they improve lung function are unclear. In previous studies, we found that vascular endothelial growth factor (VEGF) enhances the innate immune response by respiratory epithelial cells, causes a monocytic infiltration into the lung, and reduces the severity of infection by respiratory syncytial virus (RSV), a respiratory pathogen known to affect preterm infants at a high prevalence. The purpose of this study is to measure the effects of VEGF administration on local immune responses in neonatal lambs, as the ovine lung is well suited for comparison to the human lung, due to similarities in alveolar development, immune responses, and RSV susceptibility. We hypothesized that VEGF induces the expression of genes necessary for host immune responses. We analyzed global gene expression profiles in the lungs of neonate lambs treated with VEGF by real-time qPCR. We report that VEGF induced the expression of chemokines (IL-8, RANTES, MCP-1), cytokines (IFN-γ, IL-6, TNF-α, GMCSF), Toll-like receptor (TLR)-4, complement family members (C3, CFB, CFH) and collectins (SP-A, SP-D). These results suggest that VEGF can regulate local immune gene expression in vivo and should be further explored as a potential exogenous therapy for various lung diseases. [Copyright &y& Elsevier]

Published
2009
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27. Identification and Small Molecule Inhibition of an Activating Transcription Factor 4 (ATF4)-dependent Pathway to Age-related Skeletal Muscle Weakness and Atrophy.

Author

Ebert, Scott M., Dyle, Michael C., Bullard, Steven A., Dierdorff, Jason M., Murry, Daryl J., Fox, Daniel K., Bongers, Kale S., Lira, Vitor A., Meyerholz, David K., Talley, John J., and Adams, Christopher M.

Subjects
*TRANSCRIPTION factors, *SMALL molecules, *SKELETAL muscle, *MUSCULAR atrophy, *TRITERPENOIDS, *URSOLIC acid, *DISEASES
Abstract

Aging reduces skeletal muscle mass and strength, but the underlying molecular mechanisms remain elusive. Here, we used mouse models to investigate molecular mechanisms of age-related skeletal muscle weakness and atrophy as well as new potential interventions for these conditions. We identified two small molecules that significantly reduce age-related deficits in skeletal muscle strength, quality, and mass: ursolic acid (a pentacyclic triterpenoid found in apples) and tomatidine (a steroidal alkaloid derived from green tomatoes). Because small molecule inhibitors can sometimes provide mechanistic insight into disease processes, we used ursolic acid and tomatidine to investigate the pathogenesis of age-related muscle weakness and atrophy. We found that ursolic acid and tomatidine generate hundreds of small positive and negative changes in mRNA levels in aged skeletal muscle, and the mRNA expression signatures of the two compounds are remarkably similar. Interestingly, a subset of the mRNAs repressed by ursolic acid and tomatidine in aged muscle are positively regulated by activating transcription factor 4 (ATF4). Based on this finding, we investigated ATF4 as a potential mediator of age-related muscle weakness and atrophy. We found that a targeted reduction in skeletal muscle ATF4 expression reduces age-related deficits in skeletal muscle strength, quality, and mass, similar to ursolic acid and tomatidine. These results elucidate ATF4 as a critical mediator of age-related muscle weakness and atrophy. In addition, these results identify ursolic acid and tomatidine as potential agents and/or lead compounds for reducing ATF4 activity, weakness, and atrophy in aged skeletal muscle. [ABSTRACT FROM AUTHOR]

Published
2015
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28. Mice expressing P301S mutant human tau have deficits in interval timing.

Author

Larson, Travis, Khandelwal, Vaibhav, Weber, Matthew A., Leidinger, Mariah R., Meyerholz, David K., Narayanan, Nandakumar S., and Zhang, Qiang

Subjects
*TAU proteins, *FRONTOTEMPORAL lobar degeneration, *CEREBRAL amyloid angiopathy, *ALZHEIMER'S patients, *NEUROFIBRILLARY tangles, *AMYLOID plaque, *TRANSGENIC mice
Abstract

Interval timing is a key executive process that involves estimating the duration of an interval over several seconds or minutes. Patients with Alzheimer's disease (AD) have deficits in interval timing. Since temporal control of action is highly conserved across mammalian species, studying interval timing tasks in animal AD models may be relevant to human disease. Amyloid plaques and tau neurofibrillary tangles are hallmark features of AD. While rodent models of amyloid pathology are known to have interval timing impairments, to our knowledge, interval timing has not been studied in models of tauopathy. Here, we evaluate interval timing performance of P301S transgenic mice, a widely studied model of tauopathy that overexpresses human tau with the P301S mutation. We employed an interval timing task and found that P301S mice consistently underestimated temporal intervals compared to wild-type controls, responding early in anticipation of the target interval. Our study indicating timing deficits in a mouse tauopathy model could have relevance to human tauopathies such as AD. • We examined interval timing behavior in mice expressing P301S mutant tau. • P301S mice responded earlier than littermate controls. • These data provide insight into animal models of tauopathy. [ABSTRACT FROM AUTHOR]

Published
2022
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29. Targeted Inhibition of Prostate Cancer Metastases with an RNA Aptamer to Prostate-specific Membrane Antigen.

Author

Dassie, Justin P, Hernandez, Luiza I, Thomas, Gregory S, Long, Matthew E, Rockey, William M, Howell, Craig A, Chen, Yani, Hernandez, Frank J, Liu, Xiu Ying, Wilson, Mary E, Allen, Lee-Ann, Vaena, Daniel A, Meyerholz, David K, and Giangrande, Paloma H

Subjects
*PROSTATE cancer, *METASTASIS, *RNA, *PROSTATE-specific membrane antigen, *CANCER cells, *CANCER cell migration, *CELLULAR therapy
Abstract

Cell-targeted therapies (smart drugs), which selectively control cancer cell progression with limited toxicity to normal cells, have been developed to effectively treat some cancers. However, many cancers such as metastatic prostate cancer (PC) have yet to be treated with current smart drug technology. Here, we describe the thorough preclinical characterization of an RNA aptamer (A9g) that functions as a smart drug for PC by inhibiting the enzymatic activity of prostate-specific membrane antigen (PSMA). Treatment of PC cells with A9g results in reduced cell migration/invasion in culture and metastatic disease in vivo. Importantly, A9g is safe in vivo and is not immunogenic in human cells. Pharmacokinetic and biodistribution studies in mice confirm target specificity and absence of non-specific on/off-target effects. In conclusion, these studies provide new and important insights into the role of PSMA in driving carcinogenesis and demonstrate critical endpoints for the translation of a novel RNA smart drug for advanced stage PC. [ABSTRACT FROM AUTHOR]

Published
2014
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31. Ectopic Expression of Zmiz1 Induces Cutaneous Squamous Cell Malignancies in a Mouse Model of Cancer.

Author

Rogers, Laura M, Riordan, Jesse D, Swick, Brian L, Meyerholz, David K, and Dupuy, Adam J

Subjects
*SQUAMOUS cell carcinoma, *SKIN disease treatment, *TRANSPOSONS, *MUTAGENESIS, *KERATOACANTHOMA, *EPITHELIAL cells
Abstract

Cutaneous squamous cell carcinoma (SCC) is the second most common form of cancer in the human population, yet the underlying genetic mechanisms contributing to the disease are not well understood. We recently identified Zmiz1 as a candidate oncogene in nonmelanoma skin cancer through a transposon mutagenesis screen. Here we show that transposon-induced mutations in Zmiz1 drive expression of a truncated transcript that is similar to an alternative endogenous ZMIZ1 transcript found to be overexpressed in human SCCs relative to normal skin. We also describe an original mouse model of invasive keratoacanthoma driven by skin-specific expression of the truncated Zmiz1 transcript. Unlike most mouse models, Zmiz1-induced skin tumors develop rapidly and in the absence of promoting agents such as phorbol esters. In addition, we found that the alternative Zmiz1 isoform has greater protein stability than its full-length counterpart. Finally, we provide evidence that ZMIZ1 is overexpressed in a significant percentage of human breast, ovarian, and colon cancers in addition to human SCCs, suggesting that ZMIZ1 may play a broader role in epithelial cancers. [ABSTRACT FROM AUTHOR]

Published
2013
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32. Manganese superoxide dismutase depletion in murine hematopoietic stem cells perturbs iron homeostasis, globin switching, and epigenetic control in erythrocyte precursorcells

Author

Case, Adam J., Madsen, Joshua M., Motto, David G., Meyerholz, David K., and Domann, Frederick E.

Subjects
*MANGANESE compounds, *SUPEROXIDE dismutase, *HEMATOPOIETIC stem cells, *IRON, *HOMEOSTASIS, *GLOBIN, *ERYTHROCYTES, *OXYGEN in the body
Abstract

Abstract: Heme synthesis partially occurs in the mitochondrial matrix; thus there is a high probability that enzymes and intermediates important in the production of heme will be exposed to metabolic by-products including reactive oxygen species. In addition, the need for ferrous iron for heme production, Fe/S coordination, and other processes occurring in the mitochondrial matrix suggests that aberrant fluxes of reactive oxygen species in this compartment might perturb normal iron homeostasis. Manganese superoxide dismutase (Sod2) is an antioxidant enzyme that governs steady-state levels of the superoxide in the mitochondrial matrix. Using hematopoietic stem cell-specific conditional Sod2 knockout mice we observed increased superoxide concentrations in red cell progeny, which caused significant pathologies including impaired erythrocytes and decreased ferrochelatase activity. Animals lacking Sod2 expression in erythroid precursors also displayed extramedullary hematopoiesis and systemic iron redistribution. Additionally, the increase in superoxide flux in erythroid precursors caused abnormal gene regulation of hematopoietic transcription factors, globins, and iron-response genes. Moreover, the erythroid precursors also displayed evidence of global changes in histone posttranslational modifications, a likely cause of at least some of the aberrant gene expression noted. From a therapeutic translational perspective, mitochondrially targeted superoxide-scavenging antioxidants partially rescued the observed phenotype. Taken together, our findings illuminate the superoxide sensitivity of normal iron homeostasis in erythrocyte precursors and suggest a probable link between mitochondrial redox metabolism and epigenetic control of nuclear gene regulation during mammalian erythropoiesis. [Copyright &y& Elsevier]

Published
2013
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33. Exposure to ethanol during the last trimester of pregnancy alters the maturation and immunity of the fetal lung

Author

Lazic, Tatjana, Sow, Fatoumata B., Van Geelen, Albert, Meyerholz, David K., Gallup, Jack M., and Ackermann, Mark R.

Subjects
*PHYSIOLOGICAL effects of alcohol, *ETHANOL, *EMBRYOS, *PREGNANCY in animals, *IMMUNITY, *LUNGS, *PROTEINS, *ALCOHOLISM in pregnancy, *THIRD trimester of pregnancy, *VASCULAR endothelial growth factors, *IMMUNE response, *LAMBS, *RNA analysis, *ANIMAL experimentation, *CELL receptors, *CHEMOKINES, *CYTOKINES, *GESTATIONAL age, *GLYCOGEN, *RESEARCH funding, *SHEEP, *FETAL development
Abstract

Abstract: The effects of ethanol exposure on fetal lungs remain under investigation. Previously, we demonstrated that lambs exposed to ethanol during gestation had impaired expression of pulmonary surfactant protein A, a crucial component of lung immunity. In this study, we investigated the effects of in utero exposure to ethanol on maturation and immunity of the fetal lung. Pregnant ewes were surgically implanted with an abomasal cannula and administered 1g ethanol/kg (n =8) or water (n =8) during the last trimester of pregnancy. Lambs were delivered prematurely or naturally. Neonatal lungs were assessed for maturation markers (hypoxia-inducible factor-1α [HIF-1α], HIF-2α, HIF-3α, vascular endothelial growth factor-A [VEGF-A], VEGFR-1, VEGFR-2, glycogen, and lung protein levels) and immunity (cytokines and chemokines). Preterm animals exposed to ethanol had significantly reduced VEGF-A mRNA (P =.066) and protein levels, HIF-1α (P =.055), HIF-2α (P =.019), VEGFR-1 (P =.088), and VEGFR-2 (P =.067) mRNA levels but no changes in HIF-3α mRNA. No significant changes occurred in full-term animals exposed to ethanol. Glycogen levels were significantly higher in preterm animals exposed to ethanol (P =.006) but not in full-term animals. Ethanol exposure was associated with significantly lower lung protein levels in preterm (P =.03) but not full-term animals. Preterm animals exposed to ethanol had significantly reduced TNF-α (P =.05), IL-10 (P =.03), chemokine (C-C motif) ligand 5 (CCL5) (P =.017), and monocyte chemotactic protein-1 (MCP-1) (P =.0004) mRNA. In full-term animals exposed to ethanol, the immune alterations were either sustained (TNF-α, P =.009; IL-10, P =.03) or returned to near baseline levels (CCL5 and MCP-1). The ethanol-mediated alterations in fetal lung maturation and immunity may explain the increased incidence of respiratory infections in neonates exposed to ethanol in utero. [Copyright &y& Elsevier]

Published
2011
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34. Maternal alcohol ingestion reduces surfactant protein A expression by preterm fetal lung epithelia

Author

Lazic, Tatjana, Wyatt, Todd A., Matic, Milan, Meyerholz, David K., Grubor, Branka, Gallup, Jack M., Kersting, Karl W., Imerman, Paula M., Almeida-De-Macedo, Marcia, and Ackermann, Mark R.

Subjects
*NEURODEVELOPMENTAL treatment, *PHYSIOLOGICAL effects of alcohol, *ALCOHOL drinking, *LUNG diseases, *RNA metabolism, *ANIMAL experimentation, *BIOCHEMISTRY, *CENTRAL nervous system depressants, *COMPARATIVE studies, *ETHANOL, *GESTATIONAL age, *IMMUNITY, *IMMUNOHISTOCHEMISTRY, *PREMATURE infants, *LUNGS, *MATERNAL-fetal exchange, *PHENOMENOLOGY, *RESEARCH methodology, *MEDICAL cooperation, *MUCOCILIARY system, *PULMONARY surfactant, *RESEARCH, *RESEARCH funding, *RESPIRATORY mucosa, *SHEEP, *EVALUATION research
Abstract

Abstract: In addition to neurodevelopmental effects, alcohol consumption at high levels during pregnancy is associated with immunomodulation and premature birth. Premature birth, in turn, is associated with increased susceptibility to various infectious agents such as respiratory syncytial virus (RSV). The initial line of pulmonary innate defense includes the mucociliary apparatus, which expels microorganisms trapped within the airway secretions. Surfactant proteins A and D (SP-A and SP-D, respectively) are additional components of pulmonary innate immunity and have an important role in pulmonary defense against inhaled pathogens. The purpose of this study was to determine if chronic alcohol consumption during the third trimester of pregnancy alters the function of the mucociliary apparatus and expression of SP-A and SP-D of fetal lung epithelia. Sixteen, date-mated ewes were assigned to two different groups; an ethanol-exposed group in which ewes received ethanol through surgically implanted intra-abomasal cannula during the third trimester of pregnancy, and a control group in which ewes received the equivalent amount of water instead of ethanol. Within these two groups, ewes were further randomly assigned to a full-term group in which the lambs were naturally delivered, and a preterm group in which the lambs were delivered prematurely via an abdominal incision and uterotomy. Ethanol was administered five times a week as a 40% solution at 1g/kg of body weight. The mean maternal serum alcohol concentration measured 6h postadministration was 16.3±4.36mg/dl. Tracheas from six full-term lambs were collected to assess ciliary beat frequency (CBF). The lung tissue from all (24) lambs was collected for immunohistochemistry analysis of SP-A and SP-D protein production and fluorogenic real-time quantitative polymerase chain reaction analysis of SP-A and SP-D mRNA levels. Exposure to ethanol during pregnancy significantly blocked stimulated increase in CBF through ethanol-mediated desensitization of cAMP-dependent protein kinase. In addition, preterm born/ethanol-exposed lambs showed significantly decreased SP-A mRNA expression when compared with the preterm born/control group (P =.004); no significant changes were seen with SP-D. The full-term/ethanol-exposed lambs had no significant alterations in mRNA levels, but had significantly less detectable SP-A protein when compared with the full-term/control lambs (P =.02). These findings suggest that chronic maternal ethanol consumption during the third trimester of pregnancy alters innate immune gene expression in fetal lung. These alterations may underlie increased susceptibility of preterm infants, exposed to ethanol in utero, to RSV and other microbial agents. [Copyright &y& Elsevier]

Published
2007
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