Your search keyword '"Stephen Brimijoin"' showing total 206 results

1. Monoclonal Antibodies That Recognize Various Folding States of Pure Human Butyrylcholinesterase Can Immunopurify Butyrylcholinesterase from Human Plasma Stored at Elevated Temperatures

Author

Hong Peng, Thomas A. Blake, Rudolph C. Johnson, Alicia J. Dafferner, Stephen Brimijoin, and Oksana Lockridge

Subjects

Chemistry, QD1-999

Published

2016

2. Treating Cocaine Addiction, Obesity, and Emotional Disorders by Viral Gene Transfer of Butyrylcholinesterase

Author

Stephen Brimijoin, Yang Gao, Liyi Geng, and Vicky P. Chen

Subjects

butyrylcholinesterase, cocaine, ghrelin, addiction, obesity, stress, Therapeutics. Pharmacology, RM1-950

Abstract

Butyrylcholinesterase (BChE), a plasma enzyme that hydrolyses the neurotransmitter, acetylcholine relatively well, with far lower efficiency than acetylcholinesterase (AChE) but with the capability to degrade a broad range of bioactive esters. AChE is universally understood as essential to cholinergic neurotransmission, voluntary muscle performance, and cognition, among other roles, and its catalytic impact is essential for life. A total absence of BChE activity, whether by enzyme inhibition or simple lack of enzyme protein is not only compatible with life, but does not lead to obvious physiologic disturbance. However, very recent studies at Mayo Clinic have amassed support for the concept that BChE does have a true physiological role as a “ghrelin hydrolase” and, pharmacologically, as a cocaine hydrolase. Human subjects and animal mutations that lack functional BChE show higher than normal levels of ghrelin, an acylated peptide that drives hunger and feeding, along with certain emotional behaviors. Mice treated by viral gene transfer of BChE show higher plasma levels of enzyme and lower levels of ghrelin. Ghrelin is acknowledged as a driver of food-seeking and stress. This brief review examines some key phenomena and considers means of modulating BChE as treatments for cocaine addiction, anxiety, aggression, and obesity.

Published

2018

3. Suppression of neurite outgrowth by high-dose nerve growth factor is independent of functional p75NTR receptors

Author

Anna M. Conti, Stephen Brimijoin, Laurence J. Miller, and Anthony J. Windebank

Subjects

Neurite outgrowth, Nerve growth factor, p75NTR receptors, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

We have previously demonstrated that high concentrations of nerve growth factor suppress neurite outgrowth from sensory neurons. Inhibition could be mediated by either the p75NTR or TrkA receptor. We used a functional block of p75NTR by REX antibody in rat dorsal root ganglion neurons and dorsal root ganglion cultures from p75NTR knockout mice. In both systems, high-dose NGF inhibited neurite outgrowth, implying that p75NTR is not involved in suppression of neurite outgrowth. Confocal images of dissociated dorsal root ganglion neurons exposed to fluorescence-tagged NGF showed ligand internalization. Radioligand binding indicated disappearance of high-affinity binding sites from the surface of dorsal root ganglia after treatment with 200 ng/ml NGF for 1 h. Downstream signaling showed sustained hyperphosphorylation of MAPK (Erk1–2) but not of SNT or Akt. High-dose NGF may induce cytoplasmic relocation of the receptor TrkA and axonal growth arrest independently of p75NTR.

Published

2004

4. Therapeutic Delivery of Butyrylcholinesterase by Brain-Wide Viral Gene Transfer to Mice

Author

Yang Gao, Liyi Geng, Vicky Ping Chen, and Stephen Brimijoin

Subjects

butyrylcholinesterase, adeno-associated virus (AAV)-8, AAV-9, AAV-PHP.B, enzyme expression, ghrelin, Organic chemistry, QD241-441

Abstract

Recent research shows that butyrylcholinesterase (BChE) is not simply a liver enzyme that detoxifies bioactive esters in food and medications. In fact, in pursuing other goals, we recently found that it has an equally important role in regulating the peptide hormone ghrelin and its impact on hunger, obesity, and emotions. Here, we present and examine means of manipulating brain BChE levels by viral gene transfer, either regionally or globally, to modulate ghrelin signaling for long-term therapeutic purposes and to set the stage for exploring the neurophysiological impact of such an intervention.

Published

2017

5. Gene transfer of mutant mouse cholinesterase provides high lifetime expression and reduced cocaine responses with no evident toxicity.

Author

Liyi Geng, Yang Gao, Xiabin Chen, Shurong Hou, Chang-Guo Zhan, Zoran Radic, Robin J Parks, Stephen J Russell, Linh Pham, and Stephen Brimijoin

Subjects

Medicine, Science

Abstract

Gene transfer of a human cocaine hydrolase (hCocH) derived from butyrylcholinesterase (BChE) by 5 mutations (A199S/F227A/S287G/A328W/Y332G) has shown promise in animal studies for treatment of cocaine addiction. To predict the physiological fate and immunogenicity of this enzyme in humans, a comparable enzyme was created and tested in a conspecific host. Thus, similar mutations (A199S/S227A/S287G/A328W/Y332G) were introduced into mouse BChE to obtain a mouse CocH (mCocH). The cDNA was incorporated into viral vectors based on: a) serotype-5 helper-dependent adenovirus (hdAD) with ApoE promoter, and b) serotype-8 adeno-associated virus with CMV promoter (AAV-CMV) or multiple promoter and enhancer elements (AAV-VIP). Experiments on substrate kinetics of purified mCocH expressed in HEK293T cells showed 30-fold higher activity (U/mg) with (3)H-cocaine and 25% lower activity with butyrylthiocholine, compared with wild type BChE. In mice given modest doses of AAV-CMV-mCocH vector (0.7 or 3 × 10(11) particles) plasma hydrolase activity rose 10-fold above control for over one year with no observed immune response. Under the same conditions, transduction of the human counterpart continued less than 2 months and antibodies to hCocH were readily detected. The advanced AAV-VIP-mCocH vector generated a dose-dependent rise in plasma cocaine hydrolase activity from 20-fold (10(10) particles) to 20,000 fold (10(13) particles), while the hdAD vector (1.7 × 10(12) particles) yielded a 300,000-fold increase. Neither vector caused adverse reactions such as motor weakness, elevated liver enzymes, or disturbance in spontaneous activity. Furthermore, treatment with high dose hdAD-ApoE-mCocH vector (1.7 × 10(12) particles) prevented locomotor abnormalities, other behavioral signs, and release of hepatic alanine amino transferase after a cocaine dose fatal to most control mice (120 mg/kg). This outcome suggests that viral gene transfer can yield clinically effective cocaine hydrolase expression for lengthy periods without immune reactions or cholinergic dysfunction, while blocking toxicity from drug overdose.

Published

2013

6. Combined cocaine hydrolase gene transfer and anti-cocaine vaccine synergistically block cocaine-induced locomotion.

Author

Marilyn E Carroll, Natalie E Zlebnik, Justin J Anker, Thomas R Kosten, Frank M Orson, Xiaoyun Shen, Berma Kinsey, Robin J Parks, Yang Gao, and Stephen Brimijoin

Subjects

Medicine, Science

Abstract

Mice and rats were tested for reduced sensitivity to cocaine-induced hyper-locomotion after pretreatment with anti-cocaine antibody or cocaine hydrolase (CocH) derived from human butyrylcholinesterase (BChE). In Balb/c mice, direct i.p. injection of CocH protein (1 mg/kg) had no effect on spontaneous locomotion, but it suppressed responses to i.p. cocaine up to 80 mg/kg. When CocH was injected i.p. along with a murine cocaine antiserum that also did not affect spontaneous locomotion, there was no response to any cocaine dose. This suppression of locomotor activity required active enzyme, as it was lost after pretreatment with iso-OMPA, a selective BChE inhibitor. Comparable results were obtained in rats that developed high levels of CocH by gene transfer with helper-dependent adenoviral vector, and/or high levels of anti-cocaine antibody by vaccination with norcocaine hapten conjugated to keyhole limpet hemocyanin (KLH). After these treatments, rats were subjected to a locomotor sensitization paradigm involving a "training phase" with an initial i.p. saline injection on day 1 followed by 8 days of repeated cocaine injections (10 mg/kg, i.p.). A 15-day rest period then ensued, followed by a final "challenge" cocaine injection. As in mice, the individual treatment interventions reduced cocaine-stimulated hyperactivity to a modest extent, while combined treatment produced a greater reduction during all phases of testing compared to control rats (with only saline pretreatment). Overall, the present results strongly support the view that anti-cocaine vaccine and cocaine hydrolase vector treatments together provide enhanced protection against the stimulatory actions of cocaine in rodents. A similar combination therapy in human cocaine users might provide a robust therapy to help maintain abstinence.

Published

2012

7. Selective and irreversible inhibitors of mosquito acetylcholinesterases for controlling malaria and other mosquito-borne diseases.

Author

Yuan-Ping Pang, Fredrik Ekström, Gregory A Polsinelli, Yang Gao, Sandeep Rana, Duy H Hua, Björn Andersson, Per Ola Andersson, Lei Peng, Sanjay K Singh, Rajesh K Mishra, Kun Yan Zhu, Ann M Fallon, David W Ragsdale, and Stephen Brimijoin

Subjects

Medicine, Science

Abstract

New insecticides are urgently needed because resistance to current insecticides allows resurgence of disease-transmitting mosquitoes while concerns for human toxicity from current compounds are growing. We previously reported the finding of a free cysteine (Cys) residue at the entrance of the active site of acetylcholinesterase (AChE) in some insects but not in mammals, birds, and fish. These insects have two AChE genes (AP and AO), and only AP-AChE carries the Cys residue. Most of these insects are disease vectors such as the African malaria mosquito (Anopheles gambiae sensu stricto) or crop pests such as aphids. Recently we reported a Cys-targeting small molecule that irreversibly inhibited all AChE activity extracted from aphids while an identical exposure caused no effect on the human AChE. Full inhibition of AChE in aphids indicates that AP-AChE contributes most of the enzymatic activity and suggests that the Cys residue might serve as a target for developing better aphicides. It is therefore worth investigating whether the Cys-targeting strategy is applicable to mosquitocides. Herein, we report that, under conditions that spare the human AChE, a methanethiosulfonate-containing molecule at 6 microM irreversibly inhibited 95% of the AChE activity extracted from An. gambiae s. str. and >80% of the activity from the yellow fever mosquito (Aedes aegypti L.) or the northern house mosquito (Culex pipiens L.) that is a vector of St. Louis encephalitis. This type of inhibition is fast ( approximately 30 min) and due to conjugation of the inhibitor to the active-site Cys of mosquito AP-AChE, according to our observed reactivation of the methanethiosulfonate-inhibited AChE by 2-mercaptoethanol. We also note that our sulfhydryl agents partially and irreversibly inhibited the human AChE after prolonged exposure (>4 hr). This slow inhibition is due to partial enzyme denaturation by the inhibitor and/or micelles of the inhibitor, according to our studies using atomic force microscopy, circular dichroism spectroscopy, X-ray crystallography, time-resolved fluorescence spectroscopy, and liquid chromatography triple quadrupole mass spectrometry. These results support our view that the mosquito-specific Cys is a viable target for developing new mosquitocides to control disease vectors and to alleviate resistance problems with reduced toxicity toward non-target species.

Published

2009

8. Selective and irreversible inhibitors of aphid acetylcholinesterases: steps toward human-safe insecticides.

Author

Yuan-Ping Pang, Sanjay K Singh, Yang Gao, T Leon Lassiter, Rajesh K Mishra, Kun Yan Zhu, and Stephen Brimijoin

Subjects

Medicine, Science

Abstract

Aphids, among the most destructive insects to world agriculture, are mainly controlled by organophosphate insecticides that disable the catalytic serine residue of acetylcholinesterase (AChE). Because these agents also affect vertebrate AChEs, they are toxic to non-target species including humans and birds. We previously reported that a cysteine residue (Cys), found at the AChE active site in aphids and other insects but not mammals, might serve as a target for insect-selective pesticides. However, aphids have two different AChEs (termed AP and AO), and only AP-AChE carries the unique Cys. The absence of the active-site Cys in AO-AChE might raise concerns about the utility of targeting that residue. Herein we report the development of a methanethiosulfonate-containing small molecule that, at 6.0 microM, irreversibly inhibits 99% of all AChE activity extracted from the greenbug aphid (Schizaphis graminum) without any measurable inhibition of the human AChE. Reactivation studies using beta-mercaptoethanol confirm that the irreversible inhibition resulted from the conjugation of the inhibitor to the unique Cys. These results suggest that AO-AChE does not contribute significantly to the overall AChE activity in aphids, thus offering new insight into the relative functional importance of the two insect AChEs. More importantly, by demonstrating that the Cys-targeting inhibitor can abolish AChE activity in aphids, we can conclude that the unique Cys may be a viable target for species-selective agents to control aphids without causing human toxicity and resistance problems.

Published

2009

9. Supercomputing-Based Dimeric Analog Approach for Drug Optimization.

Author

Yuan-Ping Pang and Stephen Brimijoin

Published

1998

10. Trophic Roles of Axoplasmic Transport Stephen Brimijoin

Author

Stephen Brimijoin

Subjects

Chemistry, Axoplasmic transport, Cell biology, Trophic level

Published

2020

11. Polyionic complexes of butyrylcholinesterase and poly-l-lysine-g-poly(ethylene glycol): Comparative kinetics of catalysis and inhibition and in vitro inactivation by proteases and heat

Author

Steven D. Hartson, Lester G. Sultatos, Jing Liu, Ashish Ranjan, Stephen Brimijoin, Carey Pope, Nicholas Flynn, Joshua D. Ramsey, Kirstin Hester, and Liyi Geng

Subjects

0301 basic medicine, Hot Temperature, Lysine, Pronase, Toxicology, Paraoxon, Polyethylene Glycols, Butyrylthiocholine, 03 medical and health sciences, 0302 clinical medicine, medicine, Humans, Polylysine, Enzyme kinetics, Particle Size, Butyrylcholinesterase, Enzyme Assays, chemistry.chemical_classification, General Medicine, Trypsin, Recombinant Proteins, Enzyme Activation, Kinetics, 030104 developmental biology, Enzyme, chemistry, Biochemistry, Biocatalysis, Microscopy, Electron, Scanning, Cholinesterase Inhibitors, 030217 neurology & neurosurgery, Peptide Hydrolases, medicine.drug

Abstract

We previously reported that recombinant human butyrylcholinesterase (rhBChE) complexed with a series of copolymers of poly- l -lysine (PLL) with grafted (polyethylene) glycol (PEG) (i.e., PLL-g-PEG) showed reduced catalytic activity but relatively similar concentration-dependent inactivation of the organophosphorus inhibitor paraoxon. Herein, we compared the kinetics of catalysis (using butyrylthiocholine as the substrate) and inhibition (using four different inhibitors) of free and copolymer-complexed rhBChE. Using scanning electron microscopy, polyionic complexes of rhBChE with three different PLL-g-PEG copolymers (based on PLL size) appeared as spheroid-shaped particles with relatively similar particle sizes (median diameter = 35 nm). Relatively similar particle sizes were also noted using dynamic light scattering (mean = 26–35 nm). The three copolymer-complexed enzymes exhibited reduced kcat (30–33% reduction), but no significant changes in Km. Inhibitory potency (as reflected by the bimolecular rate constant, ki) was similar among the free and copolymer-complexed enzymes when paraoxon was the inhibitor, whereas statistically significant reductions in ki (16–60%) were noted with the other inhibitors. Sensitivity to inactivation by proteases and heat was also compared. Copolymer-complexed enzymes showed lesser time-dependent inactivation by the proteases trypsin and pronase and by heat compared to the free enzyme. Understanding the unique properties of PLL-g-PEG-BChE complexes may lead to enhanced approaches for use of BChE and other protein bioscavengers.

Published

2017

12. Favorable Impact on Stress-Related Behaviors by Modulating Plasma Butyrylcholinesterase

Author

Susannah J. Tye and Stephen Brimijoin

Subjects

0301 basic medicine, medicine.medical_specialty, Emotions, Regulator, Neuropeptide, Anxiety, Mouse models, 03 medical and health sciences, Cellular and Molecular Neuroscience, 0302 clinical medicine, Internal medicine, medicine, Animals, Humans, Adverse effect, Receptor, Butyrylcholinesterase, Review Paper, Long term reduction of stress hormone, Aggression, digestive, oral, and skin physiology, Brain, Cell Biology, General Medicine, Stress disorders, Ghrelin, Viral gene transfer, 030104 developmental biology, Endocrinology, medicine.symptom, Psychology, 030217 neurology & neurosurgery, Biomarkers, Stress, Psychological

Abstract

In the last decade, it has become clear that the neuropeptide “ghrelin” and its principal receptor have a large impact on anxiety and stress. Our recent studies have uncovered a link between plasma butyrylcholinesterase (BChE) and ghrelin. BChE actually turns out to be the key regulator of this peptide. This article reviews our recent work on manipulating ghrelin levels in mouse blood and brain by long term elevation of BChE, leading to sustained decrease of ghrelin. That effect in turn was found to reduce stress-induced aggression in group caged mice. Positive consequences were fewer bite wounds and longer survival times. No adverse effects were observed. Further exploration may pave the way for BChE-based treatment of anxiety in humans.

Published

2017

13. Butyrylcholinesterase regulates central ghrelin signaling and has an impact on food intake and glucose homeostasis

Author

Vicky Ping Chen, Stephen Brimijoin, L Geng, and Y Gao

Subjects

Male, 0301 basic medicine, medicine.medical_specialty, Apnea, Endocrinology, Diabetes and Metabolism, medicine.medical_treatment, Medicine (miscellaneous), 030209 endocrinology & metabolism, Eating, Mice, 03 medical and health sciences, 0302 clinical medicine, Insulin resistance, Orexigenic, Internal medicine, medicine, Hyperinsulinemia, Animals, Homeostasis, Glucose homeostasis, Butyrylcholinesterase, Mice, Knockout, 2. Zero hunger, Nutrition and Dietetics, business.industry, Insulin, Gene Transfer Techniques, medicine.disease, Ghrelin, 3. Good health, Disease Models, Animal, 030104 developmental biology, Endocrinology, Original Article, Insulin Resistance, business, Metabolism, Inborn Errors, Signal Transduction, medicine.drug, Hormone

Abstract

Background: Ghrelin is the only orexigenic hormone known to stimulate food intake and promote obesity and insulin resistance. We recently showed that plasma ghrelin is controlled by butyrylcholinesterase (BChE), which has a strong impact on feeding and weight gain. BChE knockout (KO) mice are prone to obesity on high-fat diet, but hepatic BChE gene transfer rescues normal food intake and obesity resistance. However, these mice lack brain BChE and still develop hyperinsulinemia and insulin resistance, suggesting essential interactions between BChE and ghrelin within the brain. Methods: To test the hypothesis we used four experimental groups: (1) untreated wild-type mice, (2) BChE KO mice with LUC delivered by adeno-associated virus (AAV) in combined intravenous (i.v.) and intracerebral (i.c.) injections, (3) KO mice given AAV for mouse BChE (i.v. only) and (4) KO mice given the same vector both i.v. and i.c. All mice ate a 45% calorie high-fat diet from the age of 1 month. Body weight, body composition, daily caloric intake and serum parameters were monitored throughout, and glucose tolerance and insulin tolerance tests were performed at intervals. Results: Circulating ghrelin levels dropped substantially in the KO mice after i.v. AAV–BChE delivery, which led to normal food intake and healthy body weight. BChE KO mice that received AAV–BChE through i.v. and i.c. combined treatments not only resisted weight gain on high-fat diet but also retained normal glucose and insulin tolerance. Conclusions: These data indicate a central role for BChE in regulating both insulin and glucose homeostasis. BChE gene transfer could be a useful therapy for complications linked to diet-induced obesity and insulin resistance.

Published

2017

14. Systemic Safety of a Recombinant AAV8 Vector for Human Cocaine Hydrolase Gene Therapy: A Good Laboratory Practice Preclinical Study in Mice

Author

Michael B. Steele, Nathan Jenks, Yang Gao, Stephen Brimijoin, Kah Whye Peng, Vicky Ping Chen, and Liyi Geng

Subjects

Male, media_common.quotation_subject, Genetic Vectors, Drug Evaluation, Preclinical, Pharmacology, Viral vector, law.invention, 03 medical and health sciences, Cocaine-Related Disorders, Mice, 0302 clinical medicine, law, Gene Order, Genetics, Medicine, Animals, Humans, Tissue Distribution, Vector (molecular biology), Adverse effect, Molecular Biology, Research Articles, 030304 developmental biology, media_common, 0303 health sciences, business.industry, Addiction, Gene Transfer Techniques, Investigational New Drug Application, Genetic Therapy, Dependovirus, Recombinant Proteins, Clinical trial, Treatment Outcome, 030220 oncology & carcinogenesis, Mutation, Recombinant DNA, Molecular Medicine, Female, Disease Susceptibility, business, Good laboratory practice, Carboxylic Ester Hydrolases, Biomarkers

Abstract

Cocaine addiction continues to impose major burdens on affected individuals and broader society but is highly resistant to medical treatment or psychotherapy. This study was undertaken with the goal of Food and Drug Administration (FDA) permission for a first-in-human clinical trial of a gene therapy for treatment-seeking cocaine users to become and remain abstinent. The approach was based on intravenous administration of AAV8-hCocH, an adeno-associated viral vector encoding a modified plasma enzyme that metabolizes cocaine into harmless by-products. To assess systemic safety, we conducted "Good Laboratory Practice" (GLP) studies in cocaine-experienced and cocaine-naive mice at doses of 5E12 and 5E13 vector genomes/kg. Results showed total lack of viral vector-related adverse effects in all tests performed. Instead, mice given one injection of AAV8-hCocH and regular daily injections of cocaine had far less tissue pathology than cocaine-injected mice with no vector treatment. Biodistribution analysis showed the vector located almost exclusively in the liver. These results indicate that a liver-directed AAV8-hCocH gene transfer at reasonable dosage is safe, well tolerated, and effective. Thus, gene transfer therapy emerges as a radically new approach to treat compulsive cocaine abuse. In fact, based on these positive findings, the FDA recently accepted our latest request for investigational new drug application (IND 18579).

Published

2019

15. In vivo localization of human acetylcholinesterase-derived species in a β-sheet conformation at the core of senile plaques in Alzheimer's disease

Author

David J. Vaux, Létitia Jean, and Stephen Brimijoin

Subjects

0301 basic medicine, chemistry.chemical_classification, 030102 biochemistry & molecular biology, Amyloid, Beta sheet, Molecular Bases of Disease, Peptide, Cell Biology, medicine.disease, Biochemistry, Acetylcholinesterase, Cell biology, 03 medical and health sciences, chemistry.chemical_compound, 030104 developmental biology, chemistry, In vivo, medicine, Cholinergic, Senile plaques, Alzheimer's disease, Molecular Biology

Abstract

Many neurodegenerative diseases are characterized by amyloid deposition. In Alzheimer's disease (AD), β-amyloid (Aβ) peptides accumulate extracellularly in senile plaques. The AD amyloid cascade hypothesis proposes that Aβ production or reduced clearance leads to toxicity. In contrast, the cholinergic hypothesis argues for a specific pathology of brain cholinergic pathways. However, neither hypothesis in isolation explains the pattern of AD pathogenesis. Evidence suggests that a connection exists between these two scenarios: the synaptic form of human acetylcholinesterase (hAChE-S) associates with plaques in AD brains; among hAChE variants, only hAChE-S enhances Aβ fibrillization in vitro and Aβ deposition and toxicity in vivo. Only hAChE-S contains an amphiphilic C-terminal domain (T40, AChE(575–614)), with AChE(586–599) homologous to Aβ and forming amyloid fibrils, which implicates T40 in AD pathology. We previously showed that the amyloid scavenger, insulin-degrading enzyme (IDE), generates T40-derived amyloidogenic species that, as a peptide mixture, seed Aβ fibrillization. Here, we characterized 11 peptides from a T40–IDE digest for β-sheet conformation, surfactant activity, fibrillization, and seeding capability. We identified residues important for amyloidogenicity and raised polyclonal antibodies against the most amyloidogenic peptide. These new antisera, alongside other specific antibodies, labeled sections from control, hAChE-S, hAPPswe, and hAChE-S/hAPPswe transgenic mice. We observed that hAChE-S β-sheet species co-localized with Aβ in mature plaque cores, surrounded by hAChE-S α-helical species. This observation provides the first in vivo evidence of the conformation of hAChE-S species within plaques. Our results may explain the role of hAChE-S in Aβ deposition and aggregation, as amyloidogenic hAChE-S β-sheet species might seed Aβ aggregation.

Published

2019

16. Monoclonal Antibodies That Recognize Various Folding States of Pure Human Butyrylcholinesterase Can Immunopurify Butyrylcholinesterase from Human Plasma Stored at Elevated Temperatures

Author

Thomas A. Blake, Stephen Brimijoin, Oksana Lockridge, Hong Peng, Rudolph C. Johnson, and Alicia J. Dafferner

Subjects

0301 basic medicine, medicine.drug_class, General Chemical Engineering, Monoclonal antibody, 01 natural sciences, Article, lcsh:Chemistry, 03 medical and health sciences, medicine, Denaturation (biochemistry), Butyrylcholinesterase, Cholinesterase, Chromatography, biology, Chemistry, 010401 analytical chemistry, General Chemistry, Single band, 0104 chemical sciences, 3. Good health, 030104 developmental biology, lcsh:QD1-999, Biochemistry, Human plasma, Coomassie blue, biology.protein

Abstract

Human plasma to be analyzed for exposure to cholinesterase inhibitors is stored at 4 °C or lower to prevent denaturation of human butyrylcholinesterase (HuBChE), the biomarker of exposure. Currently published protocols immunopurify HuBChE using antibodies that bind native HuBChE before analysis by mass spectrometry. It is anticipated that the plasma collected from human casualties may be stored nonideally at elevated temperatures of up to 45 °C for days or maybe weeks. At 45 °C, the plasma loses 50% of its HuBChE activity in 8 days and 95% in 40 days. Our goal was to identify a set of monoclonal antibodies that could be used to immunopurify HuBChE from plasma stored at 45 °C. The folding states of pure human HuBChE stored at 4 and 45 °C and boiled at 100 °C were visualized on nondenaturing gels stained with Coomassie blue. Fully active pure HuBChE tetramers had a single band, but pure HuBChE stored at 45 °C had four bands, representing native, partly unfolded, aggregated, and completely denatured, boiled tetramers. The previously described monoclonal B2 18-5 captured native, partly unfolded, and aggregated HuBChE tetramers, whereas a new monoclonal, C191 developed in our laboratory, was found to selectively capture completely denatured, boiled HuBChE. The highest quantity of HuBChE protein was extracted from 45 °C heat-denatured human plasma when HuBChE was immunopurified with a combination of monoclonals B2 18-5 and C191. Using a mixture of these two antibodies in future emergency response assays may increase the capability to confirm exposure to cholinesterase inhibitors.

Published

2016

17. Physiological roles for butyrylcholinesterase: A BChE-ghrelin axis

Author

Yuan Ping Pang, Yang Gao, Stephen Brimijoin, Vicky Ping Chen, and Liyi Geng

Subjects

0301 basic medicine, medicine.medical_specialty, media_common.quotation_subject, Emotions, Growth hormone secretagogue receptor, Peptide hormone, Biology, Toxicology, Models, Biological, Article, 03 medical and health sciences, 0302 clinical medicine, Internal medicine, medicine, Animals, Humans, Butyrylcholinesterase, media_common, Social stress, Behavior, Longevity, Lipid metabolism, General Medicine, Ghrelin, 030104 developmental biology, Endocrinology, 030217 neurology & neurosurgery, Signal Transduction, Hormone

Abstract

Butyrylcholinesterase (BChE) has long been regarded as an “orphan enzyme” with no specific physiological role other than to metabolize exogenous bioactive esters in the diet or in medicines. Human beings with genetic mutations that eliminate all BChE activity appear completely normal, and BChE-knockout mice have been described as “lacking a phenotype” except for faster weight gain on high-fat diets. However, our recent studies with viral gene transfer of BChE in mice reveal that BChE hydrolyses the so-called “hunger hormone,” ghrelin, at a rate which strongly affects the circulating levels of this peptide hormone. This action has important consequences for weight gain and fat metabolism. Surprisingly, it also impacts emotional behaviors such as aggression. Overexpression of BChE leads to low ghrelin levels in the blood stream and reduces aggression and social stress in mice. Under certain circumstances these combined effects contribute to increased life-span in group-housed animals. These findings may generalize to humans, as recent clinical studies by multiple investigators indicate that, among patients with severe cardiovascular disease, longevity correlates with increasing levels of plasma BChE activity.

Published

2016

18. Long-Term Blockade of Cocaine Self-Administration and Locomotor Activation in Rats by an Adenoviral Vector-Delivered Cocaine Hydrolase

Author

John R. Smethells, Yang Gao, Natashia Swalve, Stephen Brimijoin, Marilyn E. Carroll, Adam Greer, and Robin J. Parks

Subjects

Male, 0301 basic medicine, Rodent, Genetic Vectors, Self Administration, Anxiety, Motor Activity, Pharmacology, Weight Gain, medicine.disease_cause, Adenoviridae, Cocaine-Related Disorders, 03 medical and health sciences, 0302 clinical medicine, Cocaine, Reward, biology.animal, medicine, Animals, Rats, Wistar, Butyrylcholinesterase, Dose-Response Relationship, Drug, biology, Genetic Therapy, Diet, Rats, Blockade, 030104 developmental biology, Behavioral Pharmacology, Anesthesia, Molecular Medicine, Ghrelin, medicine.symptom, Psychology, Self-administration, Carboxylic Ester Hydrolases, Weight gain, 030217 neurology & neurosurgery

Abstract

A promising approach in treating cocaine abuse is to metabolize cocaine in the blood using a mutated butyrylcholinesterase (BChE) that functions as a cocaine hydrolase (CocH). In rats, a helper-dependent adenoviral (hdAD) vector–mediated delivery of CocH abolished ongoing cocaine use and cocaine-primed reinstatement of drug-seeking for several months. This enzyme also metabolizes ghrelin, an effect that may be beneficial in maintaining healthy weights. The effect of a single hdAD-CocH vector injection was examined in rats on measures of anxiety, body weight, cocaine self-administration, and cocaine-induced locomotor activity. To examine anxiety, periadolescent rats were tested in an elevated-plus maze. Weight gain was then examined under four rodent diets. Ten months after CocH-injection, adult rats were trained to self-administer cocaine intravenously and, subsequently, cocaine-induced locomotion was tested. Viral gene transfer produced sustained plasma levels of CocH for over 13 months of testing. CocH-treated rats did not differ from controls in measures of anxiety, and only showed a transient reduction in weight gain during the first 3 weeks postinjection. However, CocH-treated rats were insensitive to cocaine. At 10 months postinjection, none of the CocH-treated rats initiated cocaine self-administration, unlike 90% of the control rats. At 13 months postinjection, CocH-treated rats showed no cocaine-induced locomotion, whereas control rats showed a dose-dependent enhancement of locomotion. CocH vector produced a long-term blockade of the rewarding and behavioral effects of cocaine in rats, emphasizing its role as a promising therapeutic intervention in cocaine abuse.

Published

2016

19. A plant-derived cocaine hydrolase prevents cocaine overdose lethality and attenuates cocaine-induced drug seeking behavior

Author

Tsafrir S. Mor, Tameem Jamal, Latha Kannan, Jacquelyn Kilbourne, R. Player Kendle, Janet L. Neisewander, Kathryn Stefanko, Stephen Brimijoin, Katherine E. Larrimore, Chang-Guo Zhan, and Matthew Barcus

Subjects

Male, media_common.quotation_subject, Drug-Seeking Behavior, Drug seeking, Pharmacology, Article, Cocaine-Related Disorders, Mice, 03 medical and health sciences, 0302 clinical medicine, Cocaine, Cocaine overdose, Tobacco, Hydrolase, Animals, Humans, Medicine, Catalytic efficiency, Biological Psychiatry, Butyrylcholinesterase, media_common, business.industry, Addiction, Plants, Recombinant Proteins, Chronic disorders, 030227 psychiatry, Mice, Inbred C57BL, Conditioning, Operant, Lethality, Drug Overdose, business, Carboxylic Ester Hydrolases

Abstract

Cocaine use disorders include short-term and acute pathologies (e.g. overdose) and long-term and chronic disorders (e.g. intractable addiction and post-abstinence relapse). There is currently no available treatment that can effectively reduce morbidity and mortality associated with cocaine overdose or that can effectively prevent relapse in recovering addicts. One recently developed approach to treat these problems is the use of enzymes that rapidly break down the active cocaine molecule into inactive metabolites. In particular, rational design and site-directed mutagenesis transformed human serum recombinant butyrylcholinesterase (BChE) into a highly efficient cocaine hydrolase with drastically improved catalytic efficiency toward (-)-cocaine. A current drawback preventing the clinical application of this promising enzyme-based therapy is the lack of a cost-effective production strategy that is also flexible enough to rapidly scale-up in response to continuous improvements in enzyme design. Plant-based expression systems provide a unique solution as this platform is designed for fast scalability, low cost and the advantage of performing eukaryotic protein modifications such as glycosylation. A Plant-derived form of the Cocaine Super Hydrolase (A199S/F227A/S287G/A328W/Y332G) we designate PCocSH protects mice from cocaine overdose, counters the lethal effects of acute cocaine overdose, and prevents reinstatement of extinguished drug-seeking behavior in mice that underwent place conditioning with cocaine. These results demonstrate that the novel PCocSH enzyme may well serve as an effective therapeutic for cocaine use disorders in a clinical setting.

Published

2020

20. Author Correction: Plant-expressed cocaine hydrolase variants of butyrylcholinesterase exhibit altered allosteric effects of cholinesterase activity and increased inhibitor sensitivity

Author

Matthew Barcus, Tsafrir Leket-Mor, Stephen Brimijoin, I. Can Kazan, Ashini Bolia, Chang-Guo Zhan, Latha Kannan, R. Player Kendle, Katherine E. Larrimore, Sefika Banu Ozkan, and Tameem Jamal

Subjects

0301 basic medicine, Allosteric regulation, lcsh:Medicine, 03 medical and health sciences, 0302 clinical medicine, Allosteric Regulation, Cocaine, Catalytic Domain, Hydrolase, lcsh:Science, Author Correction, Butyrylcholinesterase, Cholinesterase, Plant Proteins, Multidisciplinary, Binding Sites, biology, Chemistry, Hydrolysis, lcsh:R, Genetic Variation, Stereoisomerism, Recombinant Proteins, 030104 developmental biology, Biochemistry, 030220 oncology & carcinogenesis, Mutation, ComputingMethodologies_DOCUMENTANDTEXTPROCESSING, biology.protein, lcsh:Q, Cholinesterase Inhibitors, Protein Binding

Abstract

Butyrylcholinesterase (BChE) is an enzyme with broad substrate and ligand specificities and may function as a generalized bioscavenger by binding and/or hydrolyzing various xenobiotic agents and toxicants, many of which target the central and peripheral nervous systems. Variants of BChE were rationally designed to increase the enzyme's ability to hydrolyze the psychoactive enantiomer of cocaine. These variants were cloned, and then expressed using the magnICON transient expression system in plants and their enzymatic properties were investigated. In particular, we explored the effects that these site-directed mutations have over the enzyme kinetics with various substrates of BChE. We further compared the affinity of various anticholinesterases including organophosphorous nerve agents and pesticides toward these BChE variants relative to the wild type enzyme. In addition to serving as a therapy for cocaine addiction-related diseases, enhanced bioscavenging against other harmful agents could add to the practicality and versatility of the plant-derived recombinant enzyme as a multivalent therapeutic.

Published

2018

21. Mechanisms Underlying the Regulation of HP1γ by the NGF-PKA Signaling Pathway

Author

Angela Mathison, Jewel L. Podratz, Juan L. Iovanna, Gwen Lomberk, Anthony J. Windebank, Stephen Brimijoin, Raul Urrutia, Seungmae Seo, Adrienne Grzenda, Ezequiel Calvo, Centre de Recherche en Cancérologie de Marseille (CRCM), Centre National de la Recherche Scientifique (CNRS)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Institut Paoli-Calmettes, Fédération nationale des Centres de lutte contre le Cancer (FNCLCC)-Fédération nationale des Centres de lutte contre le Cancer (FNCLCC)-Aix Marseille Université (AMU), Aix Marseille Université (AMU)-Institut Paoli-Calmettes, and Fédération nationale des Centres de lutte contre le Cancer (FNCLCC)-Fédération nationale des Centres de lutte contre le Cancer (FNCLCC)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS)

Subjects

0301 basic medicine, Male, Serum, Aging, Heterochromatin, Chromosomal Proteins, Non-Histone, Cellular differentiation, [SDV]Life Sciences [q-bio], lcsh:Medicine, Down-Regulation, Nervous System, PC12 Cells, Article, 03 medical and health sciences, Phosphoserine, 0302 clinical medicine, RNA interference, Nerve Growth Factor, Neurites, Gene silencing, Animals, Humans, Gene Regulatory Networks, Amino Acid Sequence, Phosphorylation, Protein kinase A, lcsh:Science, Multidisciplinary, Genome, Chemistry, lcsh:R, Cell Differentiation, Cyclic AMP-Dependent Protein Kinases, Cell biology, Rats, Mice, Inbred C57BL, 030104 developmental biology, nervous system, Chromobox Protein Homolog 5, Heterochromatin protein 1, lcsh:Q, Female, Signal transduction, 030217 neurology & neurosurgery, Signal Transduction

Abstract

Heterochromatin protein 1 γ (HP1γ) is a well-known chromatin protein, which regulates gene silencing during the execution of processes associated with embryogenesis, organ maturation, and cell differentiation. We find that, in vivo, the levels of HP1γ are downregulated during nervous system development. Similar results are recapitulated in vitro during nerve growth factor (NGF)-induced neuronal cell differentiation in PC12 cells. Mechanistically, our experiments demonstrate that in differentiating PC12 cells, NGF treatment decreases the association of HP1γ to silent heterochromatin, leads to phosphorylation of this protein at S83 via protein kinase A (PKA), and ultimately results in its degradation. Genome-wide experiments, using gain-of-function (overexpression) and loss-of-function (RNAi) paradigms, demonstrate that changing the level of HP1γ impacts on PC12 differentiation, at least in part, through gene networks involved in this process. Hence, inactivation of HP1γ by different post-translational mechanisms, including reduced heterochromatin association, phosphorylation, and degradation, is necessary for neuronal cell differentiation to occur. Indeed, we show that the increase of HP1γ levels has the reverse effect, namely antagonizing neuronal cell differentiation, supporting that this protein acts as a barrier for this process. Thus, these results describe the regulation and participation of HP1γ in a novel membrane-to-nucleus pathway, through NGF-PKA signaling, which is involved in NGF-induced neuronal cell differentiation.

Published

2018

22. Treating Cocaine Addiction, Obesity, and Emotional Disorders by Viral Gene Transfer of Butyrylcholinesterase

Author

Yang Gao, Stephen Brimijoin, Vicky Ping Chen, and Liyi Geng

Subjects

0301 basic medicine, medicine.medical_specialty, obesity, Aché, media_common.quotation_subject, Mini Review, cocaine, 03 medical and health sciences, chemistry.chemical_compound, stress, 0302 clinical medicine, Internal medicine, Hydrolase, medicine, Pharmacology (medical), Neurotransmitter, Butyrylcholinesterase, media_common, Pharmacology, business.industry, Addiction, lcsh:RM1-950, Acetylcholinesterase, language.human_language, 3. Good health, lcsh:Therapeutics. Pharmacology, 030104 developmental biology, Endocrinology, viral gene transfer, chemistry, ghrelin, butyrylcholinesterase, language, Ghrelin, addiction, business, 030217 neurology & neurosurgery, Acetylcholine, medicine.drug

Abstract

Butyrylcholinesterase (BChE), a plasma enzyme that hydrolyses the neurotransmitter, acetylcholine relatively well, with far lower efficiency than acetylcholinesterase (AChE) but with the capability to degrade a broad range of bioactive esters. AChE is universally understood as essential to cholinergic neurotransmission, voluntary muscle performance, and cognition, among other roles, and its catalytic impact is essential for life. A total absence of BChE activity, whether by enzyme inhibition or simple lack of enzyme protein is not only compatible with life, but does not lead to obvious physiologic disturbance. However, very recent studies at Mayo Clinic have amassed support for the concept that BChE does have a true physiological role as a “ghrelin hydrolase” and, pharmacologically, as a cocaine hydrolase. Human subjects and animal mutations that lack functional BChE show higher than normal levels of ghrelin, an acylated peptide that drives hunger and feeding, along with certain emotional behaviors. Mice treated by viral gene transfer of BChE show higher plasma levels of enzyme and lower levels of ghrelin. Ghrelin is acknowledged as a driver of food-seeking and stress. This brief review examines some key phenomena and considers means of modulating BChE as treatments for cocaine addiction, anxiety, aggression, and obesity.

Published

2018

23. Cocaine Hydrolase Gene Transfer Demonstrates Cardiac Safety and Efficacy against Cocaine-Induced QT Prolongation in Mice

Author

Yang Gao, Stephen Brimijoin, Liyi Geng, Santiago Reyes, and Vishakantha Murthy

Subjects

Male, 0301 basic medicine, Drug, Hydrolases, media_common.quotation_subject, Long QT syndrome, Pharmacology, Cardiovascular, QT interval, Mice, 03 medical and health sciences, 0302 clinical medicine, Cocaine, Animals, Medicine, Butyrylcholinesterase, media_common, Mice, Inbred BALB C, Cardiotoxicity, business.industry, Addiction, Gene Transfer Techniques, Hydrolase Gene, medicine.disease, Long QT Syndrome, Treatment Outcome, 030104 developmental biology, Toxicity, Molecular Medicine, business, 030217 neurology & neurosurgery

Abstract

Cocaine addiction is associated with devastating medical consequences, including cardiotoxicity and risk-conferring prolongation of the QT interval. Viral gene transfer of cocaine hydrolase engineered from butyrylcholinesterase offers therapeutic promise for treatment-seeking drug users. Although previous preclinical studies have demonstrated benefits of this strategy without signs of toxicity, the specific cardiac safety and efficacy of engineered butyrylcholinesterase viral delivery remains unknown. Here, telemetric recording of electrocardiograms from awake, unrestrained mice receiving a course of moderately large cocaine doses (30 mg/kg, twice daily for 3 weeks) revealed protection against a 2-fold prolongation of the QT interval conferred by pretreatment with cocaine hydrolase vector. By itself, this prophylactic treatment did not affect QT interval duration or cardiac structure, demonstrating that viral delivery of cocaine hydrolase has no intrinsic cardiac toxicity and, on the contrary, actively protects against cocaine-induced QT prolongation.

Published

2015

24. In vitro characterization of cationic copolymer-complexed recombinant human butyrylcholinesterase

Author

Nicholas Flynn, Carey Pope, Joshua D. Ramsey, W. Stephen Brimijoin, Jing Liu, Kirstin Poindexter, Liyi Geng, Chibuzor Uchea, Ashish Ranjan, and Steve Hartson

Subjects

Polymers, In Vitro Techniques, Biochemistry, Paraoxon, chemistry.chemical_compound, Cations, Enzyme Stability, PEG ratio, medicine, Humans, Butyrylcholinesterase, Pharmacology, chemistry.chemical_classification, Chymotrypsin, biology, Recombinant Proteins, Enzyme assay, Enzyme, chemistry, Acrylamide, biology.protein, Cholinesterase Inhibitors, Ethylene glycol, medicine.drug

Abstract

Effective use of exogenous human BChE as a bioscavenger for organophosphorus toxicants (OPs) is hindered by its limited availability and rapid clearance. Complexes made from recombinant human BChE (rhBChE) and copolymers may be useful in addressing these problems. We used in vitro approaches to compare enzyme activity, sensitivity to inhibition, stability and bioscavenging capacity of free enzyme and copolymer-rhBChE complexes (C-BCs) based on one of nine different copolymers, from combinations of three molecular weights (MW) of poly-L-lysine (PLL; high MW, 30-70 kDa; medium MW, 15-30 kDa; low MW, 4-15 kDa) and three grafting ratios of poly(ethylene glycol) (PEG; 2:1, 10:1, 20:1). Retarded protein migration into acrylamide gels stained for BChE activity was noted with all copolymers as the copolymer-to-protein ratio was increased. BChE activity of C-BCs was lower relative to free enzyme, with the 2:1 grafting ratio showing generally greater reduction. Free enzyme and C-BCs showed relatively similar in vitro sensitivity to inhibition by paraoxon, but use of the 20:1 grafting ratio led to lower potencies. Through these screening assays we selected three C-BCs (high, medium and low MW; 10:1 grafting) for further characterizations. BChE activity was higher in C-BCs made with the medium and low compared to high MW-based copolymer. C-BCs generally showed higher stability than free enzyme when maintained for long periods at 37 °C or following incubation with chymotrypsin. Free enzyme and C-BCs were similarly effective at inactivating paraoxon in vitro. While these results are promising for further development, additional studies are needed to evaluate in vivo performance.

Published

2015

25. Kinetic characterization of a cocaine hydrolase engineered from mouse butyrylcholinesterase

Author

Xiaoqin Huang, Xirong Zheng, Liu Xue, Xiabin Chen, Fang Zheng, Stephen Brimijoin, Shurong Hou, Chang-Guo Zhan, and Liyi Geng

Subjects

Models, Molecular, Protein Conformation, Stereochemistry, Butyrylthiocholine, Molecular Dynamics Simulation, Protein Engineering, Biochemistry, Article, Substrate Specificity, Mice, Enzyme activator, chemistry.chemical_compound, Cocaine, Hydrolase, Animals, Humans, Molecular Biology, Butyrylcholinesterase, Cholinesterase, chemistry.chemical_classification, Binding Sites, biology, Substrate (chemistry), Cell Biology, Acetylcholinesterase, Acetylcholine, Recombinant Proteins, Enzyme Activation, Kinetics, Enzyme, Amino Acid Substitution, chemistry, Biocatalysis, biology.protein, Mutant Proteins, Carboxylic Ester Hydrolases

Abstract

Mouse butyrylcholinesterase (mBChE) and an mBChE-based cocaine hydrolase (mCocH, i.e. the A199S/S227A/S287G/A328W/Y332G mutant) have been characterized for their catalytic activities against cocaine, i.e. naturally occurring (−)-cocaine, in comparison with the corresponding human BChE (hBChE) and an hBChE-based cocaine hydrolase (hCocH, i.e. the A199S/F227A/S287G/A328W/Y332G mutant). It has been demonstrated that mCocH and hCocH have improved the catalytic efficiency of mBChE and hBChE against (−)-cocaine by ~8- and ~2000-fold respectively, although the catalytic efficiencies of mCocH and hCocH against other substrates, including acetylcholine (ACh) and butyrylthiocholine (BTC), are close to those of the corresponding wild-type enzymes mBChE and hBChE. According to the kinetic data, the catalytic efficiency ( k cat /K M) of mBChE against (−)-cocaine is comparable with that of hBChE, but the catalytic efficiency of mCocH against (−)-cocaine is remarkably lower than that of hCocH by ~250-fold. The remarkable difference in the catalytic activity between mCocH and hCocH is consistent with the difference between the enzyme–(−)-cocaine binding modes obtained from molecular modelling. Further, both mBChE and hBChE demonstrated substrate activation for all of the examined substrates [(−)-cocaine, ACh and BTC] at high concentrations, whereas both mCocH and hCocH showed substrate inhibition for all three substrates at high concentrations. The amino-acid mutations have remarkably converted substrate activation of the enzymes into substrate inhibition, implying that the rate-determining step of the reaction in mCocH and hCocH might be different from that in mBChE and hBChE. Abbreviations: ACh, acetylcholine; AChE, acetylcholinesterase; BChE, butyrylcholinesterase; BTC, butyrylthiocholine; CHO, Chinese hamster ovary; CIP, calf intestinal alkaline phospahtase; CocH, cocaine hydrolases; hBChE, human butyrylcholinesterase; hCocH, human-butyrylcholinesterase-based cocaine hydrolase; mBChE, mouse butyrylcholinesterase; mCocH, mouse butyrylcholinesterase-based cocaine hydrolase; MD, molecular dynamics; TS, transition state

Published

2015

26. Plasma butyrylcholinesterase regulates ghrelin to control aggression

Author

Vicky Ping Chen, Yuan Ping Pang, Yang Gao, Robin J. Parks, Liyi Geng, and Stephen Brimijoin

Subjects

Male, medicine.medical_specialty, Mutant, Poison control, Corrections, Viral vector, Mice, Internal medicine, medicine, Animals, Butyrylcholinesterase, Social stress, Mice, Inbred BALB C, Multidisciplinary, biology, Chemistry, digestive, oral, and skin physiology, Active site, Biological Sciences, Ghrelin, In vitro, Aggression, Endocrinology, biology.protein

Abstract

Ongoing mouse studies of a proposed therapy for cocaine abuse based on viral gene transfer of butyrylcholinesterase (BChE) mutated for accelerated cocaine hydrolysis have yielded surprising effects on aggression. Further investigation has linked these effects to a reduction in circulating ghrelin, driven by BChE at levels ∼ 100-fold above normal. Tests with human BChE showed ready ghrelin hydrolysis at physiologic concentrations, and multiple low-mass molecular dynamics simulations revealed that ghrelin's first five residues fit sterically and electrostatically into BChE's active site. Consistent with in vitro results, male BALB/c mice with high plasma BChE after gene transfer exhibited sharply reduced plasma ghrelin. Unexpectedly, such animals fought less, both spontaneously and in a resident/intruder provocation model. One mutant BChE was found to be deficient in ghrelin hydrolysis. BALB/c mice transduced with this variant retained normal plasma ghrelin levels and did not differ from untreated controls in the aggression model. In contrast, C57BL/6 mice with BChE gene deletion exhibited increased ghrelin and fought more readily than wild-type animals. Collectively, these findings indicate that BChE-catalyzed ghrelin hydrolysis influences mouse aggression and social stress, with potential implications for humans.

Published

2015

27. 17α-estradiol acts through hypothalamic pro-opiomelanocortin expressing neurons to reduce feeding behavior

Author

Michael B. Stout, Stephen Brimijoin, Willard M. Freeman, Marcelo Rubinstein, Frederik J. Steyn, T. Y. Xie, Martin Ghadami, Malcolm J. Low, Shyuan T. Ngo, Lora C. Bailey-Downs, and Vicky Ping Chen

Subjects

0301 basic medicine, Leptin, obesity, Pro-Opiomelanocortin, food intake, Ciencias de la Salud, Disease, AGING, Eating, 17α‐estradiol, 0302 clinical medicine, Weight loss, media_common, 2. Zero hunger, Neurons, Behavior, Animal, Estradiol, Short Take, 3. Good health, Peripheral, Hypothalamus, OBESITY, purl.org/becyt/ford/3 [https], medicine.symptom, medicine.medical_specialty, CIENCIAS MÉDICAS Y DE LA SALUD, media_common.quotation_subject, Inflammation, Mice, Transgenic, Biology, purl.org/becyt/ford/3.3 [https], 03 medical and health sciences, 17a-ESTRADIOL, PRO-OPIOMELANOCORTIN, Internal medicine, medicine, Animals, Salud Ocupacional, aging, FOOD INTAKE, Arcuate Nucleus of Hypothalamus, Appetite, Cell Biology, Metabolism, Feeding Behavior, medicine.disease, Obesity, 030104 developmental biology, Endocrinology, HYPOTHALAMUS, 030217 neurology & neurosurgery, pro‐opiomelanocortin

Abstract

Weight loss is an effective intervention for diminishing disease burden in obese older adults. Pharmacological interventions that reduce food intake and thereby promote weight loss may offer effective strategies to reduce age-related disease. We previously reported that 17α-estradiol (17α-E2) administration elicits beneficial effects on metabolism and inflammation in old male mice. These observations were associated with reduced calorie intake. Here, we demonstrate that 17α-E2 acts through pro-opiomelanocortin (Pomc) expression in the arcuate nucleus (ARC) to reduce food intake and body mass in mouse models of obesity. These results confirm that 17α-E2 modulates appetite through selective interactions within hypothalamic anorexigenic pathways. Interestingly, some peripheral markers of metabolic homeostasis were also improved in animals with near complete loss of ARC Pomc transcription. This suggests that 17α-E2 might have central and peripheral actions that can beneficially affect metabolism cooperatively or independently. Fil: Steyn, Frederik J.. University of Queensland Centre for Clinical Research; Australia. Royal Brisbane & Women’s Hospital; Australia. Wesley Medical Research; Australia Fil: Ngo, Shyuan T.. University of Queensland Centre for Clinical Research; Australia. Royal Brisbane & Women’s Hospital; Australia. Wesley Medical Research; Australia. University of Queensland; Australia Fil: Chen, Vicky Ping. Mayo Clinic; Estados Unidos Fil: Bailey Downs, Lora C.. University of Oklahoma Health Sciences Center; Estados Unidos Fil: Xie, Teresa Y.. University of Queensland; Australia Fil: Ghadami, Martin. University of Queensland; Australia Fil: Brimijoin, Stephen. Mayo Clinic; Estados Unidos Fil: Freeman, Willard M.. University of Oklahoma Health Sciences Center; Estados Unidos Fil: Rubinstein, Marcelo. Consejo Nacional de Investigaciones Científicas y Técnicas. Instituto de Investigaciones en Ingeniería Genética y Biología Molecular "Dr. Héctor N. Torres"; Argentina. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales; Argentina. University of Michigan Medical School; Estados Unidos Fil: Low, Malcolm J.. University of Michigan Medical School; Estados Unidos Fil: Stout, Michael B.. University of Oklahoma. Health Sciences Center; Estados Unidos

Published

2017

28. Butyrylcholinesterase gene transfer in obese mice prevents postdieting body weight rebound by suppressing ghrelin signaling

Author

Yang Gao, Vicky Ping Chen, Stephen Brimijoin, and Liyi Geng

Subjects

0301 basic medicine, Male, medicine.medical_specialty, Calorie, media_common.quotation_subject, Calorie restriction, Appetite, Mice, Obese, 030209 endocrinology & metabolism, Hyperphagia, Weight Gain, 03 medical and health sciences, Eating, Mice, 0302 clinical medicine, Weight loss, Internal medicine, Weight Loss, medicine, Glucose homeostasis, Animals, Obesity, Butyrylcholinesterase, media_common, Caloric Restriction, Multidisciplinary, Chemistry, digestive, oral, and skin physiology, Body Weight, Biological Sciences, Ghrelin, 030104 developmental biology, Endocrinology, medicine.symptom, Weight gain, Signal Transduction

Abstract

The worldwide prevalence of obesity is increasing at an alarming rate but treatment options remain limited. Despite initial success, weight loss by calorie restriction (CR) often fails because of rebound weight gain. Postdieting hyperphagia along with altered hypothalamic neuro-architecture appears to be one direct cause of this undesirable outcome. In response to calorie deficiency the circulating levels of the appetite-promoting hormone, acyl-ghrelin, rise sharply. We hypothesize that proper modulation of acyl-ghrelin and its receptor's sensitivity will favorably impact energy intake and reprogram the body weight set point. Here we applied viral gene transfer of the acyl-ghrelin hydrolyzing enzyme, butyrylcholinesterase (BChE), in a mouse model of diet-induced obesity. Our results confirmed that BChE overexpression decreased circulating acyl-ghrelin levels, suppressed CR-provoked ghrelin signaling, and restored central ghrelin sensitivity. In addition to maintaining healthy body weights, BChE treated mice had modest postdieting food intake and showed normal glucose homeostasis. Spontaneous activity and energy expenditure did not differ significantly between treated and untreated mice after body weight rebound, suggesting that BChE gene transfer did not alter energy expenditure in the long term. These findings indicate that combining BChE treatment with CR could be an effective approach in treating human obesity and aiding lifelong weight management.

Published

2017

29. Plant-expressed cocaine hydrolase variants of butyrylcholinesterase exhibit altered allosteric effects of cholinesterase activity and increased inhibitor sensitivity

Author

Stephen Brimijoin, Katherine E. Larrimore, Chang-Guo Zhan, Ashini Bolia, Latha Kannan, R. Player Kendle, Tsafrir S. Mor, I. Can Kazan, Tameem Jamal, Matthew Barcus, and S. Banu Ozkan

Subjects

0301 basic medicine, chemistry.chemical_classification, Multidisciplinary, biology, lcsh:R, Allosteric regulation, lcsh:Medicine, Ligand (biochemistry), Article, 3. Good health, 03 medical and health sciences, 030104 developmental biology, Enzyme, chemistry, Biochemistry, Hydrolase, biology.protein, lcsh:Q, Enzyme kinetics, Binding site, lcsh:Science, Butyrylcholinesterase, Cholinesterase

Abstract

Butyrylcholinesterase (BChE) is an enzyme with broad substrate and ligand specificities and may function as a generalized bioscavenger by binding and/or hydrolyzing various xenobiotic agents and toxicants, many of which target the central and peripheral nervous systems. Variants of BChE were rationally designed to increase the enzyme’s ability to hydrolyze the psychoactive enantiomer of cocaine. These variants were cloned, and then expressed using the magnICON transient expression system in plants and their enzymatic properties were investigated. In particular, we explored the effects that these site-directed mutations have over the enzyme kinetics with various substrates of BChE. We further compared the affinity of various anticholinesterases including organophosphorous nerve agents and pesticides toward these BChE variants relative to the wild type enzyme. In addition to serving as a therapy for cocaine addiction-related diseases, enhanced bioscavenging against other harmful agents could add to the practicality and versatility of the plant-derived recombinant enzyme as a multivalent therapeutic.

Published

2017

30. The future potential for cocaine vaccines

Author

Rana A. K. Singh, Stephen Brimijoin, Rongfu Wang, Thomas R. Kosten, Helen Yicheng Wang, Berma M. Kinsey, Frank M. Orson, and Muthu Ramakrishnan

Subjects

medicine.medical_specialty, Vaccine evaluation, media_common.quotation_subject, Clinical Biochemistry, Complementary therapy, Cocaine related disorders, Social issues, Antibodies, Article, Cocaine-Related Disorders, Cocaine, Drug Discovery, medicine, Animals, Humans, Intensive care medicine, media_common, Pharmacology, Clinical Trials as Topic, Vaccines, business.industry, Addiction, Clinical trial, Antibody response, Immunology, Immunotherapy, business, Protein Binding

Abstract

Addiction to cocaine is a major problem around the world, but especially in developed countries where the combination of wealth and user demand has created terrible social problems. Although only some users become truly addicted, those who are often succumb to a downward spiral in their lives from which it is very difficult to escape. From the medical perspective, the lack of effective and safe, non-addictive therapeutics has instigated efforts to develop alternative approaches for treatment, including anticocaine vaccines designed to block cocaine's pharmacodynamic effects.This paper discusses the implications of cocaine pharmacokinetics for robust vaccine antibody responses, the results of human vaccine clinical trials, new developments in animal models for vaccine evaluation, alternative vaccine formulations and complementary therapy to enhance anticocaine effectiveness.Robust anti-cocaine antibody responses are required for benefit to cocaine abusers, but since any reasonably achievable antibody level can be overcome with higher drug doses, sufficient motivation to discontinue use is also essential so that the relative barrier to cocaine effects will be appropriate for each individual. Combining a vaccine with achievable levels of an enzyme to hydrolyze cocaine to inactive metabolites, however, may substantially increase the blockade and improve treatment outcomes.

Published

2014

31. Prospects, promise and problems on the road to effective vaccines and related therapies for substance abuse

Author

Frank M. Orson, Thomas R. Kosten, Xiaoyun Shen, and Stephen Brimijoin

Subjects

Drug, medicine.medical_specialty, Hydrolases, media_common.quotation_subject, medicine.medical_treatment, Immunology, Poison control, Pharmacology, Article, Nicotine, Cocaine-Related Disorders, Cocaine, Intervention (counseling), Drug Discovery, Humans, Medicine, Intensive care medicine, media_common, Vaccines, business.industry, Gene Transfer Techniques, Antibodies, Monoclonal, medicine.disease, Substance abuse, Stimulant, Clinical trial, Molecular Medicine, business, Cocaine abuse, medicine.drug

Abstract

This review addresses potential new treatments for stimulant drugs of abuse, especially cocaine. Clinical trials of vaccines against cocaine and nicotine have been completed with the generally encouraging result that subjects showing high titers of antidrug antibody experience a reduction in drug reward, which may aid in cessation. New vaccine technologies, including gene transfer of highly optimized monoclonal antibodies, are likely to improve such outcomes further. In the special case of cocaine abuse, a metabolic enzyme is emerging as an alternative or added therapeutic intervention, which would also involve gene transfer. Such approaches still require extensive studies of safety and efficacy, but they may eventually contribute to a robust form of in vivo drug interception that greatly reduces the risks of addiction relapse.

Published

2013

32. Effects of anti-cocaine vaccine and viral gene transfer of cocaine hydrolase in mice on cocaine toxicity including motor strength and liver damage

Author

Yang Gao, Liyi Geng, Xiaoyun Shen, Berma M. Kinsey, Thomas R. Kosten, Stephen Brimijoin, and Frank M. Orson

Subjects

Male, Hydrolases, Genetic Vectors, Pharmacology, Toxicology, Article, Viral vector, Cocaine-Related Disorders, Mice, Transduction (genetics), Cocaine, In vivo, Hydrolase, Animals, Humans, Muscle Strength, Butyrylcholinesterase, chemistry.chemical_classification, Mice, Inbred BALB C, Vaccines, biology, Gene Transfer Techniques, General Medicine, Dependovirus, Rats, Enzyme, chemistry, Alanine transaminase, biology.protein, Chemical and Drug Induced Liver Injury, Antibody

Abstract

In developing an vivo drug-interception therapy to treat cocaine abuse and hinder relapse into drug seeking provoked by re-encounter with cocaine, two promising agents are: (1) a cocaine hydrolase enzyme (CocH) derived from human butyrylcholinesterase and delivered by gene transfer; (2) an anti-cocaine antibody elicited by vaccination. Recent behavioral experiments showed that antibody and enzyme work in a complementary fashion to reduce cocaine-stimulated locomotor activity in rats and mice. Our present goal was to test protection against liver damage and muscle weakness in mice challenged with massive doses of cocaine at or near the LD50 level (100–120 mg/kg, i.p.). We found that, when the interceptor proteins were combined at doses that were only modestly protective in isolation (enzyme, 1 mg/kg; antibody, 8 mg/kg), they provided complete protection of liver tissue and motor function. When the enzyme levels were ∼400-fold higher, after in vivo transduction by adeno-associated viral vector, similar protection was observed from CocH alone.

Published

2013

33. Butyrylcholinesterase Deficiency Promotes Adipose Tissue Growth and Hepatic Lipid Accumulation in Male Mice on High-Fat Diet

Author

Yang Gao, Stephen Brimijoin, Vicky Ping Chen, Michael D. Jensen, Liyi Geng, and Michael B. Stout

Subjects

0301 basic medicine, Male, medicine.medical_specialty, Apnea, Adipose tissue, White adipose tissue, Biology, Diet, High-Fat, 03 medical and health sciences, Mice, 0302 clinical medicine, Endocrinology, Internal medicine, medicine, Animals, Humans, Butyrylcholinesterase, Adiposity, Original Research, Mice, Knockout, Lipid metabolism, Organ Size, medicine.disease, Lipid Metabolism, Obesity, Up-Regulation, Mice, Inbred C57BL, 030104 developmental biology, HEK293 Cells, Adipose Tissue, Liver, Ghrelin, medicine.symptom, Weight gain, 030217 neurology & neurosurgery, Metabolism, Inborn Errors, Hormone

Abstract

Despite numerous reports of relationships between weight gain and butyrylcholinesterase (BChE), this enzyme's role in the genesis of obesity remains unclear, but recent research points to strong links with ghrelin, the “hunger hormone.” The availability of BChE knockout (KO) mice provides an opportunity to clarify the causal relationship between BChE and obesity onset. We now find that young KO mice have abnormally high plasma ghrelin levels that slowly decline during long-term high-fat feeding and ultimately drop below those in wild-type mice. On such a diet, the KO mice gained notably more weight, more white fat, and more hepatic fat than wild-type animals. In addition to a greater burden of hepatic triglycerides, the livers of these KO mice show distinctly higher levels of inflammatory markers. Finally, their energy expenditure proved to be lower than in wild-type mice despite similar activity levels and increased caloric intake. A gene transfer of mouse BChE with adeno-associated virus vector restored nearly all aspects of the normal phenotype. Our results indicate that BChE strongly affects fat metabolism, has an important impact on fat accumulation, and may be a promising tool for combating obesity.

Published

2016

34. Novel and Viable Acetylcholinesterase Target Site for Developing Effective and Environmentally Safe Insecticides

Author

David W. Ragsdale, Robert A. Suranyi, Stephen Brimijoin, Yuan Ping Pang, and Kun Yan Zhu

Subjects

Insecticides, Clinical Biochemistry, irreversible inhibitors, Biology, Insect Control, Article, crop damage control, Toxicology, Insecticide Resistance, chemistry.chemical_compound, Pest control, Drug Delivery Systems, disease vector control, Drug Discovery, Animals, Humans, Insecticide toxicity, Pharmacology, business.industry, fungi, Environmental exposure, Environmental Exposure, Genomics, Acetylcholinesterase, Biotechnology, Insect Vectors, Target site, chemistry, Insecticide resistance, Drug Design, Molecular Medicine, business, anti-malaria, anticholinesterase

Abstract

Insect pests are responsible for human suffering and financial losses worldwide. New and environmentally safe insecticides are urgently needed to cope with these serious problems. Resistance to current insecticides has resulted in a resurgence of insect pests, and growing concerns about insecticide toxicity to humans discourage the use of insecticides for pest control. The small market for insecticides has hampered insecticide development; however, advances in genomics and structural genomics offer new opportunities to develop insecticides that are less dependent on the insecticide market. This review summarizes the literature data that support the hypothesis that an insect-specific cysteine residue located at the opening of the acetylcholinesterase active site is a promising target site for developing new insecticides with reduced off-target toxicity and low propensity for insect resistance. These data are used to discuss the differences between targeting the insect-specific cysteine residue and targeting the ubiquitous catalytic serine residue of acetylcholinesterase from the perspective of reducing off-target toxicity and insect resistance. Also discussed is the prospect of developing cysteine-targeting anticholinesterases as effective and environmentally safe insecticides for control of disease vectors, crop damage, and residential insect pests within the financial confines of the present insecticide market.

Published

2012

35. Krüppel-like Factor 11 Differentially Couples to Histone Acetyltransferase and Histone Methyltransferase Chromatin Remodeling Pathways to Transcriptionally Regulate Dopamine D2 Receptor in Neuronal Cells

Author

Raul Urrutia, Angela Mathison, Navtej S. Buttar, Anthony J. Windebank, Ezequiel Calvo, Gwen Lomberk, Jewel L. Podratz, Stephen Brimijoin, Juan L. Iovanna, and Seungmae Seo

Subjects

Transcription, Genetic, Molecular Sequence Data, Down-Regulation, p300, Cell Cycle Proteins, Biology, PC12 Cells, Biochemistry, Neurotransmitter Receptors, Chromatin remodeling, 03 medical and health sciences, Histone H3, 0302 clinical medicine, Neurobiology, Histone H1, Histone H2A, Histone methylation, Neurites, Animals, Homeostasis, Humans, Histone code, Transcription Regulation, Promoter Regions, Genetic, Molecular Biology, Histone Acetyltransferases, 030304 developmental biology, Genetics, 0303 health sciences, Base Sequence, Receptors, Dopamine D2, Heterochromatin Protein 1 (HP1), Dopaminergic Neurons, EZH2, Krüppel-like Factor (KLF), Dopamine Receptors, Cell Differentiation, Histone-Lysine N-Methyltransferase, Cell Biology, Chromatin, Rats, 3. Good health, Cell biology, Repressor Proteins, Histone methyltransferase, Histone Methyltransferases, Apoptosis Regulatory Proteins, 030217 neurology & neurosurgery

Abstract

Background: Chromatin-mediated events utilized by Krüppel-Like factors in neurons remain undefined. Results: Krüppel-Like factor 11 couples to antagonistic chromatin pathways (p300 versus heterochromatin protein 1) to regulate the dopamine D2 receptor gene. Conclusion: This is the first description of mechanisms underlying Krüppel-like factor-mediated functions in neurons. Significance: This knowledge expands our understanding of chromatin-mediated mechanisms that influence homeostasis in highly specialized cells., The importance of Krüppel-like factor (KLF)-mediated transcriptional pathways in the biochemistry of neuronal differentiation has been recognized relatively recently. Elegant studies have revealed that KLF proteins are important regulators of two major molecular and cellular processes critical for neuronal cell differentiation: neurite formation and the expression of neurotransmitter-related genes. However, whether KLF proteins mediate these key processes in a separate or coordinated fashion remains unknown. Moreover, knowledge on the contribution of chromatin dynamics to the biochemical mechanisms utilized by these proteins to perform their function is absent. Here we report the characterization of two antagonistic, chromatin-mediated mechanisms by which KLF11, also known as TIEG2 (transforming growth factor-β-inducible early gene 2) and MODY VII (maturity onset diabetes of the young VII), regulates transcription of the fopamine D2 receptor (Drd2) gene. First, KLF11 activates transcription by binding to a distinct Sp-KLF site within the Drd2 promoter (−98 to −94) and recruiting the p300 histone acetyltransferase. Second, Drd2 transcriptional activation is partially antagonized by heterochromatin protein 1 (HP1), the code reader for histone H3 lysine 9 methylation. Interestingly, KLF11 regulates neurotransmitter receptor gene expression in differentiating neuronal cell populations without affecting neurite formation. Overall, these studies highlight histone methylation and acetylation as key biochemical mechanisms modulating KLF-mediated neurotransmitter gene transcription. These data extend our knowledge of chromatin-mediated biochemical events that maintain key phenotypic features of differentiated neuronal cells.

Published

2012

36. Interception of Cocaine by Enzyme or Antibody Delivered with Viral Gene Transfer: A Novel Strategy for Preventing Relapse in Recovering Drug Users

Author

Stephen Brimijoin

Subjects

Drug, Genes, Viral, medicine.drug_class, media_common.quotation_subject, Genetic enhancement, Pharmacology, Monoclonal antibody, Article, Viral gene, Cocaine-Related Disorders, Drug Delivery Systems, Cocaine, Secondary Prevention, medicine, Animals, Humans, Butyrylcholinesterase, media_common, chemistry.chemical_classification, biology, General Neuroscience, Addiction, Gene Transfer Techniques, Antibodies, Monoclonal, Recovery of Function, Enzyme, chemistry, biology.protein, Antibody

Abstract

Recent progress in enzyme engineering has led to versions of human butyrylcholinesterase (BChE) that hydrolyze cocaine efficiently in plasma, reduce concentrations reaching reward neurocircuity in the brain, and weaken behavioral responses to this drug. Along with enzyme advances, increasingly avid anti-cocaine antibodies and potent anti-cocaine vaccines have also been developed. Here we review these developments and consider the potential advantages along with the risks of delivering drug-intercepting proteins via gene transfer approaches to treat cocaine addiction.

Published

2011

37. The concept of pharmacologic cocaine interception as a treatment for drug abuse

Author

Frank M. Orson, Stephen Brimijoin, Yang Gao, Berma M. Kinsey, and Thomas R. Kosten

Subjects

Drug, Hydrolases, Substance-Related Disorders, media_common.quotation_subject, Brain tissue, Pharmacology, Toxicology, Antibodies, Article, Mice, Cocaine, Reward, Hydrolase, medicine, Animals, Humans, Dual therapy, Butyrylcholinesterase, media_common, biology, Chemistry, Hydrolysis, Brain, Biological Transport, General Medicine, Plasma levels, medicine.disease, Rats, Substance abuse, biology.protein, Drug Therapy, Combination, Antibody

Abstract

Cocaine access to brain tissue and associated cocaine-induced behaviors are substantially reduced in rats and mice by significant plasma levels of an enzyme that rapidly metabolizes the drug. Similar results have been obtained in rodents and humans with therapeutic anti-cocaine antibodies, which sequester the drug and prevent its entry into the brain. We show that an efficient cocaine hydrolase can lead to rapid unloading of anti-cocaine antibodies saturated with cocaine, and we provide a theoretical basis for the hypothesis that dual therapy with antibody and hydrolase enzyme may be especially effective.

Published

2010

38. Lasting Reduction of Cocaine Action in Neostriatum— A Hydrolase Gene Therapy Approach

Author

Yang Gao and Stephen Brimijoin

Subjects

Male, Time Factors, Cocaine Esterase, Genetic Vectors, Caudate nucleus, Pilot Projects, Pharmacology, Biology, Neuropharmacology, Cocaine, Hydrolase, medicine, Animals, Humans, Rats, Wistar, Butyrylcholinesterase, Ventral striatum, Genetic Therapy, Hydrolase Gene, Rats, Neostriatum, medicine.anatomical_structure, Molecular Medicine, Brain stimulation reward, FOSB

Abstract

We previously found that a quadruple mutant cocaine hydrolase derived from human butyrylcholinesterase [termed cocaine esterase (CocE)] can suppress or reverse cocaine toxicity and abolish drug-primed reinstatement in rats. Here, we examined whether gene transfer of CocE reduces cocaine actions in brain reward centers. Early experiments used a standard, early region 1-deleted adenoviral vector, which, after intravenous delivery of 1010 plaque-forming units, caused plasma cocaine hydrolase activity to rise 25,000-fold between day 4 and day 7. During this period, under a protocol that typically induces FosB expression in the caudate nucleus, these rats and unprotected controls given only empty vector or saline were subjected to repeated twice-daily injections of cocaine (30 mg/kg i.p.). Immunohistochemistry of the neostriatum on day 7 showed many FosB-reactive nuclei in unprotected rats but few if any in rats pretreated with active vector, which resembled rats never exposed to cocaine. Western blots confirmed this result. In contrast there was a more localized protection against cocaine-elicited FosB induction when hydrolase vector was injected directly into the ventral striatum, which generated high transgene expression in many neurons of the target area. Similar results were obtained with systemic and local injection of a more efficient helper-dependent adenoviral vector, which transduced high levels of hydrolase for at least 2 months, with lesser expression continued up to 1 year. Behavioral tests are now warranted to determine whether such effects can reduce drug-seeking behavior and lower the probability of relapse.

Published

2009

39. Cholinesterase inhibition and acetylcholine accumulation following intracerebral administration of paraoxon in rats

Author

Subramanya Karanth, Anamika Ray, Jing Liu, Stephen Brimijoin, Y. Gao, and Carey Pope

Subjects

Male, Microdialysis, Pharmacology, Toxicology, Article, Paraoxon, Rats, Sprague-Dawley, chemistry.chemical_compound, In vivo, medicine, Animals, Injections, Spinal, Cholinesterase, Dose-Response Relationship, Drug, biology, Acetylcholinesterase, Acetylcholine, Corpus Striatum, Rats, chemistry, Biochemistry, Enzyme inhibitor, biology.protein, Cholinesterase Inhibitors, Ex vivo, medicine.drug

Abstract

We evaluated the inhibition of striatal cholinesterase activity following intracerebral administration of paraoxon assaying activity either in tissue homogenates ex vivo or by substrate hydrolysis in situ. Artificial cerebrospinal fluid (aCSF) or paraoxon in aCSF was infused unilaterally (0.5 microl/min for 2 h) and ipsilateral and contralateral striata were harvested for ChE assay ex vivo. High paraoxon concentrations were needed to inhibit ipsilateral striatal cholinesterase activity (no inhibition at

Published

2009

40. Expression and transport of Angiotensin II AT1 receptors in spinal cord, dorsal root ganglia and sciatic nerve of the rat

Author

Tsuyoshi Nishioku, Hui Tang, Jaroslav Pavel, Armen J. Moughamian, Juan M. Saavedra, Julius Benicky, and Stephen Brimijoin

Subjects

Male, medicine.medical_specialty, Angiotensin receptor, Receptor expression, Gene Expression, Biology, Receptor, Angiotensin, Type 2, Article, Receptor, Angiotensin, Type 1, Rhizotomy, Rats, Sprague-Dawley, Anterior Horn Cell, Anterior Horn Cells, Ganglia, Spinal, Internal medicine, Neural Pathways, medicine, Animals, RNA, Messenger, Receptor, Molecular Biology, In Situ Hybridization, Analysis of Variance, Angiotensin II receptor type 1, General Neuroscience, Spinal cord, Sciatic Nerve, Angiotensin II, Rats, Endocrinology, medicine.anatomical_structure, Spinal Cord, Autoradiography, Neurology (clinical), Sciatic nerve, Developmental Biology

Abstract

To clarify the role of Angiotensin II in the regulation of peripheral sensory and motor systems, we initiated a study of the expression, localization and transport of Angiotensin II receptor types in the rat sciatic nerve pathway, including L(4)-L(5) spinal cord segments, the corresponding dorsal root ganglia (DRGs) and the sciatic nerve. We used quantitative autoradiography for AT(1) and AT(2) receptors, and in situ hybridization to detect AT(1A), AT(1B) and AT(2) mRNAs. We found substantial expression and discrete localization of Angiotensin II AT(1) receptors, with much higher numbers in the grey than in the white matter. A very high AT(1) receptor expression was detected in the superficial dorsal horns and in neuronal clusters of the DRGs. Expression of AT(1A) mRNA was significantly higher than that of AT(1B). AT(1) receptor binding and AT(1A) and AT(1B) mRNAs were especially prominent in ventral horn motor neurons, and in the DRG neuronal cells. Unilateral dorsal rhizotomy significantly reduced AT(1) receptor binding in the ipsilateral side of the superficial dorsal horn, indicating that a substantial number of dorsal horn AT(1) receptors have their origin in the DRGs. After ligation of the sciatic nerve, there was a high accumulation of AT(1) receptors proximal to the ligature, a demonstration of anterograde receptor transport. We found inconsistent levels of AT(2) receptor binding and mRNA. Our results suggest multiple roles of Angiotensin II AT(1) receptors in the regulation of sensory and motor functions.

Published

2008

41. An albumin–butyrylcholinesterase for cocaine toxicity and addiction: Catalytic and pharmacokinetic properties

Author

David LaFleur, Rutul Shah, Yang Gao, Stephen Brimijoin, Mallika Singh, and Qinghai Zhao

Subjects

Male, Drug, media_common.quotation_subject, Pharmacology, Toxicology, Article, Cocaine-Related Disorders, Cocaine, Pharmacokinetics, Albumins, Extracellular fluid, Hydrolase, Animals, Enzyme kinetics, Rats, Wistar, Butyrylcholinesterase, media_common, chemistry.chemical_classification, Chemistry, Albumin, General Medicine, Rats, Enzyme, Biocatalysis, Female

Abstract

Butyrylcholinesterase (BChE, EC 3.1.1.8) is important in human cocaine metabolism despite its limited ability to hydrolyze this drug. Efforts to improve the catalytic efficiency of this enzyme have led to a quadruple mutant cocaine hydrolase, “CocH”, that in animal models of addiction appears promising for treatment of overdose and relapse. We incorporated the CocH mutations into a BChE–albumin fusion protein, “Albu-CocH”, and evaluated the pharmacokinetics of the enzyme after i.v. injection in rats. As assessed from the time course of cocaine hydrolyzing activity in plasma, Albu-CocH redistributed into extracellular fluid (16% of estimated total body water) with a t 1/2 of 0.66 h and it underwent elimination with a t 1/2 of 8 h. These results indicate that the enzyme has ample stability for short-term applications and may be suitable for longer-term treatment as well. Present data also confirm the markedly enhanced power of Albu-CocH for cocaine hydrolysis and they support the view that Albu-CocH might prove valuable in treating phenomena associated with cocaine abuse.

Published

2008

42. A Cocaine Hydrolase Engineered from Human Butyrylcholinesterase Selectively Blocks Cocaine Toxicity and Reinstatement of Drug Seeking in Rats

Author

Yang Gao, Luke A. Gliddon, Qinghai Zhao, David LaFleur, M Singh, Justin J. Anker, Stephen Brimijoin, Marilyn E. Carroll, and Rutul R. Shah

Subjects

Male, Drug, Cocaine Esterase, Hydrolases, media_common.quotation_subject, Self Administration, CHO Cells, Motor Activity, Pharmacology, Protein Engineering, Article, Rats, Sprague-Dawley, Cricetulus, Cocaine, Cricetinae, Hydrolase, Animals, Humans, Medicine, Rats, Wistar, Butyrylcholinesterase, media_common, Dose-Response Relationship, Drug, business.industry, Addiction, Albumin, Rats, Behavior, Addictive, Psychiatry and Mental health, Toxicity, Female, Self-administration, business

Abstract

Successive rational mutations of human butyrylcholinesterase (BChE) followed by fusion to human serum albumin have yielded an efficient hydrolase that offers realistic options for therapy of cocaine overdose and abuse. This albumin-BChE prevented seizures in rats given a normally lethal cocaine injection (100 mg/kg, i.p.), lowered brain cocaine levels even when administered after the drug, and provided rescue after convulsions commenced. Moreover, it selectively blocked cocaine-induced reinstatement of drug seeking in rats that had previously self-administered cocaine. The enzyme treatment was well tolerated and may be worth exploring for clinical application in humans.

Published

2008

43. Viral Gene Transfer of Enzymes

Author

W. Stephen Brimijoin

Subjects

Drug, business.industry, Genetic enhancement, media_common.quotation_subject, Gene transfer, Viral gene, Viral vector, Clinical trial, Medicine, Cholinergic synapse, business, Neuroscience, Cocaine abuse, media_common

Abstract

This chapter will address strategies for treating cocaine abuse with the aid of gene transfer vectors that drive long-sustained in vivo expression of a highly efficient cocaine hydrolase that reduces or prevents cocaine access to reward centers in the brain. A theoretical rationale for this approach will be presented first, followed by a brief survey of viral gene transfer in terms of risks and benefits from specific classes of agents that might be employed. Next will be evidence from rodent studies indicating that gene therapy with cocaine hydrolase is capable of suppressing drug reward to a point where mice and rats abandon opportunities to press levers for i.v. cocaine infusions. After that will come observations indicating that these desired effects can be achieved without discernible toxicity. Finally some practical issues are addressed in regard to ongoing interactions with the US FDA and the process of demonstrating levels of safety and efficacy that meet that agency’s standards to approve an initial clinical trial based on the concept of drug interception.

Published

2015

44. Monoclonal antibodies to human butyrylcholinesterase reactive with butyrylcholinesterase in animal plasma

Author

Patrick Masson, Oksana Lockridge, Rudolph C. Johnson, Eric Krejci, Stephen Brimijoin, Hong Peng, Thomas A. Blake, Anna Hrabovska, University of Nebraska Medical Center, University of Nebraska System, Mayo Clinic [Rochester], Comenius University in Bratislava, Cognition and Action Group (COGNAC-G - UMR 8257), École normale supérieure - Cachan (ENS Cachan)-Université Paris Descartes - Paris 5 (UPD5)-Centre National de la Recherche Scientifique (CNRS), Centers for Disease Control and Prevention [Atlanta] (CDC), and Centers for Disease Control and Prevention

Subjects

0301 basic medicine, Monoclonal antibody, Swine, medicine.drug_class, [SDV]Life Sciences [q-bio], Guinea Pigs, Toxicology, Article, Epitope, Butyrylthiocholine, 03 medical and health sciences, Carboxylesterase, Species Specificity, medicine, Animals, Humans, Horses, Butyrylcholinesterase, Magnetic beads, Pansorbin, biology, Antibodies, Monoclonal, General Medicine, Nondenaturing gel, Macaca mulatta, Molecular biology, Rats, 3. Good health, 030104 developmental biology, Biochemistry, Monoclonal, Cats, biology.protein, Cattle, Rabbits, Protein G, Antibody

Abstract

International audience; Five mouse anti-human butyrylcholinesterase (BChE) monoclonal antibodies bind tightly to native human BChE with nanomolar dissociation constants. Pairing analysis in the Octet system identified the monoclonal antibodies that bind to overlapping and independent epitopes on human BChE. The nucleotide and amino acid sequences of 4 monoclonal antibodies are deposited in GenBank. Our goal was to determine which of the 5 monoclonal antibodies recognize BChE in the plasma of animals. Binding of monoclonal antibodies 11D8, B2 18e5, B2 12e1, mAb2 and 3E8 to BChE in animal plasma was measured using antibody immobilized on Pansorbin cells and on Dynabeads Protein G. A third method visualized binding by the shift of BChE activity bands on nondenaturing gels stained for BChE activity. Gels were counterstained for carboxylesterase activity. The three methods agreed that B2 18e5 and mAb2 have broad species specificity, but the other monoclonal antibodies interacted only with human BChE, the exception being 3E8, which also bound chicken BChE. B2 18e5 and mAb2 recognized BChE in human, rhesus monkey, horse, cat, and tiger plasma. A weak response was found with rabbit BChE. Monoclonal mAb2, but not B2 18e5, bound pig and bovine BChE. Gels stained for carboxylesterase activity confirmed that plasma from humans, monkey, pig, chicken, and cow does not contain carboxylesterase, but plasma from horse, cat, tiger, rabbit, guinea pig, mouse, and rat has carboxylesterase. Rabbit plasma carboxylesterase hydrolyzes butyrylthiocholine. In conclusion monoclonal antibodies B2 18e5 and mAb2 can be used to immuno extract BChE from the plasma of humans, monkey and other animals.

Published

2015

45. Comparison of 5 monoclonal antibodies for immunopurification of human butyrylcholinesterase on Dynabeads: KD values, binding pairs, and amino acid sequences

Author

Anna Hrabovska, Eric Krejci, Oksana Lockridge, Katarina Targosova, Stephen Brimijoin, Patrick Masson, Thomas A. Blake, Rudolph C. Johnson, Hong Peng, University of Nebraska [Omaha], University of Nebraska System, Mayo Clinic [Rochester], Comenius University in Bratislava, Centre d'étude de la SensoriMotricité (CESEM - UMR 8194), Université Paris Descartes - Paris 5 (UPD5)-Université Paris Diderot - Paris 7 (UPD7)-Centre National de la Recherche Scientifique (CNRS), Centers for Disease Control and Prevention [Atlanta] (CDC), and Centers for Disease Control and Prevention

Subjects

Monoclonal antibody, medicine.drug_class, [SDV]Life Sciences [q-bio], Blotting, Western, Enzyme-Linked Immunosorbent Assay, Toxicology, Epitope, Article, Biacore, Dynabeads, Mice, medicine, Animals, Humans, Amino Acid Sequence, Peptide sequence, biology, Chemistry, Antibodies, Monoclonal, General Medicine, Molecular biology, Octet, Epitope mapping, Butyrylcholinesterase, Monoclonal, biology.protein, Immunologic Techniques, ELISA, Protein G, Binding Sites, Antibody, Antibody, Carrier Proteins, Antibodies, Immobilized

Abstract

International audience; Human butyrylcholinesterase (HuBChE) is a stoichiometric bioscavenger of nerve agents and organophosphorus pesticides. Mass spectrometry methods detect stable nerve agent adducts on the active site serine of HuBChE. The first step in sample preparation is immunopurification of HuBChE from plasma. Our goal was to identify monoclonal antibodies that could be used to immunopurify HuBChE on Dynabeads Protein G. Mouse anti-HuBChE monoclonal antibodies were obtained in the form of ascites fluid, dead hybridoma cells stored frozen at À80 C for 30 years, or recently frozen hybridoma cells. RNA from 4 hybridoma cell lines was amplified by PCR for determination of their nucleotide and amino acid sequences. Full-length light and heavy chains were expressed, and the antibodies purified from culture medium. A fifth monoclonal was purchased. The 5 monoclonal antibodies were compared for ability to capture HuBChE from human plasma on Dynabeads Protein G. In addition, they were evaluated for binding affinity by Biacore and ELISA. Epitope mapping by pairing analysis was performed on the Octet Red96 instrument. The 5 monoclonal antibodies, B2 12-1, B2 18-5, 3E8, mAb2, and 11D8, had similar K D values of 10 À9 M for HuBChE. Monoclonal B2 18-5 outperformed the others in the Dynabeads Protein G assay where it captured 97% of the HuBChE in 0.5 ml plasma. Pairing analysis showed that 3E8 and B2 12-1 share the same epitope, 11D8 and B2 18-5 share the same epitope, but mAb2 and B2 12-1 or mAb2 and 3E8 bind to different epitopes on HuBChE. B2 18-5 was selected for establishment of a stable CHO cell line for production of mouse anti-HuBChE monoclonal.

Published

2015

46. Radiometric assay of ghrelin hydrolase activity and 3H-ghrelin distribution into mouse tissues

Author

Yang Gao, Stephen Brimijoin, Liyi Geng, and Vicky Ping Chen

Subjects

Male, Hydrolases, Peptide, Tritium, Biochemistry, Article, Enzyme activator, Mice, Pharmacokinetics, In vivo, Enzymatic hydrolysis, Animals, Humans, Tissue Distribution, Enzyme kinetics, Radiometry, Butyrylcholinesterase, Pharmacology, chemistry.chemical_classification, Chemistry, digestive, oral, and skin physiology, Ghrelin, Enzyme Activation, Mice, Inbred C57BL, hormones, hormone substitutes, and hormone antagonists

Abstract

A high-throughput radiometric assay was developed to characterize enzymatic hydrolysis of ghrelin and to track the peptide's fate in vivo. The assay is based on solvent partitioning of [(3)H]-octanoic acid liberated from [(3)H]-octanoyl ghrelin during enzymatic hydrolysis. This simple and cost-effective method facilitates kinetic analysis of ghrelin hydrolase activity of native and mutated butyrylcholinesterases or carboxylesterases from multiple species. In addition, the assay's high sensitivity facilitates ready evaluation of ghrelin's pharmacokinetics and tissue distribution in mice after i.v. bolus administration of radiolabeled peptide.

Published

2015

47. Reward and Toxicity of Cocaine Metabolites Generated by Cocaine Hydrolase

Author

Yang Gao, Jordan D. Miller, Bin Zhang, Vishakantha Murthy, Liyi Geng, Stephen Brimijoin, and Santiago Reyes

Subjects

Male, Hydrolases, Transgene, media_common.quotation_subject, Mice, Transgenic, Pharmacology, Article, Cellular and Molecular Neuroscience, Cocaine-Related Disorders, Mice, Cocaine, Reward, Hydrolase, Conditioning, Psychological, Animals, Humans, Butyrylcholinesterase, media_common, Mice, Inbred BALB C, Chemistry, Addiction, Cell Biology, General Medicine, Genetic Therapy, Benzoic Acid, Blood proteins, Conditioned place preference, HEK293 Cells, Toxicity, Drug metabolism

Abstract

Butyrylcholinesterase (BChE) gene therapy is emerging as a promising concept for treatment of cocaine addiction. BChE levels after gene transfer can rise 1000-fold above those in untreated mice, making this enzyme the second most abundant plasma protein. For months or years, gene transfer of a BChE mutated into a cocaine hydrolase (CocH) can maintain enzyme levels that destroy cocaine within seconds after appearance in the blood stream, allowing little to reach the brain. Rapid enzyme action causes a sharp rise in plasma levels of two cocaine metabolites, benzoic acid (BA) and ecgonine methyl ester (EME), a smooth muscle relaxant that is mildly hypotensive and, at best, only weakly rewarding. The present study, utilizing Balb/c mice, tested reward effects and cardiovascular effects of administering EME and BA together at molar levels equivalent to those generated by a given dose of cocaine. Reward was evaluated by conditioned place preference. In this paradigm, cocaine (20 mg/kg) induced a robust positive response but the equivalent combined dose of EME + BA failed to induce either place preference or aversion. Likewise, mice that had undergone gene transfer with mouse CocH (mCocH) showed no place preference or aversion after repeated treatments with a near-lethal 80 mg/kg cocaine dose. Furthermore, a single administration of that same high cocaine dose failed to affect blood pressure as measured using the noninvasive tail-cuff method. These observations confirm that the drug metabolites generated after CocH gene transfer therapy are safe even after a dose of cocaine that would ordinarily be lethal.

Published

2015

48. Pure human butyrylcholinesterase hydrolyzes octanoyl ghrelin to desacyl ghrelin

Author

Lawrence M. Schopfer, Stephen Brimijoin, and Oksana Lockridge

Subjects

medicine.medical_specialty, Biology, law.invention, Serine, Hydrolysis, Endocrinology, law, Tandem Mass Spectrometry, Internal medicine, Hydrolase, medicine, Humans, Enzyme kinetics, Polyacrylamide gel electrophoresis, Butyrylcholinesterase, digestive, oral, and skin physiology, Ghrelin, Kinetics, Biochemistry, Recombinant DNA, Animal Science and Zoology, hormones, hormone substitutes, and hormone antagonists, Chromatography, Liquid

Abstract

The ghrelin hormone is a 28 amino acid peptide esterified on serine 3 with octanoic acid. Ghrelin is inactivated by hydrolysis of the ester bond. Previous studies have relied on inhibitors to identify human butyrylcholinesterase (BChE) as the hydrolase in human plasma that converts ghrelin to desacyl ghrelin. The reaction of BChE with ghrelin is unusual because the rate of hydrolysis is very slow and the substrate is ten times larger than standard BChE substrates. These unusual features prompted us to re-examine the reaction, using human BChE preparations that were more than 98% pure. Conversion of ghrelin to desacyl ghrelin was monitored by MALDI TOF mass spectrometry. It was found that 5 different preparations of pure human BChE all hydrolyzed ghrelin, including BChE purified from human plasma, from Cohn fraction IV-4, BChE immunopurified by binding to monoclonals mAb2 and B2 18-5, and recombinant human BChE purified from culture medium. We reasoned that it was unlikely that a common contaminant that could be responsible for ghrelin hydrolysis would appear in all of these preparations. km was

Published

2015

49. Visualizing viral transduction of a cocaine-hydrolyzing, human butyrylcholinesterase in rats

Author

Yang Gao and Stephen Brimijoin

Subjects

Male, Cocaine Esterase, Transgene, Genetic Vectors, Biology, Toxicology, Adenoviridae, Viral vector, Rats, Sprague-Dawley, Transduction (genetics), Immune system, Cocaine, Transduction, Genetic, Animals, Humans, Butyrylcholinesterase, Plaque-forming unit, Hydrolysis, General Medicine, Mononuclear phagocyte system, Immunohistochemistry, Molecular biology, Recombinant Proteins, Rats, Hepatocytes, Carboxylic Ester Hydrolases

Abstract

Human plasma butyrylcholinesterase (BChE) is essential for cocaine detoxification even though its catalytic efficiency for that substrate is relatively poor. Site-directed mutagenesis of this protein has recently been used to obtain much-improved cocaine esterases, one of which we designate CocE. We previously showed that adenoviral transduction of such esterases caused up to 50,000-fold increases in circulating cocaine hydrolase activity, led to drastically shortened cocaine half-life, and blunted the cardiovascular responses to cocaine in rats. In those experiments, gene transduction of cocaine esterase was sustained at high levels for up to 1 week but then declined steeply. Our eventual goal is to use long-term esterase expression as a means of reducing drug reward and extinguishing intake in models of cocaine-addiction. Therefore, we investigated the site of enzyme transduction for clues to the local reactions that may limit the duration of CocE expression. Histological and immunohistochemical observations demonstrated that hepatocytes were the primary focus for transduction of modified human BChE. Rats were administered 2.2 × 1010 plaque forming units of a replication-incompetent, type-5 adenoviral vector incorporating CocE cDNA. Within days the livers showed intense thiocholine staining for BChE activity. Selective immunohistochemistry for human BChE proved that this activity represented CocE transgene. By 5 days, however, pockets of mononuclear cells had invaded the hepatic parenchyma, and a meshwork of IgM-like immunoreactivity had lined the hepatic sinusoids. These phenomena probably represent early responses of the immune system, either to the transduced CocE or to the hepatocytes producing this protein.

Published

2005

50. Can cholinesterase inhibitors affect neural development?

Author

Stephen Brimijoin

Subjects

Pharmacology, chemistry.chemical_classification, DNA synthesis, biology, Neurite, Aché, Health, Toxicology and Mutagenesis, General Medicine, Anatomy, Toxicology, Acetylcholinesterase, language.human_language, chemistry.chemical_compound, Enzyme, chemistry, biology.protein, language, Neuroscience, Neural development, Butyrylcholinesterase, Cholinesterase

Abstract

Accumulating evidence supports the view that acetylcholinesterase (AChE) and butyrylcholinesterase (BChE) can influence the proliferation and differentiation of nerve cells. AChE in particular has been found to promote neurite outgrowth in a variety of model systems, possibly by serving as an adhesion molecule. Thus one might suspect that cholinesterase inhibitors would disturb neuronal development, with long-term implications for structure and function in the central and peripheral nervous systems. The actual picture is more complex because AChE's effects on neurite outgrowth may reflect protein-protein interactions that are not directly related to catalytic function but are nonetheless influenced by ligands with special structural features. The putative structural interactions have not yet been rigorously defined, but they are likely to involve enzyme regions at or near the peripheral anionic site. In addition to such effects, some organophosphorus anticholinesterases have been reported to act by still other mechanisms to depress macromolecule synthesis and cell survival in the developing brain. Taken together, this emerging information highlights the potential importance of anticholinesterase agents in developmental neurotoxicology.

Published

2005