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3. Brain Iron Accumulation and the Formation of Calcifications After Developmental Zika Virus Infection

Author

Abigail Snyder-Keller, Steven D. Zink, Valerie J. Bolivar, and Laura D. Kramer

Subjects
Male, Pathology, medicine.medical_specialty, Mice, 129 Strain, Iron, Iron deposition, Thalamus, Neuropathology, Biology, Pathology and Forensic Medicine, Zika virus, Mice, 03 medical and health sciences, Cellular and Molecular Neuroscience, 0302 clinical medicine, Inbred strain, medicine, Animals, 030304 developmental biology, 0303 health sciences, Zika Virus Infection, Brain, Calcinosis, Zika Virus, General Medicine, biology.organism_classification, medicine.disease, Staining, Mice, Inbred C57BL, Neurology, In utero, Female, Neurology (clinical), 030217 neurology & neurosurgery, Calcification
Abstract

Intracranial calcifications (ICC) are the most common neuropathological finding in the brains of children exposed in utero to the Zika virus (ZIKV). Using a mouse model of developmental ZIKV infection, we reported widespread calcifications in the brains of susceptible mice that correlated in multiple ways with the behavioral deficits observed. Here, we examined the time course of ICC development and the role of iron deposition in this process, in 3 genetically distinct inbred strains of mice. Brain iron deposits were evident by Perls’ staining at 2 weeks post infection, becoming increasingly dense and coinciding with calcium buildup and the formation of ICCs. A regional analysis of the brains of susceptible mice (C57BL/6J and 129S1/SvImJ strains) revealed the presence of iron initially in regions containing many ZIKV-immunoreactive cells, but then spreading to regions containing few infected cells, most notably the thalamus and the fasciculus retroflexus. Microglial activation was widespread initially and later delineated the sites of ICC formation. Behavioral tests conducted at 5–6 weeks of age revealed greater deficits in mice with the most extensive iron deposition and calcification of subcortical regions, such as thalamus. These findings point to iron deposition as a key factor in the development of ICCs after developmental ZIKV infection.

Published
2020
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4. Nicotinamide improves motor deficits and upregulates PGC-1α and BDNF gene expression in a mouse model of Huntington's disease

Author

Tyisha Hathorn, Abigail Snyder-Keller, and Anne Messer

Subjects
Huntington's disease, Nicotinamide, Vitamin, Brain-derived neurotrophic factor, Peroxisome proliferator-activated receptor gamma coactivator 1-alpha, Histone deacetylase inhibitor, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571
Abstract

Huntington's disease (HD) is a fatal autosomal dominant neurodegenerative disorder caused by an expansion of the polyglutamine (polyQ) repeat in exon-1 in the Huntingtin gene (HTT). This results in misfolding and accumulation of the huntingtin (htt) protein, forming nuclear and cytoplasmic inclusions. HD is associated with dysregulation of gene expression as well as mitochondrial dysfunction. We hypothesized that by improving transcriptional regulation of genes necessary for energy metabolism, the HD motor phenotype would also improve. We therefore examined the protective effects of nicotinamide (NAM), a well-characterized water-soluble B vitamin that is an inhibitor of sirtuin1/class III NAD+-dependent histone deacetylase (HDAC). In this study, both mini-osmotic pumps and drinking water deliveries were tested at 250 mg NAM/kg/day, using the B6.HDR6/1 transgenic mouse model. Results were similar for both modes of delivery, and there was no evidence of toxicity. We found that NAM treatment increased mRNA levels of brain-derived neurotrophic factor (BDNF), and Peroxisome proliferator-activated receptor gamma coactivator 1-alpha (PGC-1α), the master regulator of mitochondrial biogenesis. Protein levels of BDNF were also significantly increased. In addition, NAM treatment increased PGC-1α activation in HD mice, pointing to a possible mode of action as a therapeutic. Critically, NAM treatment was able to improve motor deficits associated with the HD phenotype, tested as time courses of open field, rotarod, and balance beam activities. These improvements were substantial, despite the fact that NAM did not appear to reduce htt aggregation, or to prevent late-stage weight loss. Our study therefore concludes that NAM or similar drugs may be beneficial in clinical treatment of the motor dysfunctions of HD, while additional therapeutic approaches must be added to combat the aggregation phenotype and overall physiological decline.

Published
2011
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5. Mouse Strain and Sex-Dependent Differences in Long-term Behavioral Abnormalities and Neuropathologies after Developmental Zika Infection

Author

Laura D. Kramer, Valerie J. Bolivar, Abigail Snyder-Keller, and Steven D. Zink

Subjects
Male, 0301 basic medicine, Microcephaly, Physiology, Neuropathology, Biology, Virus, Zika virus, 03 medical and health sciences, 0302 clinical medicine, Species Specificity, medicine, Polymicrogyria, Animals, Research Articles, Neurons, Sex Characteristics, Fetus, Behavior, Animal, Mouse strain, Zika Virus Infection, General Neuroscience, Brain, biology.organism_classification, medicine.disease, Mice, Inbred C57BL, Disease Models, Animal, 030104 developmental biology, Animals, Newborn, Mice, Inbred DBA, Time course, Female, Microglia, Neuroglia, 030217 neurology & neurosurgery
Abstract

Exposure of the developing fetus to Zika virus (ZIKV) results in a set of brain abnormalities described as the congenital Zika syndrome. Although microcephaly is the most obvious outcome, neuropathologies, such as intracranial calcifications and polymicrogyria, can occur in the absence of microcephaly. Moreover, the full impact of exposure on motor, social, and cognitive skills during development remains uncharacterized. We examined the long-term neurobehavioral consequences of neonatal ZIKV exposure in four genetically divergent inbred mouse strains (C57BL/6J, 129S1/SvImJ, FVB/NJ, and DBA/2J). Male and female mice were infected on postnatal day 1, considered comparable with exposure late in the second trimester of humans. We demonstrate strain differences in early susceptibility to the virus and the time course of glial reaction in the brain. These changes were associated with strain- and sex-dependent differences in long-term behavioral abnormalities that include hyperactivity, impulsiveness, and motor incoordination. In addition, the adult brains of susceptible mice exhibited widespread calcifications that may underlie the behavioral deficits observed. Characterization of the neuropathological sequelae of developmental exposure to the Zika virus in different immunocompetent mouse strains provides a foundation for identifying genetic and immune factors that contribute to long-term neurobehavioral consequences in susceptible individuals. SIGNIFICANCE STATEMENT Developmental Zika virus (ZIKV) infection is now known to cause brain abnormalities in infants that do not display microcephaly at birth, and the full impact of these more subtle neuropathologies has yet to be determined. We demonstrate in a mouse model that long-lasting behavioral aberrations occur after developmental ZIKV exposure. We compare four divergent mouse strains and find that the effects of Zika infection differ greatly between strains, in terms of behavioral changes, sex differences, and the intracranial calcifications that develop in the brains of susceptible mice. These findings provide a foundation for identifying susceptibility factors that lead to the development of abnormal behaviors secondary to ZIKV infection early in life.

Published
2019
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23. Fatal Cache Valley virus meningoencephalitis associated with rituximab maintenance therapy

Author

Amy B. Dean, Laura D. Kramer, Jingxin Qiu, Abigail Snyder-Keller, Francisco J. Hernandez-Ilizaliturri, Yongping Wu, Yuanquan Yang, Shufeng Sun, and Haixin Sui

Subjects
Male, Pediatrics, medicine.medical_specialty, Fatal outcome, Cache-Valley virus, Bunyaviridae Infections, Article, Maintenance Chemotherapy, Diagnosis, Differential, 03 medical and health sciences, 0302 clinical medicine, Atrophy, Autoimmune Diseases of the Nervous System, Fatal Outcome, Maintenance therapy, Meningoencephalitis, Antineoplastic Combined Chemotherapy Protocols, medicine, Bendamustine Hydrochloride, Humans, Bunyamwera virus, Gliosis, B-Lymphocytes, medicine.diagnostic_test, business.industry, Brain, Magnetic resonance imaging, Hematology, Middle Aged, medicine.disease, Leukemia, Lymphocytic, Chronic, B-Cell, Magnetic Resonance Imaging, Leukemia, Rituximab, business, 030217 neurology & neurosurgery, 030215 immunology, medicine.drug, Paraneoplastic Syndromes, Nervous System
Published
2017

26. Early or Late-Stage Anti-N-Terminal Huntingtin Intrabody Gene Therapy Reduces Pathological Features in B6.HDR6/1 Mice

Author

Tyisha Hathorn, Anne Messer, Julie McLear, and Abigail Snyder-Keller

Subjects
Indoles, Time Factors, Huntingtin, Genetic enhancement, Genetic Vectors, Mice, Transgenic, Nerve Tissue Proteins, Antibodies, Article, Intrabody, Inclusion bodies, Pathology and Forensic Medicine, Viral vector, Pathogenesis, Mice, Cellular and Molecular Neuroscience, Degenerative disease, medicine, Animals, Huntingtin Protein, biology, Age Factors, Nuclear Proteins, Genetic Therapy, General Medicine, medicine.disease, Phenotype, Cell biology, Mice, Inbred C57BL, Disease Models, Animal, Huntington Disease, Neurology, Mutation, Immunology, biology.protein, Neurology (clinical), Peptides
Abstract

Huntington disease (HD) is a progressive neurodegenerative disease caused by an expansion of a polyglutamine sequence in mutant huntingtin (mhtt) that produces abnormal folding and aggregation that results in the formation of nuclear and cytoplasmic neuronal inclusion bodies. Although the precise role of mhtt aggregates in the pathogenesis is unclear, attempts to reduce accumulated mhtt protein have ameliorated the phenotype in multiple cellular and in vivo HD models. Here, we provide critical results on intracranial delivery of a single-chain Fv intrabody, C4, which targets the first 17 amino acids of the htt protein, a region of httExon1 that is increasingly being recognized as pivotal. To assess long-term efficacy and safety issues, we used adeno-associated viral vectors (AAV2/1) to deliver intrabody genes to striatum of inbred B6.HDR6/1 mice. Treatment initiation at various stages of the disease showed that early treatment preserved the largest number of cells without nuclear aggregates and that the accumulation of aggregated material could be delayed by several months. Even when intrabody treatment was not initiated until the clinical disease stage, significant, albeit smaller, effects were seen. These data indicate that neuronal intrabodies against critical N-terminal epitopes can be safely and effectively delivered using AAV2/1 to delay the aggregation phenotype over a sustained period of time in this HD model, even when delivery is initiated after disease onset.

Published
2010
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28. Afferent influences on striatal development in organotypic cocultures

Author

Gregory D. Lyng, David J. Graber, Patricio O'Donnell, Kuei Y. Tseng, and Abigail Snyder-Keller

Subjects
Dopamine and cAMP-Regulated Phosphoprotein 32, Neuropil, Dopamine, Presynaptic Terminals, Action Potentials, Substantia nigra, Cell Communication, Striatum, Biology, Medium spiny neuron, Synaptic Transmission, Rats, Sprague-Dawley, Midbrain, Cellular and Molecular Neuroscience, Organ Culture Techniques, Cortex (anatomy), medicine, Animals, Cerebral Cortex, Neurons, Afferent Pathways, Cell Differentiation, Immunohistochemistry, Coculture Techniques, Corpus Striatum, Rats, Substantia Nigra, medicine.anatomical_structure, nervous system, Cerebral cortex, Neuroscience, medicine.drug
Abstract

Organotypic cocultures of striatum, cortex, and ventral mesencephalon were used to study the anatomical and physiological development of striatal neurons in the presence or absence of cortical and nigral (SN/VTA) inputs. Striatum and cortex were dissected from prenatal (E18-E22) or early postnatal (P0-P2) rats, and SN/VTA was dissected from E14-15 fetuses; pieces were maintained up to 3 weeks in static slice culture. Triple cocultures containing SN/VTA exhibited rapid and robust dopamine (DA) innervation of the striatum in a patchy pattern, and homogeneous distribution within the cortical piece, regardless of the orientations of the three pieces. DA fibers within the striatal piece overlapped striatal patch neurons, marked by DARPP-32 immunoreactivity, in striatal cultures prepared from all age rats, but development most analogous to that seen in vivo was observed with the use of late prenatal (E20-E22) striatum. The patch/matrix organization was maintained in cultures prepared from late prenatal striatum in the presence of cortical and nigrostriatal DA afferents. In addition, a more complete transition to a patchy organization was observed in E18/19 striatal cultures in the presence of cortical and DA innervation. Electrophysiological recording demonstrated the presence of both spontaneous and cortically evoked activity in striatal medium spiny neurons; this activity was greatly influenced by the presence of DA innervation. These findings demonstrate the importance of afferent innervation in the maturation of striatal neurons in organotypic cultures.

Published
2008
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29. Polychlorinated Biphenyl-Induced Neurotoxicity in Organotypic Cocultures of Developing Rat Ventral Mesencephalon and Striatum

Author

Gregory D. Lyng, Richard F. Seegal, and Abigail Snyder-Keller

Subjects
medicine.medical_specialty, Time Factors, 3,4-Dihydroxyphenylacetic acid, Tyrosine 3-Monooxygenase, Dopamine, Substantia nigra, Striatum, Biology, Toxicology, Basal Ganglia, Rats, Sprague-Dawley, chemistry.chemical_compound, Organ Culture Techniques, Mesencephalon, Internal medicine, Basal ganglia, medicine, Animals, gamma-Aminobutyric Acid, Neurons, Dopamine Plasma Membrane Transport Proteins, Cell Death, Dose-Response Relationship, Drug, Tyrosine hydroxylase, Glutamate Decarboxylase, Neurotoxicity, Homovanillic Acid, medicine.disease, Polychlorinated Biphenyls, Coculture Techniques, Rats, Isoenzymes, Endocrinology, Biochemistry, chemistry, 3,4-Dihydroxyphenylacetic Acid, Environmental Pollutants, Neuron death, medicine.drug
Abstract

Polychlorinated biphenyls (PCBs) are persistent environmental contaminants that are highly toxic to the developing nervous system, particularly via their disruption of dopamine (DA) function. In order to characterize the effects of PCBs on the developing basal ganglia DA system, we utilized an organotypic coculture system of developing rat striatum and ventral mesencephalon (VM). Exposure of the cocultures to an environmentally relevant mixture of PCBs for 1, 3, 7, or 14 days reduced tissue DA concentrations and increased medium levels of DA, homovanillic acid, and 3,4-dihydroxyphenylacetic acid. PCB exposure also increased neuronal cell death in both the VM and the striatum and reduced the number of DA neurons in the VM. Decreases in both tyrosine hydroxylase and DA transporter protein expression were shown by Western blot analysis in PCB-exposed cocultures. There was also an increase in neuronal cell death, identified by Fluoro Jade B, prior to a reduction in the number of VM DA neurons; we hypothesize this increase to be partly due to a loss of gamma-aminobutyric acid (GABA) neurons. Indeed, Western blot analysis revealed up to a 50% reduction in both VM and striatal glutamic acid decarboxylase 65/67. Analysis of tissue PCB levels revealed that concentrations were at or below 10 ppm following all exposure paradigms. This coculture system provides an excellent model to examine the chronology of PCB-induced neurotoxic events in the developing basal ganglia. Our results suggest that PCB-induced neurotoxicity in the developing basal ganglia involves GABAergic neuronal dysfunction, in addition to PCBs' better-recognized effects on DA function. These findings have important implications for disease states such as Parkinson's disease and for developmental deficits associated with exposure to PCBs and toxicologically similar environmental contaminants.

Published
2007
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30. Prenatal Cocaine Exposure

Author

Abigail Snyder-Keller and Richard W. Keller

Subjects
Male, Serotonin, Dopamine, Birth weight, media_common.quotation_subject, Population, Physiology, Self Administration, Irritability, Nucleus Accumbens, General Biochemistry, Genetics and Molecular Biology, Fetus, Neurochemical, Cocaine, History and Philosophy of Science, Pregnancy, Seizures, medicine, Animals, Humans, education, media_common, education.field_of_study, General Neuroscience, Addiction, Prenatal cocaine exposure, medicine.disease, Corpus Striatum, Rats, Schizophrenia, Anesthesia, Female, medicine.symptom, Psychology, Self-administration
Abstract

Cocaine abuse is a significant problem not only in the general population but also among pregnant women. Since cocaine readily crosses the placenta and is metabolized slowly in fetuses, they can be exposed to significant levels of cocaine for long periods. In humans the most common consequences of cocaine abuse during pregnancy include premature birth, lower birth weight, respiratory distress, bowel infarctions, cerebral infarctions, reduced head circumference, and increased risk of seizures. Behaviorally these newborns show an increased degree of "tremulousness," crying and irritability, and are over-reactive to environmental stimuli. Within a month these behaviors have recovered dramatically, but not to normal levels. Thus while there are a number of abnormalities associated with cocaine-exposed neonates, they are not imminently debilitating or life-threatening. However, the long-term consequences of this prenatal cocaine exposure remain to be elucidated. We have examined a rat model for neurochemical, neuroanatomical and behavioral changes resulting from prenatal cocaine exposure. Since cocaine is known to act by blocking the inactivation of the neurotransmitters dopamine, serotonin and norepinephrine, our studies have focused on brain dopamine (DA) and serotonin (5-HT) pathways. In this model system we have found neurochemical changes that are present at birth and that return to normal as the rat ages--similar to the recovery observed in infants. However, there are other neurochemical, anatomical and behavioral changes that persist after birth which may provide insights into the long-term consequences. It is hoped that by understanding the changes occurring in this rat model we will be better prepared to devise pharmacological interventions to circumvent the secondary consequences of prenatal cocaine exposure. These consequences might include increased susceptibility to drug addiction, seizures, depression, schizophrenia, Parkinson's disease, etc.

Published
2006
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31. Differential nuclear localization of complexes may underlie in vivo intrabody efficacy in Huntington's disease

Author

D C, Butler, A, Snyder-Keller, E, De Genst, and A, Messer

Subjects
Cell Nucleus, Male, Cytoplasm, Protein Folding, Recombinant Fusion Proteins, Short Communication, Molecular Sequence Data, Huntington's disease, Transfection, Corpus Striatum, Cell Line, Rats, single-chain Fv (scFv), Mice, intrabody, nuclear, Huntington Disease, Animals, Female, Creativity Engenders Next-Generation Antibody Engineering, Amino Acid Sequence, Peptides, polyglutamine, Protein Binding, Single-Chain Antibodies
Abstract

Intrabodies offer attractive options for manipulating the protein misfolding that triggers neurodegenerative diseases. In Huntington's disease, where the expanded polyglutamine tract in the extreme N-terminal region of huntingtin exon1 misfolds, two lead intrabodies have been selected against an adjacent peptide, using slightly different approaches. Both are effective at preventing aggregation of a reporter fragment in transient co-transfection assays. However, after intracranial delivery to mutant mouse brains, VL12.3, which is mainly localized to the nucleus, appears to accelerate the mutant phenotype, while C4 scFv, which is largely cytoplasmic, shows partial phenotypic correction. This comparison highlights parameters that could inform intrabody therapeutics for multiple proteostatic diseases.

Published
2014

32. Differential nuclear localization of complexes may underlie in vivo intrabody efficacy in Huntington's disease

Author

Butler, DC, Snyder-Keller, A, De Genst, E, Messer, A, and Apollo - University of Cambridge Repository

Subjects
Cell Nucleus, Male, Cytoplasm, Protein Folding, Recombinant Fusion Proteins, Molecular Sequence Data, Huntington's disease, Transfection, Corpus Striatum, Cell Line, Rats, single-chain Fv (scFv), intrabody, nuclear, Mice, Huntington Disease, Animals, Female, Amino Acid Sequence, Peptides, polyglutamine, Protein Binding, Single-Chain Antibodies
Abstract

Intrabodies offer attractive options for manipulating the protein misfolding that triggers neurodegenerative diseases. In Huntington's disease, where the expanded polyglutamine tract in the extreme N-terminal region of huntingtin exon1 misfolds, two lead intrabodies have been selected against an adjacent peptide, using slightly different approaches. Both are effective at preventing aggregation of a reporter fragment in transient co-transfection assays. However, after intracranial delivery to mutant mouse brains, VL12.3, which is mainly localized to the nucleus, appears to accelerate the mutant phenotype, while C4 scFv, which is largely cytoplasmic, shows partial phenotypic correction. This comparison highlights parameters that could inform intrabody therapeutics for multiple proteostatic diseases.

Published
2014

33. Compartmental expression of trkB receptor protein in the developing striatum

Author

Abigail Snyder-Keller, M.J. Radeke, S.C. Feinstein, and L.C. Costantini

Subjects
Aging, Dopamine, Receptors, Nerve Growth Factor, Tropomyosin receptor kinase B, Striatum, Choline O-Acetyltransferase, Rats, Sprague-Dawley, Fetus, Basal ganglia, medicine, Animals, Receptor, Receptor, Ciliary Neurotrophic Factor, biology, General Neuroscience, Glutamate receptor, Receptor Protein-Tyrosine Kinases, Immunohistochemistry, Choline acetyltransferase, Corpus Striatum, Rats, Substantia Nigra, Animals, Newborn, Receptors, Glutamate, nervous system, biology.protein, Neuroscience, Neurotrophin, medicine.drug
Abstract

To investigate the role of neurotrophins in the initial formation of striatal patch versus matrix, the spatial and temporal expression of trkB receptors was examined using immunohistochemistry. Polyclonal antibodies, against the C-terminus or the tyrosine kinase domain, revealed trkB-immunoreactive cells and fibers localized to patches beginning on embryonic day 19 in the rat, which co-localized with patchy dopamine fibers, substance P-immunoreactive neurons and glutamate receptors. Patchy striatal trkB expression was maintained after lesioning the nigrostriatal dopamine system. The patchy trkB distribution persisted through postnatal day 14, then became more homogeneous at the same time that nigrostriatal afferents become homogeneous. Later in development, trkB immunoreactivity was most intense in a subpopulation of large striatal cells that were similar in size and frequency to those immunoreactive for choline acetyltransferase. The spatiotemporal expression of trkB receptor in phenotypically distinct striatal patches, as well as evidence that neurotrophins regulate expression of neuronal phenotypic markers during development, may indicate a convergence of neurotrophins and afferent innervation on to future patch cells that may regulate the establishment of striatal compartmentalization.

Published
1999
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34. Prenatal Cocaine Exposure Increases Susceptibility to Drug-Induced Seizures: c-fos Induction and Brain Cocaine Levelsa

Author

Richard W. Keller and Abigail Snyder-Keller

Subjects
Regulation of gene expression, Drug, medicine.medical_specialty, Pregnancy, biology, business.industry, General Neuroscience, media_common.quotation_subject, Prenatal cocaine exposure, medicine.disease, c-Fos, General Biochemistry, Genetics and Molecular Biology, Disease susceptibility, Endocrinology, History and Philosophy of Science, Prenatal Exposure Delayed Effects, Internal medicine, biology.protein, Medicine, business, Sex characteristics, media_common
Published
1998
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35. Glutamate receptor subtypes localize to patches in the developing striatum

Author

Abigail Snyder-Keller and Lauren C. Costantini

Subjects
musculoskeletal, neural, and ocular physiology, Immunocytochemistry, Dopaminergic, Glutamate receptor, Striatum, AMPA receptor, Biology, nervous system, Developmental Neuroscience, NMDA receptor, Receptor, Long-term depression, Neuroscience, Developmental Biology
Abstract

The distribution of glutamate receptors in the developing striatum of the rat was studied using antibodies specific to AMPA and NMDA subtypes. Immunocytochemistry revealed a greater density of GluR1, GluR2/3, NMDAR1, and NMDAR2A/2B receptors in patches that matched the patches of substance P-immunoreactive neurons and dopaminergic terminals. GluR1-immunoreactive patches were the most distinctive and were present already at embryonic day 19.

Published
1996
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36. Prenatal cocaine alters later sensitivity to cocaine-induced seizures

Author

Abigail Snyder-Keller and Richard W. Keller

Subjects
Male, medicine.medical_specialty, medicine.medical_treatment, Rats, Sprague-Dawley, Central nervous system disease, Epilepsy, Cocaine, Pregnancy, Seizures, Internal medicine, Convulsion, Kindling, Neurologic, Reaction Time, medicine, Animals, Saline, Sex Characteristics, Dose-Response Relationship, Drug, Kindling, General Neuroscience, medicine.disease, Rats, Endocrinology, Animals, Newborn, Prenatal Exposure Delayed Effects, Toxicity, Female, Disease Susceptibility, medicine.symptom, Psychology, Sex characteristics
Abstract

Rats that had been prenatally exposed to cocaine were tested later in life for their sensitivity to cocaine-kindled seizures and acute cocaine-induced seizures. When treated daily with cocaine, beginning at one month of age, males prenatally exposed to 40 mg/kg cocaine developed seizures in a fewer number of days than those prenatally exposed to saline. Prenatally cocaine-treated females did not seize more rapidly than controls in the cocaine kindling paradigm; however, they were more susceptible to seizures in response to an acute high dose of cocaine. These results suggest that rats prenatally cocaine-treated are more sensitive to the seizure-producing effects of cocaine later in life, and this enhanced sensitivity is differentially expressed in males and females.

Published
1995
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37. Nicotinamide improves motor deficits and upregulates PGC-1α and BDNF gene expression in a mouse model of Huntington’s disease

Author

Anne Messer, Tyisha Hathorn, and Abigail Snyder-Keller

Subjects
Genetically modified mouse, Male, Niacinamide, medicine.medical_specialty, Huntingtin, Mitochondrial Diseases, medicine.drug_class, Mice, Transgenic, Biology, Vitamin, Article, lcsh:RC321-571, Mice, Huntington's disease, Neurotrophic factors, Internal medicine, medicine, Animals, Humans, Nicotinamide, lcsh:Neurosciences. Biological psychiatry. Neuropsychiatry, Brain-derived neurotrophic factor, Histone deacetylase inhibitor, Brain-Derived Neurotrophic Factor, medicine.disease, Peroxisome Proliferator-Activated Receptor Gamma Coactivator 1-alpha, Up-Regulation, Mice, Inbred C57BL, B vitamins, Disease Models, Animal, Endocrinology, Huntington Disease, Neurology, Mitochondrial biogenesis, Vitamin B Complex, Trans-Activators, Female, Transcription Factors
Abstract

Huntington's disease (HD) is a fatal autosomal dominant neurodegenerative disorder caused by an expansion of the polyglutamine (polyQ) repeat in exon-1 in the Huntingtin gene (HTT). This results in misfolding and accumulation of the huntingtin (htt) protein, forming nuclear and cytoplasmic inclusions. HD is associated with dysregulation of gene expression as well as mitochondrial dysfunction. We hypothesized that by improving transcriptional regulation of genes necessary for energy metabolism, the HD motor phenotype would also improve. We therefore examined the protective effects of nicotinamide (NAM), a well-characterized water-soluble B vitamin that is an inhibitor of sirtuin1/class III NAD(+)-dependent histone deacetylase (HDAC). In this study, both mini-osmotic pumps and drinking water deliveries were tested at 250 mg NAM/kg/day, using the B6.HDR6/1 transgenic mouse model. Results were similar for both modes of delivery, and there was no evidence of toxicity. We found that NAM treatment increased mRNA levels of brain-derived neurotrophic factor (BDNF), and Peroxisome proliferator-activated receptor gamma coactivator 1-alpha (PGC-1α), the master regulator of mitochondrial biogenesis. Protein levels of BDNF were also significantly increased. In addition, NAM treatment increased PGC-1α activation in HD mice, pointing to a possible mode of action as a therapeutic. Critically, NAM treatment was able to improve motor deficits associated with the HD phenotype, tested as time courses of open field, rotarod, and balance beam activities. These improvements were substantial, despite the fact that NAM did not appear to reduce htt aggregation, or to prevent late-stage weight loss. Our study therefore concludes that NAM or similar drugs may be beneficial in clinical treatment of the motor dysfunctions of HD, while additional therapeutic approaches must be added to combat the aggregation phenotype and overall physiological decline.

Published
2010

38. Neurodegeneration by activated microglia across a nanofiltration membrane

Author

David A. Lawrence, James N. Turner, David J. Graber, and Abigail Snyder-Keller

Subjects
Lipopolysaccharides, Lipopolysaccharide, Tyrosine 3-Monooxygenase, Cell Survival, Health, Toxicology and Mutagenesis, Biology, Toxicology, Nitric Oxide, Biochemistry, Nitric oxide, Rats, Sprague-Dawley, chemistry.chemical_compound, Dopamine, Mesencephalon, medicine, Animals, Cellulose, Molecular Biology, Cells, Cultured, Microglia, Dopaminergic Neurons, Neurodegeneration, Membranes, Artificial, Neurodegenerative Diseases, General Medicine, medicine.disease, Coculture Techniques, Cell biology, Rats, Nitric oxide synthase, medicine.anatomical_structure, Membrane, NG-Nitroarginine Methyl Ester, nervous system, chemistry, biology.protein, Molecular Medicine, Nitric Oxide Synthase, Neuron death, medicine.drug
Abstract

Microglia have been implicated in the pathogenesis of several neurodegenerative diseases, but their precise role remains elusive. Although neuron loss in the presence of lipopolysaccharide-stimulated microglia has been well documented, a novel coculture paradigm was developed as a new approach to assess the diffusible, soluble mediators of neurodegeneration. Isolated microglia were plated on membrane inserts that were coated with a layer of cellulose acetate. The cellulose acetate-coated membranes have nanofiltration properties, in that only molecules with masses less than 350 Da can pass through. Products released from activated microglia that were separated from primary ventral mesencephalon cells beneath the nanofiltering membrane were able to kill the dopamine neurons. Microglial cytokines cannot diffuse through this separating membrane. Addition of a nitric oxide synthase inhibitor prevented the loss of the dopamine neurons. These data describe a novel coculture system for studying diffusible factors and further support nitric oxide production as an important mediator in microglia-induced neuron death.

Published
2010

39. Opioids activate brain analgesic circuits through cytochrome P450/epoxygenase signaling

Author

Julia W. Nalwalk, Jun Gu, Cheng Fang, Phillip J. Albrecht, Xinxin Ding, Weizhu Yang, Obbe P. Zuiderveld, Jean M. Bidlack, Jun Yang, Rob Leurs, Scott Zeitlin, Jennie L. Conroy, Melissa Behr, Brian I. Knapp, Shao Zhong Zhang, Mark P. Wentland, Joseph E. Mazurkiewicz, Melissa A. VanAlstine, Zhixing Shan, Abigail Snyder-Keller, Lindsay B. Hough, Medicinal chemistry, and AIMMS

Subjects
Epoxygenase, Male, medicine.medical_specialty, Time Factors, Analgesic, Receptors, Opioid, mu, Pain, Mice, Transgenic, Pharmacology, Cytochrome P-450 CYP2J2, Article, Rats, Sprague-Dawley, 03 medical and health sciences, Mice, 0302 clinical medicine, Cytochrome P-450 Enzyme System, SDG 3 - Good Health and Well-being, Internal medicine, Neural Pathways, medicine, Animals, Cytochrome P-450 Enzyme Inhibitors, Enzyme Inhibitors, Receptor, 030304 developmental biology, Neurons, 0303 health sciences, biology, Dose-Response Relationship, Drug, Morphine, Chemistry, General Neuroscience, Cytochrome P450, Brain, Rats, Analgesics, Opioid, Endocrinology, Opioid, biology.protein, Female, μ-opioid receptor, 030217 neurology & neurosurgery, medicine.drug, Signal Transduction
Abstract

To assess the importance of brain cytochrome P450 (P450) activity in opioid analgesic action, we generated a mutant mouse with brain neuron-specific reductions in P450 activity; these mice showed highly attenuated morphine antinociception compared with controls. Pharmacological inhibition of brain P450 arachidonate epoxygenases also blocked morphine antinociception in mice and rats. Our findings indicate that a neuronal P450 epoxygenase mediates the pain-relieving properties of morphine. © 2010 Nature America, Inc. All rights reserved.

Published
2010
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40. Development of striatal compartmentalization following pre- or postnatal dopamine depletion

Author

Abigail Snyder-Keller

Subjects
Aging, medicine.medical_specialty, Cell type, Tyrosine 3-Monooxygenase, Central nervous system, Nigrostriatal pathway, Gestational Age, Substance P, Striatum, Biology, Hydroxydopamines, chemistry.chemical_compound, Lateral ventricles, Pregnancy, Reference Values, Dopamine, Internal medicine, medicine, Animals, Oxidopamine, General Neuroscience, Rats, Inbred Strains, Articles, Compartmentalization (fire protection), Corpus Striatum, Rats, Substantia Nigra, medicine.anatomical_structure, Endocrinology, nervous system, chemistry, Acetylcholinesterase, Dopamine Antagonists, Female, Neuroscience, Biomarkers, medicine.drug
Abstract

Nigrostriatal dopamine (DA) projections terminate in distinct patches during the late prenatal and early postnatal period in the rat. During the first postnatal week, patches of DA fibers overlap with clusters of striatal neurons that share several identified characteristics. The early segregation of striatal cell types into either these patches or the surrounding matrix becomes a permanent organizational feature of the striatum. In order to determine whether the heterogeneous distribution of DA influences the formation of cellular patches, the developmental organization of chemically identifiable cell types was examined in normal rats and in rats DA depleted as infants (0 or 3 d) or in utero (embryonic days 17–18). During the first postnatal week, corresponding patches of DA afferents and substance P (SP)- immunoreactive neurons existed in the striatum of normal animals, and AChE-positive zones overlapped these patches in the lateral striatum. Injection of 6-hydroxydopamine into the lateral ventricles of fetal or infant rats produced a dramatic loss of striatal DA terminals. Neither the patchy distribution of SP-immunoreactive neurons nor the distinctive pattern of AChE staining present during the first 2 postnatal weeks was disrupted. During the third postnatal week, cells immunoreactive for leu-enkephalin or calbindin-D28k were confined to the matrix compartment, and this compartmentalization was also not noticeably changed by pre- or postnatal DA depletion. In adult animals, overlapping patches of leu-enkephalin- and SP-immunoreactive fibers were observed, regardless of whether any DA terminals remained. Thus, the basic organization of the striatal patch and matrix compartments develops normally in the absence of DA innervation through much of the formative period. Although these observations do not completely dismiss the possibility that the first DA afferents to appear in the striatal primordia influence contracted striatal cells to develop the patch phenotype, they suggest that the patchy distribution of DA afferents may be secondary to the early clustering of striatal neurons forming the patch compartment.

Published
1991
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41. Prenatal inflammatory effects on nigrostriatal development in organotypic cultures

Author

Abigail Snyder-Keller and Peri F. Stark

Subjects
Lipopolysaccharides, medicine.medical_specialty, Neuropil, Dopamine, Central nervous system, Nigrostriatal pathway, Substantia nigra, Gestational Age, Striatum, Rats, Sprague-Dawley, chemistry.chemical_compound, Organ Culture Techniques, Pregnancy, Internal medicine, Neural Pathways, medicine, Animals, Pregnancy Complications, Infectious, Neurotransmitter, Molecular Biology, Neurons, biology, General Neuroscience, Critical Period, Psychological, Cell Differentiation, Coculture Techniques, Rats, Neostriatum, Substantia Nigra, medicine.anatomical_structure, Endocrinology, nervous system, chemistry, Prenatal Exposure Delayed Effects, biology.protein, Catecholamine, Female, Neurology (clinical), Neuroscience, Developmental Biology, Neurotrophin, medicine.drug
Abstract

Maternal intrauterine infection, and the accompanying inflammation in the fetal brain, represent a significant risk to the developing fetus. Dopamine (DA) neurons have been shown to be particularly vulnerable to inflammation induced by injection of the bacterial endotoxin lipopolysaccharide (LPS). In order to further examine the nature of this vulnerability, we used a combination of in vivo prenatal LPS exposure, and in vitro analysis of nigrostriatal development in organotypic cultures prepared from LPS-exposed rat fetuses. Control co-cultures prepared from unexposed E14 substantia nigra (SN/VTA) and E21 striatum exhibited numerous DA neurons in the nigral piece and robust ingrowth into the striatal piece. When E14 SN/VTA was obtained from fetuses exposed to LPS (0.1 mg/kg) on E10, initial DA cell numbers and striatal innervation in co-cultures were normal, but at longer durations in vitro , a reduction in DA neurons was observed. When striatal tissue from fetuses exposed to LPS on E14 or E18 was used in combination with non-exposed SN/VTA, DA neurons initially exhibited a normal pattern of ingrowth into LPS-exposed striatum. However, with longer durations in vitro , DA neurons were lost more rapidly when co-cultured with LPS-exposed striatum. Despite the loss of DA neurons, striatal DA innervation was only reduced in cultures prepared with striatum exposed to LPS at E18, at the longest time period examined. Experiments in which unexposed SN/VTA was given the choice to grow toward control striatum or toward LPS-exposed striatum supported the idea that the tropic qualities of the striatum were not altered by LPS-induced inflammation. Thus, the inflammation induced by LPS not only affects the SN/VTA DA neurons, but also alters the neurotrophic – although not the neurotropic – characteristics of the striatum. Such alterations in nigrostriatal development may demonstrate how adverse perinatal events predispose the developing brain toward the later development of Parkinson's disease.

Published
2008

42. Amphetamine sensitization of stress-induced turning in animals given unilateral dopamine transplants in infancy

Author

Raymond D. Lund and Abigail Snyder-Keller

Subjects
Male, medicine.medical_specialty, Tyrosine 3-Monooxygenase, Dopamine, Central nervous system, Lesion, Internal medicine, medicine, Animals, Amphetamine, Molecular Biology, Sensitization, General Neuroscience, Amphetamines, Stress induced, Rats, Inbred Strains, Rats, Substantia Nigra, Endocrinology, medicine.anatomical_structure, Mechanism of action, Brain lesions, Female, Neurology (clinical), Stereotyped Behavior, medicine.symptom, Psychology, Neuroscience, Stress, Psychological, Developmental Biology, medicine.drug
Abstract

Infant rats given bilateral dopamine-depleting brain lesions and unilateral transplants of embryonic nigral tissue develop turning in response to both amphetamine and stress. However, stress-induced turning did not develop unless animals were previously exposed to amphetamine, and was greatest in animals exposed early to the drug. These findings suggest that amphetamine alters certain properties of the transplanted cells so as to enhance their functional capacity.

Published
1990
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43. Dopaminergic Development of Prenatal Ventral Mesencephalon and Striatum in Organotypic Co-Cultures

Author

Gregory D. Lyng, Richard F. Seegal, and Abigail Snyder-Keller

Subjects
medicine.medical_specialty, 3,4-Dihydroxyphenylacetic acid, Tyrosine 3-Monooxygenase, Dopamine, Nigrostriatal pathway, Glutamic Acid, Substantia nigra, Cell Count, Striatum, Biology, Article, Rats, Sprague-Dawley, chemistry.chemical_compound, Mesencephalon, Internal medicine, Neural Pathways, medicine, Animals, Molecular Biology, Cells, Cultured, Neurons, Dopamine Plasma Membrane Transport Proteins, Tyrosine hydroxylase, Glutamate Decarboxylase, General Neuroscience, Dopaminergic, Homovanillic acid, Homovanillic Acid, Coculture Techniques, Corpus Striatum, Rats, Isoenzymes, Substantia Nigra, medicine.anatomical_structure, Endocrinology, chemistry, Biochemistry, nervous system, 3,4-Dihydroxyphenylacetic Acid, Neurology (clinical), Developmental Biology, medicine.drug
Abstract

Using organotypic co-cultures of rat embryonic day 14 (E14) ventral mesencephalon (VM) and E21 striatum, we have described the developmental changes in (i) dopamine (DA) neurochemistry; (ii) numbers of DA neurons; and (iii) protein expression of tyrosine hydroxylase (TH), DA transporter (DAT), and glutamic acid decarboxylase (GAD 65/67), over 17 days in vitro (DIV). Co-cultures demonstrated changes in DA development similar to those observed in vivo. The numbers of VM DA neurons remained relatively constant, while levels of VM DA progressively increased through 10 DIV. After 3 DIV, the levels of striatal DA increased substantially, through 10 DIV. Tissue levels of DA metabolites homovanillic acid (HVA) and 3,4-dihydroxyphenylacetic acid (DOPAC) reflected changes in tissue DA concentrations, indicating that release and metabolism of DA are similar to these characteristics observed in vivo. Western blot analysis of TH protein expression revealed large increases in VM TH after only 3 DIV, followed by a decline in levels through 17 DIV; levels of striatal TH, in contrast, increased through this period. Additionally, DAT and GAD 65/67 expression increased, in both the VM and striatum, over 17 DIV. By 17 DIV, many measures of DA function had decreased from those assessed at 10 DIV, thus providing an approximate limit to the effective duration of use of this co-culture model. Our results provide a much-needed description of the neurochemical changes that occur during the maturation of VM and striatum in organotypic co-cultures. Additionally, these results provide a foundation for future studies to assess toxic challenges of the developing nigrostriatal DA system, in vitro.

Published
2006

44. Dopaminergic modulation of striatal plateau depolarizations in corticostriatal organotypic cocultures

Author

Abigail Snyder-Keller, Patricio O'Donnell, and Kuei Y. Tseng

Subjects
animal structures, Patch-Clamp Techniques, Time Factors, Dopamine, Glutamine, Neural Conduction, Action Potentials, Striatum, Neurotransmission, Biology, Medium spiny neuron, Receptors, N-Methyl-D-Aspartate, Synaptic Transmission, Article, Rats, Sprague-Dawley, Tissue Culture Techniques, chemistry.chemical_compound, Prosencephalon, Basal ganglia, medicine, Animals, Receptors, AMPA, Neurotransmitter, Pharmacology, Neurons, Neurotransmitter Agents, Receptors, Dopamine D1, Ventral Tegmental Area, Brain, Depolarization, Cyclic AMP-Dependent Protein Kinases, Coculture Techniques, Corpus Striatum, Rats, Substantia Nigra, Electrophysiology, nervous system, chemistry, Calcium, Neuroscience, medicine.drug
Abstract

It has been proposed that dopamine (DA) sustains up states in striatal medium spiny neurons (MSN). Testing this hypothesis requires an in vitro preparation, but up states are typically only observed in vivo.In this study, we used corticostriatal organotypic cocultures, a preparation in which up states have been previously observed, to test the DA control of cortically-driven plateau depolarizations.After 7-21 days in vitro in serum-free conditions, plateau depolarizations resembling up states were only observed in cultures with a critical extent of striatal DA innervation. These plateaus were completely blocked by the non-NMDA antagonist CNQX and significantly shortened by the NMDA antagonist APV or the D(1) antagonist SCH23390. Intracellular interruption of Ca(++) or protein-kinase A (PKA) signaling also eliminated the plateaus. The D(2) antagonist eticlopride failed to disrupt the plateaus, but significantly increased MSN excitability.These results suggest that coincident activation of corticostriatal glutamatergic and mesostriatal DA transmission may set ensembles of MSN into prolonged depolarizations through a D(1) enhancement of striatal NMDA function in a Ca(++) and PKA-dependent manner.

Published
2006

45. Pattern of corticostriatal innervation in organotypic cocultures is dependent on the age of the cortical tissue

Author

Abigail Snyder-Keller

Subjects
Aging, Striosome, Central nervous system, Substantia nigra, Striatum, Biology, Somatosensory system, Rats, Sprague-Dawley, chemistry.chemical_compound, Fetus, Organ Culture Techniques, Developmental Neuroscience, Pregnancy, Cortex (anatomy), Biocytin, medicine, Animals, Cerebral Cortex, Afferent Pathways, Immunohistochemistry, Coculture Techniques, Corpus Striatum, Rats, medicine.anatomical_structure, nervous system, Neurology, chemistry, Female, Neuron, Neuroscience
Abstract

The patch–matrix organization of the striatum is defined by the selective expression of neuronal markers and a semisegregated pattern of afferents and efferents that develops before birth in all mammals. Differential projections from ‘limbic’ and ‘somatomotor’ cortices contribute to the selective circuitry of patch (“striosome”) and matrix compartments. Organotypic cultures were used to determine the pattern of early corticostriatal innervation as a first step toward understanding the role of cortical innervation in the development of striatal patch–matrix organization. Perinatal striatum (E19–P4) was cocultured with the cortex obtained from same-age or different-age rats in the presence or absence of substantia nigra obtained from E14–15 fetuses. After 4–21 days in vitro, crystals of biocytin were placed directly onto the cortical piece to trace cortical projections into the striatal piece. Cortex obtained from fetuses (E19–22) or neonatal (P0–1) rats gave rise to a dense innervation of both prenatal and postnatal striatal slices; however, the pattern of biocytin-labeled fibers was found to be highly dependent on the age of the cortical tissue used. Cortex derived from rats between E20 and P1 gave rise to a heterogeneous distribution of fibers indicative of striatal patches when combined with striatal slices from same-age or younger (E18–19) fetuses. Cortex from E18–19 fetuses produced a homogeneous innervation even when cocultured with older striatal tissue in which the striatal patches were already present. The postnatal cortex (P2–P5) gave rise to little to no innervation of striatum of all ages. Similar findings were obtained with the use of either prelimbic or somatosensory cortex. In double- and triple-labeled cultures, the distribution of corticostriatal fibers overlapped substantially with patches of developing striatal neurons, as revealed by DARPP-32 immunocytochemistry. Dopaminergic innervation present when the substantia nigra was included in the cocultures also distributed preferentially to the developing patch compartment, but it did not substantially alter the pattern of corticostriatal innervation. These findings suggest that the cortex provides directive signals to the developing striatum rather than simply responding to the presence of patches that have already formed.

Published
2004

46. Blockade of D1 dopaminergic transmission alleviates c-fos induction and cleaved caspase-3 expression in the brains of rat pups exposed to prenatal cocaine or perinatal asphyxia

Author

Abigail Snyder-Keller and Ellen S. Mitchell

Subjects
medicine.medical_specialty, Apoptosis, Intrauterine hypoxia, Biology, Synaptic Transmission, Rats, Sprague-Dawley, Asphyxia, Developmental Neuroscience, Cocaine, Dopamine, Pregnancy, Internal medicine, medicine, Animals, Caspase 3, Receptors, Dopamine D1, Dopaminergic, Dopamine antagonist, Brain, Prenatal cocaine exposure, Benzazepines, medicine.disease, Immunohistochemistry, Perinatal asphyxia, Rats, medicine.anatomical_structure, Endocrinology, Neurology, Animals, Newborn, Gene Expression Regulation, Dopaminergic pathways, Caspases, Prenatal Exposure Delayed Effects, Dopamine Antagonists, Female, medicine.symptom, Proto-Oncogene Proteins c-fos, medicine.drug
Abstract

Hypoxia due to uterine vasoconstriction may be an important cause of the teratogenic consequences of prenatal cocaine exposure. We used immediate-early gene and cleaved caspase-3 expression patterns to monitor fetal brain regions affected by intrauterine hypoxia and prenatal cocaine and pretreatment with the D1 dopamine receptor antagonist SCH 23390 to determine how much of the induction observed was due to dopamine. Both cocaine binge (3 x 15 mg/kg) and perinatal asphyxia on embryonic day 22 (E22) induced c-fos in the striatum as well as in several other brain regions within 3 h after treatment. Maternal administration of a D1 dopamine antagonist, SCH 23390, before either cocaine or asphyxia exposure dramatically reduced the numbers of Fos-immunoreactive cells in the striatum as well as in many other brain regions. Cells immunoreactive for cleaved caspase-3 expression were more numerous after perinatal asphyxia than after prenatal cocaine exposure in most brain regions 24 h after C-section. SCH 23390 decreased caspase-3 expression after both birth insults, indicating that the increased incidence of apoptosis is related to overactivation of dopaminergic pathways.

Published
2003

47. Basal EGR-1 (zif268, NGFI-A, Krox-24) expression in developing striatal patches: role of dopamine and glutamate

Author

Abigail Snyder-Keller, Ruchira Chandra, Ellen Siobhan Mitchell, and Yili Lin

Subjects
Male, medicine.medical_specialty, Dopamine, Glutamic Acid, Striatum, Biology, Immediate-Early Proteins, Rats, Sprague-Dawley, Glutamatergic, chemistry.chemical_compound, Pregnancy, Internal medicine, Basal ganglia, medicine, Animals, Neurons, Afferent, Neurotransmitter, Molecular Biology, Early Growth Response Protein 1, General Neuroscience, Dopaminergic, Glutamate receptor, Gene Expression Regulation, Developmental, Corpus Striatum, Rats, body regions, DNA-Binding Proteins, Endocrinology, chemistry, NMDA receptor, Female, Neurology (clinical), hormones, hormone substitutes, and hormone antagonists, Developmental Biology, medicine.drug, Transcription Factors
Abstract

Egr-1 (also known as zif268, NGFI-A, or Krox 24) is an immediate-early gene of the zinc finger family that exhibits relatively high constitutive expression in the brain, as well as inducibility by seizure activity, stimulants, and salient physiological stimuli. Immunocyto-chemical detection of the Egr-1 protein in the developing striatum revealed that in the late prenatal and early postnatal period, Egr-1 protein was expressed selectively in patches of striatal neurons under basal conditions. Egr-1 immunoreactivity was co-expressed with known markers of striatal patch neurons, indicating that expression was greatest in the striatal patch compartment. This patchy expression of Egr-1 transitioned to a nearly homogeneous pattern of Egr-1-immunoreactive cells by postnatal day 10, at which time most striatal neurons appeared to be Egr-1-immunoreactive. The dopamine D1 antagonist SCH23390 (0.5–1.0 mg/kg) reduced Egr-1 expression during the first week postnatal, but it was no longer effective at postnatal day 10. On the other hand, the noncompetitive NMDA antagonist MK-801 (0.5–1.0 mg/kg) became more effective at reducing Egr-1 expression with age. Neonatal destruction of nigrostriatal dopamine afferents reduced the basal pattern of Egr-1 expression for 2–3 days after the lesion, but then Egr-1 expression returned. Thus, Egr-1 expression in the developing striatum appears to be driven first by dopaminergic afferents, and then later in development by excitatory glutamatergic afferents.

Published
2002

48. Immediate-early gene expression in concurrent prenatal ethanol- and/or cocaine-exposed rat pups: intrauterine differences in cocaine levels and Fos expression

Author

Abigail Snyder-Keller, Ellen S. Mitchell, and Richard W. Keller

Subjects
medicine.medical_specialty, Liquid diet, Uterus, Immediate-Early Proteins, Rats, Sprague-Dawley, chemistry.chemical_compound, Cocaine-Related Disorders, Fetus, Developmental Neuroscience, Alcohol-Induced Disorders, Nervous System, Cocaine, Pregnancy, Internal medicine, Medicine, Animals, Drug Interactions, Genes, Immediate-Early, Early Growth Response Protein 1, Neurons, Ethanol, Dose-Response Relationship, Drug, business.industry, Body Weight, Gene Expression Regulation, Developmental, Hypoxia (medical), Corpus Striatum, Rats, DNA-Binding Proteins, Endocrinology, medicine.anatomical_structure, chemistry, Fetal Alcohol Spectrum Disorders, Prenatal Exposure Delayed Effects, Gestation, Female, medicine.symptom, business, Immediate early gene, Proto-Oncogene Proteins c-fos, Vasoconstriction, Developmental Biology, Transcription Factors
Abstract

Concurrent use of cocaine and ethanol is a common mode of abuse. Cocaine and ethanol have distinctive pharmacologies but both have been shown to cause uterine vasoconstriction and fetal hypoxia. We developed a paradigm of chronic ethanol exposure via liquid diet coupled with binge cocaine exposure on the last day of gestation. Lipton et al. [16] demonstrated unequal segregation of cocaine in rat fetuses as a function of proximal–distal location in the uterus, indicating a differential vasoconstriction of the two main arteries supplying the uterus in rats receiving cocaine. By performing C-sections after exposure to cocaine, we were able to measure the cocaine content and immediate-early gene (IEG) induction in the brains of fetuses according to their intrauterine position and assess the potentially vasoconstrictive effect of ethanol. HPLC analysis of fetal brains exposed to cocaine supported the study of Lipton et al.: fetuses from the proximal (lower) end of the uterus had more cocaine than fetuses from the distal (upper) end. Concurrent ethanol decreased the amount of cocaine reaching the fetuses and diminished the proximal–distal gradient. There were increased numbers of Fos-immunoreactive cells in fetuses exposed to both ethanol and cocaine compared to cocaine binge only. Additionally, the gradient of c-fos induction observed as a function of intrauterine position in cocaine-treated rats was in the opposite direction: most distal fetuses generally had the most Fos-immunoreactive cells. These results indicate that IEG induction in fetal brains exposed to cocaine and ethanol may be more related to hypoxic consequences of prenatal drug exposure.

Published
2002

49. Spatiotemporal analysis of Fos expression associated with cocaine- and PTZ-induced seizures in prenatally cocaine-treated rats

Author

Abigail Snyder-Keller and Richard W. Keller

Subjects
Male, medicine.medical_specialty, Cell Count, Striatum, Nucleus accumbens, Amygdala, Receptors, N-Methyl-D-Aspartate, Rats, Sprague-Dawley, Sex Factors, Developmental Neuroscience, Cocaine, Dopamine, Pregnancy, Seizures, Internal medicine, Piriform cortex, medicine, Limbic System, Animals, Pentylenetetrazol, Dose-Response Relationship, Drug, business.industry, Receptors, Dopamine D1, Dopamine antagonist, Brain, Prenatal cocaine exposure, Rats, Endocrinology, medicine.anatomical_structure, nervous system, Neurology, Prenatal Exposure Delayed Effects, Dopamine Antagonists, Pentylenetetrazole, Female, business, Neuroscience, Excitatory Amino Acid Antagonists, Proto-Oncogene Proteins c-fos, medicine.drug
Abstract

We previously reported that prenatal cocaine exposure (40 mg/kg s.c., E10-E20) increased susceptibility to convulsant-induced seizures later in life, with female rats becoming more sensitive to seizures induced by cocaine and pentylenetetrazol (PTZ), and males more sensitive to PTZ-induced seizures (Snyder-Keller and Keller, 1995, 2000). In order to determine the locus of enhanced seizure susceptibility in the brains of prenatally cocaine-treated rats, we examined the distribution and density of Fos-immunoreactive cells after cocaine- and PTZ-induced seizures in mature rats. Subconvulsive cocaine doses induced c-fos in cortical areas as well as densely dopamine-innervated regions such as striatum and nucleus accumbens. Following cocaine-induced seizures, intense c-fos induction was observed in piriform cortex, amygdala, and hippocampus. Quantification of the number of Fos-immunoreactive cells in the brains of prenatally cocaine-treated versus prenatally saline-treated rats revealed differences in piriform cortex and amygdala that were indicative of a lower threshold in prenatally cocaine-treated female rats. Following PTZ-induced seizures, the same pattern of limbic structures were recruited with increasing seizure severity. Only females exhibited changes in the number of Fos-immunoreactive cells as a result of prenatal cocaine treatment. Pretreatment with the noncompetitive NMDA antagonist MK-801 blocked both cocaine- and PTZ-induced seizures, and Fos expression in limbic areas was also blocked. The dopamine D1 antagonist SCH 23390 blocked cocaine-induced seizures and associated c-fos induction, but not PTZ-induced seizures or Fos. Examination of the pattern of Fos expression at 15-20 min postseizure revealed that the initial site of c-fos induction associated with PTZ-induced seizures appeared to be the piriform cortex, whereas cocaine-induced seizures induced early expression in both piriform cortex and lateral amygdala. These findings suggest that neural alterations residing in the piriform cortex and amygdala are likely to account for the increased seizure susceptibility of prenatally cocaine-treated rats.

Published
2001

50. Enhanced susceptibility to cocaine- and pentylenetetrazol-induced seizures in prenatally cocaine-treated rats

Author

Richard W. Keller, Clarvdia Sam, and Abigail Snyder-Keller

Subjects
Male, medicine.medical_specialty, Neurological disorder, Toxicology, Rats, Sprague-Dawley, Cellular and Molecular Neuroscience, Epilepsy, Developmental Neuroscience, Cocaine, Pregnancy, Seizures, Internal medicine, Convulsion, medicine, Animals, Pentylenetetrazol, Fetus, Sex Characteristics, business.industry, Prenatal cocaine exposure, medicine.disease, Teratology, Rats, Endocrinology, Prenatal Exposure Delayed Effects, Toxicity, Pentylenetetrazole, Female, Disease Susceptibility, medicine.symptom, business, medicine.drug
Abstract

We previously reported that prenatal cocaine exposure increased susceptibility to cocaine-induced seizures later in life. Here we examine whether this enhanced susceptibility to seizures generalizes to other chemoconvulsants, and whether postnatal cocaine treatment similarly increases susceptibility. Following prenatal cocaine treatment (40 mg/kg; E10-20), both male and female rats were more likely to seize to a dose of 30 mg/kg pentylenetetrazol (PTZ) at 2 months of age, although the severity of the seizures observed was increased only in females. Daily cocaine injections (10-20 mg/kg SC) during the first 10 days after birth also produced effects that were dependent on the sex of the animal. Postnatally cocaine-treated female rats showed no greater incidence of seizures in response to an acute high dose of cocaine, but did exhibit an increased susceptibility to cocaine-kindled seizures. Male, but not female, postnatally cocaine-treated rats were more susceptible to PTZ-induced seizures. The increased susceptibility to seizures induced by two different chemoconvulsants after prenatal cocaine treatment suggests that developmental cocaine exposure, particularly during the second trimester equivalent, alters the balance between excitation and inhibition in the brain.

Published
2000

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