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4. Multiple muscles in the AMD quail can be ?cross-corrected? of pathologic glycogen accumulation after intravenous injection of an [E1-, polymerase-] adenovirus vector encoding human acid-?-glucosidase

Author

McVie-Wylie, A. J., primary, Ding, E. Y., additional, Lawson, T., additional, Serra, D., additional, Migone, F. K., additional, Pressley, D., additional, Mizutani, M., additional, Kikuchi, T., additional, Chen, Y. T., additional, and Amalfitano, A., additional

Published
2003
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6. Multiple muscles in the AMD quail can be 'cross-corrected' of pathologic glycogen accumulation after intravenous injection of an [E1-, polymerase-] adenovirus vector encoding human acid-α-glucosidase.

Author

McVie-Wylie, A. J., Ding, E. Y., Lawson, T., Serra, D., Migone, F. K., Pressley, D., Mizutani, M., Kikuchi, T., Chen, Y. T., and Amalfitano, A.

Abstract

Background Previously, in murine models of acid maltase deficiency (AMD), we demonstrated that intravenous administration of an improved adenovirus (Ad) vector encoding human acid alpha glucosidase (hGAA) resulted in liver transduction, followed by high-level hepatocyte-mediated secretion of hGAA into the plasma space. The hGAA secreted by the liver was taken up and targeted to muscle cell lysosomes. The levels of hGAA achieved by this approach resulted in clearance of lysosomal glycogen accumulations; in some muscle tissues the effect was prolonged (>6 months). We next wished to demonstrate whether this approach could be generalized across divergent species. To accomplish this goal, we determined whether a similar approach would also result in efficacy, but in a quail model of AMD. Methods An [E1-, E2b-]Ad vector encoding hGAA was intravenously injected into AMD quails. At several time points thereafter, plasma, liver, and multiple muscle tissues were assayed for evidence of hGAA gene expression, liver-mediated hGAA secretion, uptake of hGAA by skeletal muscles, and evidence of glycogen correction in AMD skeletal muscles. These results were compared with those obtained from mock-injected AMD or wild-type quails. Results Intravenous [E1-, E2b-]Ad/hGAA vector injection resulted in high-level liver transduction and hepatic secretion of precursor forms of hGAA. The hepatically secreted hGAA was found to not only be efficiently taken up by cardiac and skeletal muscles, but was also proteolytically cleaved and processed equivalently to the quail-GAA protein detected in wild-type quails. The observations suggest that the signals regulating muscle cell uptake (but not proteolytic cleavage) of lysosomal enzymes are conserved and recognized across divergent species of vertebrates. Importantly, once localized to skeletal muscle lysosomes, the hGAA was able to effectively clear the glycogen accumulations present in AMD quail muscles. Conclusions Adenovirus-mediated transduction of the hGAA gene, followed by hepatic secretion, uptake, and cross-correction of the pathologic glycogen accumulation noted in multiple muscles of both the AMD mouse and AMD quail, adds support to the notion that gene transfer strategies (Ad-mediated or other agents) targeting liver tissues with the hGAA gene are likely to be highly efficacious in humans affected by AMD. Copyright © 2002 John Wiley & Sons, Ltd. [ABSTRACT FROM AUTHOR]

Published
2003
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8. Prolongation of pig-to-dog renal xenograft survival by modification of the inflammatory mediator response

Author

Makowka, L, Miller, C, Chapchap, P, Podesta, L, Pan, C, Pressley, D, Mazzaferro, V, Esquivel, CO, Todo, S, Banner, B, Jaffe, R, Saunders, R, Starzl, TE, Makowka, L, Miller, C, Chapchap, P, Podesta, L, Pan, C, Pressley, D, Mazzaferro, V, Esquivel, CO, Todo, S, Banner, B, Jaffe, R, Saunders, R, and Starzl, TE

Abstract

The pathogenesis of hyperacute renal rejection consists of a nonspecific effector cascade that invokes most of the components of a typical acute inflammatory response. Platelet-activating factor (PAF) represents the most recent and perhaps the most significant mediator and promoting agent of this phenomenon. These studies evaluated SRI 63-441, a novel, synthetic, and the most potent PAF receptor antagonist available, alone and in combination with other prostanoids, for their ability to influence this response and to prolong renal xenograft survival and function in a model of pig-to-dog heterotransplantation. Inhibition of PAF by SRI 64-441 alone, at the dosage and schedule used in these experiments, did not significantly prolong xenograft survival or function. However, the combination of SRI 63-441 with either prostacyclin (PGI2) or prostaglandin E1 (PGE1) infusion demonstrated significant synergism, and resulted in a 6-9-fold increase in kidney survival and a 3-20-fold increase in urine output. Neither PGI2 nor PGE1 infusions alone significantly influenced this xenograft model. Electromagnetic flow studies demonstrated significantly delayed diminution in renal artery blood flow in the combination-treated animals. Serial and end-stage histologic examination of kidneys receiving combination therapy demonstrated a delayed onset of the pathologic deterioration and an overall amelioration of the entire process. These studies demonstrate that significant abrogation of a rapid and violent form of the hyperacute rejection can be achieved solely by the pharmacologic manipulation of the inflammatory mediator response.

Published
1987

10. Associations between opioid overdose deaths and drugs confiscated by law enforcement and submitted to crime laboratories for analysis, United States, 2014-2019: an observational study.

Author

Zibbell JE, Aldridge A, Grabenauer M, Heller D, Clarke SD, Pressley D, and McDonald HS

Abstract

Background: The overdose epidemic in the United States (US) continues to generate unprecedented levels of mortality. There is urgent need for a national data system capable of yielding high-quality, timely, and actionable information on existing and emerging drugs. Public health researchers have started using law enforcement forensic laboratory data to obtain surveillance information on illicit drugs. This study is the first to use drug reports from the entire US to examine correlations between a changing drug supply and increasing opioid-involved overdose deaths (OOD) on a national scale., Methods: This study is observational and investigates associations between law enforcement drug reports and OOD for the US from 2014 to 2019. OOD data are from the Centers for Disease Control and Prevention's National Vital Statistics System restricted-use multiple cause of death files . The US Drug Enforcement Administration's National Forensic Laboratory Information System (NFLIS) contains forensic laboratory-tested drug exhibit information for the entire US (NFLIS-Drug). Counts of forensic laboratory reports and OOD were aggregated for each state by month, quarter, and year. A difference-in-differences framework was used to estimate contemporaneous and lagged associations., Findings: Between 2014 and 2019 in the US, 249,522 OOD were reported, with the annual number nearly doubling from 28,723 to 50,179. OOD involving illicitly manufactured fentanyls (IMF) also increased substantially during this period, from 19.4% to 72.9%. In addition, 3,817,438 forensic laboratory reports in the US that were reported to NFLIS-Drug contained an opioid, stimulant, or benzodiazepine. Reports of fentanyl and fentanyl-related compounds (FFRC) had the strongest association with OOD. Each additional FFRC exhibit was associated with a 2.97% (95% CI: 1.7%, 4.1%) increase in OOD per 100,000 persons per quarter., Interpretation: Adding to the emerging consensus, protracted growth in IMF supply was more strongly associated with OOD than all other illicit drugs reported to NFLIS-Drug over the study time period. Findings demonstrate NFLIS-Drug data usefulness for research that require proxy indicators for the illicit drugs supply. A concerted effort between public health and public safety to make NFLIS-Drug more timely could strengthen its utility as a national, public health, drug surveillance system., Funding: Sangeetha Arctic Slope Mission Services, LLC, ASMS Contract No. ASM5-00017., Competing Interests: All authors signed an Author Statement Form and completed an individual ICMJE COI Form. No authors have declared any relevant conflicts of interest., (© 2023 The Authors. Published by Elsevier Ltd.)

Published
2023
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11. Understanding research methods, limitations, and applications of drug data collected by the National Forensic Laboratory Information System (NFLIS-Drug).

Author

Pitts WJ, Heller D, Smiley-McDonald H, Weimer B, Grabenauer M, Bollinger K, Ropero-Miller J, and Pressley D

Subjects
United States, Humans, Pharmaceutical Preparations, Forensic Medicine, Law Enforcement, Clinical Laboratory Information Systems, Substance-Related Disorders
Abstract

The National Forensic Laboratory Information System (NFLIS) is a drug surveillance program of the US Drug Enforcement Administration that systematically collects data on drugs that are seized by law enforcement and submitted to and analyzed by the Nation's forensic laboratories (NFLIS-Drug). NFLIS-Drug data are increasingly used in predictive modeling and drug surveillance to examine drug availability patterns. Given the complexity of the data and data collection, there are some common methodological pitfalls that we highlight with the aim of helping researchers avoid these concerns. The analysis done for this Technical Note is based on a review of the scientific literature that includes 428 unique, refereed article citations in 182 distinct journals published between January 1, 2005, and April 30, 2021. Each article was analyzed according to how NFLIS-Drug data were mentioned and whether NFLIS-Drug data were included. A sample of 37 articles was studied in-depth, and data issues were summarized. Using examples from the literature, this Technical Note highlights eight broad concerns that have important implications for the proper applications, interpretations, and limitations of NFLIS-Drug data with suggestions for improving research methods and accurate reporting of forensic drug data. NFLIS-Drug data are timely and provide key information to inform drug use trends across the United States; however, our present analysis shows that NFLIS-Drug data are misunderstood and represented in the literature. In addition to highlighting these issues, DEA has created several resources to assist NFLIS data users and researchers, which are summarized in the discussion., (© 2023 American Academy of Forensic Sciences. This article has been contributed to by U.S. Government employees and their work is in the public domain in the USA.)

Published
2023
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12. Benzodiazepines reported in NFLIS-Drug, 2015 to 2018.

Author

Bollinger K, Weimer B, Heller D, Bynum N, Grabenauer M, Pressley D, and Smiley-McDonald H

Abstract

The National Forensic Laboratory Information System (NFLIS) is a program of the U.S. Drug Enforcement Administration, Diversion Control Division. The NFLIS-Drug component collects drug identification results and associated information from drug cases submitted to and analyzed by federal, state, and local forensic laboratories. This paper presents national annual estimates and national and regional yearly trend differences for clonazepam, diazepam, flubromazolam, clonazolam, and etizolam using annual report rates per 100,000 persons aged 15 or older between 2015 and 2018. An estimated 263,538 benzodiazepine reports were identified by state and local laboratories between 2015 and 2018. Methamphetamine, cocaine, and heroin accounted for 32% of the drugs reported in the same item as alprazolam. Depressants and tranquilizers and narcotic analgesics were the drug classes most frequently identified in the same item as etizolam. A timeline of some benzodiazepines' emergence in NFLIS-Drug is shown, as well as state- and county-level data for selected benzodiazepines., Competing Interests: The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (© 2021 The Authors.)

Published
2021
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13. Oxidized low density lipoproteins--do we know enough about them?

Author

Jiang X, Yang Z, Chandrakala AN, Pressley D, and Parthasarathy S

Subjects
Animals, Antioxidants pharmacology, Antioxidants therapeutic use, Clinical Trials as Topic, Humans, Lipoproteins, LDL antagonists & inhibitors, Oxidation-Reduction, Atherosclerosis metabolism, Fatty Acids, Unsaturated metabolism, Lipoproteins, LDL metabolism
Abstract

Since the discovery of oxidized low density lipoprotein (Ox-LDL), over 5,000 articles have appeared on the topic with over 400 articles appearing every year during the past decade. LDL contains esterified polyunsaturated fatty acid containing lipids, such as, phosphatidylcholine (PtdCho) and cholesterol esters (CE). Peroxidation of polyunsaturated fatty acid (PUFA) containing lipids has been known for a long time. Numerous studies have documented that peroxidized lipids as well as products derived from their decomposition, particularly aldehydes, have deleterious biological properties. This concept has been exemplified in the study of atherosclerosis. A plethora of in vitro and animal studies, as well as human epidemiological and correlatory studies, have supported the notion that oxidative processes and the formation of Ox-LDL might contribute to atherosclerosis. Yet the negative outcomes of human clinical trials with α-tocopherol and other antioxidants have convinced even staunch supporters of the hypothesis to take a step backwards and reconsider reasons of their failure and suggest alternative approaches. Ox-LDL is a complex mixture of numerous chemical entities, many of them are yet uncharacterized. Why and how it is formed or its nature in vivo is poorly understood. It is recognized by numerous cell surface receptors, which are ubiquitously expressed in many different cell types. These receptors might perform a variety of functions. In addition, components of Ox-LDL might also have favorable effects that are difficult to dissociate from its pathological effects. In this review, the nature of Ox-LDL and potential problems in inhibiting its formation are discussed.

Published
2011
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14. Assay development and high-throughput screening of caspases in microfluidic format.

Author

Wu G, Irvine J, Luft C, Pressley D, Hodge CN, and Janzen B

Subjects
Caspase Inhibitors, Caspases metabolism, Humans, Indicators and Reagents, Microchemistry methods, Miniaturization instrumentation, Miniaturization methods, Reproducibility of Results, Spectrometry, Fluorescence, Caspases analysis
Abstract

Caspase proteases are familiar targets in drug discovery. A common format for screening to identify caspase inhibitors employs fluorogenic or colorimetric tetra-peptide substrates in 96, 384, or 1536 -well microtiter plates. The primary motivation for increasing the number of wells per plate is to reduce the reagent cost per test and increase the throughput of HTS operations. There are significant challenges, however, to moving into or beyond the 1536-well format, such as submicroliter liquid handling, liquid evaporation, increased surface area-to-volume ratios, and the potential for artifacts and interference from small air-borne particles such as lint. Therefore, HTS scientists remain keenly interested in technologies that offer alternatives to the ever-shrinking microtiter plate well. Microfluidic assay technology represents an attractive option that, in theory, consumes only subnanoliter volumes of reagents per test. We have successfully employed a microfluidic assay technology in fluorogenic screening assays for several caspase isoforms utilizing the Caliper Technologies Labchip platform. Caspase-3 is used as a representative case to describe microfluidic assay development and initial high-throughput screening results. In addition, microfluidic screening and plate-based screening are compared in terms of reagent consumption, data quality, and ease of operation.

Published
2003
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15. Multiple muscles in the AMD quail can be "cross-corrected" of pathologic glycogen accumulation after intravenous injection of an [E1-, polymerase-] adenovirus vector encoding human acid-alpha-glucosidase.

Author

McVie-Wylie AJ, Ding EY, Lawson T, Serra D, Migone FK, Pressley D, Mizutani M, Kikuchi T, Chen YT, and Amalfitano A

Subjects
Animals, Blotting, Western, Disease Models, Animal, Gene Transfer Techniques, Genetic Vectors, Humans, Immunoblotting, Liver metabolism, Lysosomes metabolism, Muscle Cells metabolism, Muscle, Skeletal metabolism, Quail, Time Factors, Tissue Distribution, Adenoviridae genetics, Genetic Therapy methods, Glucan 1,4-alpha-Glucosidase deficiency, Glycogen metabolism, Muscles metabolism, alpha-Glucosidases genetics
Abstract

Background: Previously, in murine models of acid maltase deficiency (AMD), we demonstrated that intravenous administration of an improved adenovirus (Ad) vector encoding human acid alpha glucosidase (hGAA) resulted in liver transduction, followed by high-level hepatocyte-mediated secretion of hGAA into the plasma space. The hGAA secreted by the liver was taken up and targeted to muscle cell lysosomes. The levels of hGAA achieved by this approach resulted in clearance of lysosomal glycogen accumulations; in some muscle tissues the effect was prolonged (>6 months). We next wished to demonstrate whether this approach could be generalized across divergent species. To accomplish this goal, we determined whether a similar approach would also result in efficacy, but in a quail model of AMD., Methods: An [E1-, E2b-]Ad vector encoding hGAA was intravenously injected into AMD quails. At several time points thereafter, plasma, liver, and multiple muscle tissues were assayed for evidence of hGAA gene expression, liver-mediated hGAA secretion, uptake of hGAA by skeletal muscles, and evidence of glycogen correction in AMD skeletal muscles. These results were compared with those obtained from mock-injected AMD or wild-type quails., Results: Intravenous [E1-, E2b-]Ad/hGAA vector injection resulted in high-level liver transduction and hepatic secretion of precursor forms of hGAA. The hepatically secreted hGAA was found to not only be efficiently taken up by cardiac and skeletal muscles, but was also proteolytically cleaved and processed equivalently to the quail-GAA protein detected in wild-type quails. The observations suggest that the signals regulating muscle cell uptake (but not proteolytic cleavage) of lysosomal enzymes are conserved and recognized across divergent species of vertebrates. Importantly, once localized to skeletal muscle lysosomes, the hGAA was able to effectively clear the glycogen accumulations present in AMD quail muscles., Conclusions: Adenovirus-mediated transduction of the hGAA gene, followed by hepatic secretion, uptake, and cross-correction of the pathologic glycogen accumulation noted in multiple muscles of both the AMD mouse and AMD quail, adds support to the notion that gene transfer strategies (Ad-mediated or other agents) targeting liver tissues with the hGAA gene are likely to be highly efficacious in humans affected by AMD., (Copyright 2002 John Wiley & Sons, Ltd.)

Published
2003
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16. Long-term efficacy after [E1-, polymerase-] adenovirus-mediated transfer of human acid-alpha-glucosidase gene into glycogen storage disease type II knockout mice.

Author

Ding EY, Hodges BL, Hu H, McVie-Wylie AJ, Serra D, Migone FK, Pressley D, Chen YT, and Amalfitano A

Subjects
Animals, Blotting, Western, Diaphragm metabolism, Enzyme-Linked Immunosorbent Assay, Genetic Vectors, Glucan 1,4-alpha-Glucosidase biosynthesis, Glucan 1,4-alpha-Glucosidase blood, Glycogen Storage Disease Type II therapy, Humans, Liver metabolism, Lysosomes metabolism, Mice, Mice, Knockout, Muscles metabolism, Myocardium metabolism, RNA, Messenger metabolism, Reverse Transcriptase Polymerase Chain Reaction, Time Factors, alpha-Glucosidases, Adenoviridae genetics, Gene Transfer Techniques, Glucan 1,4-alpha-Glucosidase genetics, Glycogen Storage Disease Type II genetics
Abstract

Glycogen storage disease type II (GSD-II) is a lethal, autosomal recessive metabolic myopathy caused by a lack of acid-alpha-glucosidase (GAA) activity in the cardiac and skeletal muscles. Absence of adequate intralysosomal GAA activity results in massive amounts of glycogen accumulation in multiple muscle groups, resulting in morbidity and mortality secondary to respiratory embarrassment and/or cardiomyopathy. In a mouse model of GSD-II, we demonstrate that infection of the murine liver with a modified adenovirus (Ad) vector encoding human GAA (hGAA) resulted in long-term persistence of the vector in liver tissues for at least 6 months. Despite both a rapid shutdown of hGAA mRNA expression from the vector, as well as the elicitation of anti-hGAA antibody responses (hGAA is a foreign antigen in this model), the hGAA secreted by the liver was taken up by all muscle groups analyzed and, remarkably, persisted in them for at least 6 months. The persistence of the protein also correlated with long-term correction of pathologic intramuscular glycogen accumulations in all muscle groups tested, but most notably the cardiac tissues, which demonstrated a significantly decreased glycogen content for at least 190 days after a single vector injection. The results suggest that gene therapy strategies may have the potential to significantly improve the clinical course for GSD-II patients.

Published
2001
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17. Prolongation of pig-to-dog renal xenograft survival by modification of the inflammatory mediator response.

Author

Makowka L, Miller C, Chapchap P, Podesta L, Pan C, Pressley D, Mazzaferro V, Esquivel CO, Todo S, and Banner B

Subjects
Alprostadil administration & dosage, Alprostadil pharmacology, Animals, Biopsy, Dogs, Epoprostenol administration & dosage, Epoprostenol pharmacology, Female, Inflammation physiopathology, Kidney pathology, Male, Platelet Activating Factor physiology, Platelet Count, Quinolinium Compounds administration & dosage, Renal Circulation, Swine, Graft Survival drug effects, Kidney Transplantation, Platelet Activating Factor antagonists & inhibitors, Quinolinium Compounds pharmacology, Transplantation, Heterologous
Abstract

The pathogenesis of hyperacute renal rejection consists of a nonspecific effector cascade that invokes most of the components of a typical acute inflammatory response. Platelet-activating factor (PAF) represents the most recent and perhaps the most significant mediator and promoting agent of this phenomenon. These studies evaluated SRI 63-441, a novel, synthetic, and the most potent PAF receptor antagonist available, alone and in combination with other prostanoids, for their ability to influence this response and to prolong renal xenograft survival and function in a model of pig-to-dog heterotransplantation. Inhibition of PAF by SRI 63-441 alone, at the dosage and schedule used in these experiments, did not significantly prolong xenograft survival or function. However, the combination of SRI 63-441 with either prostacyclin (PGI2) or prostaglandin E1 (PGE1) infusion demonstrated significant synergism, and resulted in a 6-9-fold increase in kidney survival and a 3-20-fold increase in urine output. Neither PGI2 nor PGE1 infusions alone significantly influenced this xenograft model. Electromagnetic flow studies demonstrated significantly delayed diminution in renal artery blood flow in the combination-treated animals. Serial and end-stage histologic examination of kidneys receiving combination therapy demonstrated a delayed onset of the pathologic deterioration and an overall amelioration of the entire process. These studies demonstrate that significant abrogation of a rapid and violent form of hyperacute rejection can be achieved solely by the pharmacologic manipulation of the inflammatory mediator response.

Published
1987
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