An overview of mice models: a key for understanding subtypes of mania

An overview of mice models: a key for understanding subtypes of mania

Guardado en:

International Journal of Psychological Research

2011-2084

2011-7922

Cuartas Arias, Jorge Mauricio

Díaz Zuluaga, Ana María

López Jaramilo, Carlos

UNIVERSIDAD DE SAN BUENAVENTURA

10.21500/20112084.2648

9

2016-07-01

113

123

Colombia

International Journal of Psychological Research - 2016

info:eu-repo/semantics/openAccess

http://purl.org/coar/access_right/c_abf2

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institution UNIVERSIDAD DE SAN BUENAVENTURA
thumbnail https://nuevo.metarevistas.org/UNIVERSIDADDESANBUENAVENTURA_COLOMBIA/logo.png
country_str Colombia
collection International Journal of Psychological Research
title An overview of mice models: a key for understanding subtypes of mania
spellingShingle An overview of mice models: a key for understanding subtypes of mania
Cuartas Arias, Jorge Mauricio
Díaz Zuluaga, Ana María
López Jaramilo, Carlos
modelos animales
trastorno afectivo bipolar
knockout y manía.
title_short An overview of mice models: a key for understanding subtypes of mania
title_full An overview of mice models: a key for understanding subtypes of mania
title_fullStr An overview of mice models: a key for understanding subtypes of mania
title_full_unstemmed An overview of mice models: a key for understanding subtypes of mania
title_sort overview of mice models: a key for understanding subtypes of mania
description_eng Animal models have been broadly used in the study of pathophysiology and molecular and neurochemical pathways in neuropsychiatric diseases. Different approaches have used both consanguineous and non-consanguineous mice models to model behavioral patterns associated with the maniac spectrum. However, the disadvantages of validating clinical and experimental protocols have hindered the replication of these studies. In this article, the advantages and disadvantages of using consanguineous lines and non-consanguineous stocks in mice animal models for the study of mania and its subtypes are discussed. Additionally, new experimental alternatives to advance the pathogenesis and pharmacogenetics of mania using animal models are proposed and analyzed
author Cuartas Arias, Jorge Mauricio
Díaz Zuluaga, Ana María
López Jaramilo, Carlos
author_facet Cuartas Arias, Jorge Mauricio
Díaz Zuluaga, Ana María
López Jaramilo, Carlos
topic modelos animales
trastorno afectivo bipolar
knockout y manía.
topic_facet modelos animales
trastorno afectivo bipolar
knockout y manía.
citationvolume 9
citationissue 2
citationedition Núm. 2 , Año 2016 : Special Issue of Comparative Psychology
publisher Universidad San Buenaventura - USB (Colombia)
ispartofjournal International Journal of Psychological Research
source https://revistas.usb.edu.co/index.php/IJPR/article/view/2648
language Inglés
format Article
rights https://creativecommons.org/licenses/by-nc-sa/4.0/
International Journal of Psychological Research - 2016
info:eu-repo/semantics/openAccess
http://purl.org/coar/access_right/c_abf2
references_eng Aston-Jones, G., and K. Deisseroth 2013. Recent advances in optogenetics and pharmacogenetics. Brain research, 1511:1-5. Blumenthal, T. D., et al. 1996. Prepulse effects on magnitude estimation of startle-eliciting stimuli and startle responses. Perception & psychophysics, 58(1):73-80. Bora, E., et al. 2016. Executive dysfunction and cognitive subgroups in a large sample of euthymic patients with bipolar disorder. European neuropsychopharmacology: the journal of the European College of Neuropsychopharmacology. Cosgrove, V. E., J. R. Kelsoe, and T. Suppes 2016. Toward a Valid Animal Model of Bipolar Disorder: How the Research Domain Criteria Help Bridge the Clinical-Basic Science Divide. Biological psychiatry 79(1):62-70. Cotrena, C., et al. 2016. Executive function impairments in depression and bipolar disorder: association with functional impairment and quality of life. Journal of affective disorders 190:744-53. Cuartas, M. 2014 Cognition and Inflammation: “The role of cytokines in cognitive performance” INT.J.PSYCHOL.RES. 7(2):8-10. Charlson, F. J., et al. 2016 Excess Mortality from Mental, Neurological, and Substance Use Disorders in the Global Burden of Disease Study 2010. In Mental, Neurological, and Substance Use Disorders: Disease Control Priorities, Third Edition (Volume 4). V. Patel, D. Chisholm, T. Dua, R. Laxminarayan, and M.E. Medina-Mora, eds. Washington (DC). Chen, C. H., et al. 2011 Genetic influences on cortical regionalization in the human brain. Neuron 72(4):537-44. Chow, C. Y. 2016 Bringing genetic background into focus. Nature reviews. Genetics 17(2):63-4. Degenhardt, L., et al. 2013 Global burden of disease attributable to illicit drug use and dependence: findings from the Global Burden of Disease Study 2010. Lancet 382(9904):1564-74. Douma, T. N., et al. 2014 Valproate improves prepulse inhibition deficits induced by corticotropin-releasing factor independent of GABA(A) and GABA(B) receptor activation. Neuropharmacology 79:66-74. Ersland, K. M., et al. 2012 Gene-based analysis of regionally enriched cortical genes in GWAS data sets of cognitive traits and psychiatric disorders. PloS one 7(2):e31687. Farrell, M. S., and B. L. Roth 2013 Pharmacosynthetics: Reimagining the pharmacogenetic approach. Brain research 1511:6-20. Festing, MF 1993 Origins and characteristics of inbred strains of mice, 11th listing. . Mouse Genome 91:393-550. Frame, S., and P. Cohen 2001. GSK3 takes centre stage more than 20 years after its discovery. The Biochemical journal 359(Pt 1):1-16. Fries, G. R., et al. 2015. Memory and brain-derived neurotrophic factor after subchronic or chronic amphetamine treatment in an animal model of mania. Journal of psychiatric research 68:329-36. Furlotti, G., et al. 2015. Hit Optimization of 5-Substituted-N-(piperidin-4-ylmethyl)-1H-indazole-3-carboxamides: Potent Glycogen Synthase Kinase-3 (GSK-3) Inhibitors with in Vivo Activity in Model of Mood Disorders. Journal of medicinal chemistry 58(22):8920-37. Goodwin FK, Jamison KR , and 2007 Manic-Depressive Illness. 2nd, ed. New York.: Oxford University Press Gubert, C., et al. 2016. Role of P2X7 Receptor in an Animal Model of Mania Induced by D-Amphetamine. Molecular neurobiology 53(1):611-20. Hong, S. L., and K. M. Newell 2008. Entropy conservation in the control of human action. Nonlinear dynamics, psychology, and life sciences 12(2):163-90. Hou, L., et al. 2016. Genetic variants associated with response to lithium treatment in bipolar disorder: a genome-wide association study. Lancet 387(10023):1085-93. Imai, H., et al. 2016. Dorsal Forebrain-Specific Deficiency of Reelin-Dab1 Signal Causes Behavioral Abnormalities Related to Psychiatric Disorders. Cerebral cortex. Isozaki, T., et al. 2016 Deficiency of diacylglycerol kinase eta induces lithium-sensitive mania-like behavior. Journal of neurochemistry. Jacquelin, C., et al. 2013 Neurobehavioral performances and brain regional metabolism in Dab1(scm) (scrambler) mutant mice. Behavioural brain research 252:92-100. Koch, M. 1999 The neurobiology of startle. Progress in neurobiology 59(2):107-28. Kofler, M., et al. 2001 Influence of age on auditory startle responses in humans. Neuroscience letters 307(2):65-8. Le-Niculescu, H., et al. 2008 Phenomic, convergent functional genomic, and biomarker studies in a stress-reactive genetic animal model of bipolar disorder and co-morbid alcoholism. American journal of medical genetics. Part B, Neuropsychiatric genetics: the official publication of the International Society of Psychiatric Genetics 147B(2):134-66. Le-Niculescu, H., et al. 2009 Convergent functional genomics of genome-wide association data for bipolar disorder: comprehensive identification of candidate genes, pathways and mechanisms. American journal of medical genetics. Part B, Neuropsychiatric genetics: the official publication of the International Society of Psychiatric Genetics 150B (2):155-81. Levin, R., et al. 2011 Spontaneously Hypertensive Rats (SHR) present deficits in prepulse inhibition of startle specifically reverted by clozapine. Progress in neuro-psychopharmacology & biological psychiatry 35(7):1748-52. Li, X., et al. 2010 Regulation of glycogen synthase kinase-3 during bipolar mania treatment. Bipolar disorders 12(7):741-52. Macedo, D. S., et al. 2012. Effects of alpha-lipoic acid in an animal model of mania induced by D-amphetamine. Bipolar disorders 14(7):707-18. McCormack, C., et al. 2016. Neuropsychological and social cognitive function in young people at genetic risk of bipolar disorder. Psychological medicine 46(4):745-58. Mesik, L., et al. 2015. Functional response properties of VIP-expressing inhibitory neurons in mouse visual and auditory cortex. Frontiers in neural circuits 9:22. Niculescu, A. B. 2013. Convergent functional genomics of psychiatric disorders. American journal of medical genetics. Part B, Neuropsychiatric genetics: the official publication of the International Society of Psychiatric Genetics 162B(7):587-94. Ong, J. C., et al. 2005. An investigation of the efficacy of mood stabilizers in rodent models of prepulse inhibition. The Journal of pharmacology and experimental therapeutics 315(3):1163-71. Ozburn, A. R., et al. 2016. Functional Implications of the CLOCK 3111T/C Single-Nucleotide Polymorphism. Frontiers in psychiatry 7:67. Rossi, M. A., et al. 2012. Prefrontal cortical mechanisms underlying delayed alternation in mice. Journal of neurophysiology 108(4):1211-22. Sanchez-Morla, E. M., et al. 2016. Prepulse inhibition in euthymic bipolar disorder patients in comparison with control subjects. Acta psychiatrica Scandinavica. Saunders, K. E., and J. R. Geddes 2016 The management of bipolar disorder. British journal of hospital medicine 77(3):175-9. Schulze, T. G., et al. 2010. The International Consortium on Lithium Genetics (ConLiGen): an initiative by the NIMH and IGSLI to study the genetic basis of response to lithium treatment. Neuropsychobiology 62(1):72-8. Sharma, A. N., et al. 2016. Modeling mania in preclinical settings: A comprehensive review. Progress in neuro-psychopharmacology & biological psychiatry 66:22-34. Sidor, M. M., and C. A. McClung 2014. Timing matters: using optogenetics to chronically manipulate neural circuitry and rhythms. Frontiers in behavioral neuroscience 8:41. Stansberg, C., et al. 2011. Gene expression in the rat brain: high similarity but unique differences between frontomedial-, temporal- and occipital cortex. BMC neuroscience 12:15. Suadicani, S. O., C. F. Brosnan, and E. Scemes 2006. P2X7 receptors mediate ATP release and amplification of astrocytic intercellular Ca2+ signaling. The Journal of neuroscience: the official journal of the Society for Neuroscience 26(5):1378-85. Urban, D. J., et al. 2016. Elucidation of The Behavioral Program and Neuronal Network Encoded by Dorsal Raphe Serotonergic Neurons. Neuropsychopharmacology: official publication of the American College of Neuropsychopharmacology 41(5):1404-15. van Enkhuizen, J., et al. 2015. Investigating the underlying mechanisms of aberrant behaviors in bipolar disorder from patients to models: Rodent and human studies. Neuroscience and biobehavioral reviews 58:4-18. Young, J. W., B. L. Henry, and M. A. Geyer 2011. Predictive animal models of mania: hits, misses and future directions. British journal of pharmacology 164(4):1263-84. Yue, F., et al. 2014. A comparative encyclopedia of DNA elements in the mouse genome. Nature 515(7527):355-64.
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spelling An overview of mice models: a key for understanding subtypes of mania
An overview of mice models: a key for understanding subtypes of mania
Artículo de revista
Aston-Jones, G., and K. Deisseroth 2013. Recent advances in optogenetics and pharmacogenetics. Brain research, 1511:1-5. Blumenthal, T. D., et al. 1996. Prepulse effects on magnitude estimation of startle-eliciting stimuli and startle responses. Perception & psychophysics, 58(1):73-80. Bora, E., et al. 2016. Executive dysfunction and cognitive subgroups in a large sample of euthymic patients with bipolar disorder. European neuropsychopharmacology: the journal of the European College of Neuropsychopharmacology. Cosgrove, V. E., J. R. Kelsoe, and T. Suppes 2016. Toward a Valid Animal Model of Bipolar Disorder: How the Research Domain Criteria Help Bridge the Clinical-Basic Science Divide. Biological psychiatry 79(1):62-70. Cotrena, C., et al. 2016. Executive function impairments in depression and bipolar disorder: association with functional impairment and quality of life. Journal of affective disorders 190:744-53. Cuartas, M. 2014 Cognition and Inflammation: “The role of cytokines in cognitive performance” INT.J.PSYCHOL.RES. 7(2):8-10. Charlson, F. J., et al. 2016 Excess Mortality from Mental, Neurological, and Substance Use Disorders in the Global Burden of Disease Study 2010. In Mental, Neurological, and Substance Use Disorders: Disease Control Priorities, Third Edition (Volume 4). V. Patel, D. Chisholm, T. Dua, R. Laxminarayan, and M.E. Medina-Mora, eds. Washington (DC). Chen, C. H., et al. 2011 Genetic influences on cortical regionalization in the human brain. Neuron 72(4):537-44. Chow, C. Y. 2016 Bringing genetic background into focus. Nature reviews. Genetics 17(2):63-4. Degenhardt, L., et al. 2013 Global burden of disease attributable to illicit drug use and dependence: findings from the Global Burden of Disease Study 2010. Lancet 382(9904):1564-74. Douma, T. N., et al. 2014 Valproate improves prepulse inhibition deficits induced by corticotropin-releasing factor independent of GABA(A) and GABA(B) receptor activation. Neuropharmacology 79:66-74. Ersland, K. M., et al. 2012 Gene-based analysis of regionally enriched cortical genes in GWAS data sets of cognitive traits and psychiatric disorders. PloS one 7(2):e31687. Farrell, M. S., and B. L. Roth 2013 Pharmacosynthetics: Reimagining the pharmacogenetic approach. Brain research 1511:6-20. Festing, MF 1993 Origins and characteristics of inbred strains of mice, 11th listing. . Mouse Genome 91:393-550. Frame, S., and P. Cohen 2001. GSK3 takes centre stage more than 20 years after its discovery. The Biochemical journal 359(Pt 1):1-16. Fries, G. R., et al. 2015. Memory and brain-derived neurotrophic factor after subchronic or chronic amphetamine treatment in an animal model of mania. Journal of psychiatric research 68:329-36. Furlotti, G., et al. 2015. Hit Optimization of 5-Substituted-N-(piperidin-4-ylmethyl)-1H-indazole-3-carboxamides: Potent Glycogen Synthase Kinase-3 (GSK-3) Inhibitors with in Vivo Activity in Model of Mood Disorders. Journal of medicinal chemistry 58(22):8920-37. Goodwin FK, Jamison KR , and 2007 Manic-Depressive Illness. 2nd, ed. New York.: Oxford University Press Gubert, C., et al. 2016. Role of P2X7 Receptor in an Animal Model of Mania Induced by D-Amphetamine. Molecular neurobiology 53(1):611-20. Hong, S. L., and K. M. Newell 2008. Entropy conservation in the control of human action. Nonlinear dynamics, psychology, and life sciences 12(2):163-90. Hou, L., et al. 2016. Genetic variants associated with response to lithium treatment in bipolar disorder: a genome-wide association study. Lancet 387(10023):1085-93. Imai, H., et al. 2016. Dorsal Forebrain-Specific Deficiency of Reelin-Dab1 Signal Causes Behavioral Abnormalities Related to Psychiatric Disorders. Cerebral cortex. Isozaki, T., et al. 2016 Deficiency of diacylglycerol kinase eta induces lithium-sensitive mania-like behavior. Journal of neurochemistry. Jacquelin, C., et al. 2013 Neurobehavioral performances and brain regional metabolism in Dab1(scm) (scrambler) mutant mice. Behavioural brain research 252:92-100. Koch, M. 1999 The neurobiology of startle. Progress in neurobiology 59(2):107-28. Kofler, M., et al. 2001 Influence of age on auditory startle responses in humans. Neuroscience letters 307(2):65-8. Le-Niculescu, H., et al. 2008 Phenomic, convergent functional genomic, and biomarker studies in a stress-reactive genetic animal model of bipolar disorder and co-morbid alcoholism. American journal of medical genetics. Part B, Neuropsychiatric genetics: the official publication of the International Society of Psychiatric Genetics 147B(2):134-66. Le-Niculescu, H., et al. 2009 Convergent functional genomics of genome-wide association data for bipolar disorder: comprehensive identification of candidate genes, pathways and mechanisms. American journal of medical genetics. Part B, Neuropsychiatric genetics: the official publication of the International Society of Psychiatric Genetics 150B (2):155-81. Levin, R., et al. 2011 Spontaneously Hypertensive Rats (SHR) present deficits in prepulse inhibition of startle specifically reverted by clozapine. Progress in neuro-psychopharmacology & biological psychiatry 35(7):1748-52. Li, X., et al. 2010 Regulation of glycogen synthase kinase-3 during bipolar mania treatment. Bipolar disorders 12(7):741-52. Macedo, D. S., et al. 2012. Effects of alpha-lipoic acid in an animal model of mania induced by D-amphetamine. Bipolar disorders 14(7):707-18. McCormack, C., et al. 2016. Neuropsychological and social cognitive function in young people at genetic risk of bipolar disorder. Psychological medicine 46(4):745-58. Mesik, L., et al. 2015. Functional response properties of VIP-expressing inhibitory neurons in mouse visual and auditory cortex. Frontiers in neural circuits 9:22. Niculescu, A. B. 2013. Convergent functional genomics of psychiatric disorders. American journal of medical genetics. Part B, Neuropsychiatric genetics: the official publication of the International Society of Psychiatric Genetics 162B(7):587-94. Ong, J. C., et al. 2005. An investigation of the efficacy of mood stabilizers in rodent models of prepulse inhibition. The Journal of pharmacology and experimental therapeutics 315(3):1163-71. Ozburn, A. R., et al. 2016. Functional Implications of the CLOCK 3111T/C Single-Nucleotide Polymorphism. Frontiers in psychiatry 7:67. Rossi, M. A., et al. 2012. Prefrontal cortical mechanisms underlying delayed alternation in mice. Journal of neurophysiology 108(4):1211-22. Sanchez-Morla, E. M., et al. 2016. Prepulse inhibition in euthymic bipolar disorder patients in comparison with control subjects. Acta psychiatrica Scandinavica. Saunders, K. E., and J. R. Geddes 2016 The management of bipolar disorder. British journal of hospital medicine 77(3):175-9. Schulze, T. G., et al. 2010. The International Consortium on Lithium Genetics (ConLiGen): an initiative by the NIMH and IGSLI to study the genetic basis of response to lithium treatment. Neuropsychobiology 62(1):72-8. Sharma, A. N., et al. 2016. Modeling mania in preclinical settings: A comprehensive review. Progress in neuro-psychopharmacology & biological psychiatry 66:22-34. Sidor, M. M., and C. A. McClung 2014. Timing matters: using optogenetics to chronically manipulate neural circuitry and rhythms. Frontiers in behavioral neuroscience 8:41. Stansberg, C., et al. 2011. Gene expression in the rat brain: high similarity but unique differences between frontomedial-, temporal- and occipital cortex. BMC neuroscience 12:15. Suadicani, S. O., C. F. Brosnan, and E. Scemes 2006. P2X7 receptors mediate ATP release and amplification of astrocytic intercellular Ca2+ signaling. The Journal of neuroscience: the official journal of the Society for Neuroscience 26(5):1378-85. Urban, D. J., et al. 2016. Elucidation of The Behavioral Program and Neuronal Network Encoded by Dorsal Raphe Serotonergic Neurons. Neuropsychopharmacology: official publication of the American College of Neuropsychopharmacology 41(5):1404-15. van Enkhuizen, J., et al. 2015. Investigating the underlying mechanisms of aberrant behaviors in bipolar disorder from patients to models: Rodent and human studies. Neuroscience and biobehavioral reviews 58:4-18. Young, J. W., B. L. Henry, and M. A. Geyer 2011. Predictive animal models of mania: hits, misses and future directions. British journal of pharmacology 164(4):1263-84. Yue, F., et al. 2014. A comparative encyclopedia of DNA elements in the mouse genome. Nature 515(7527):355-64.
https://revistas.usb.edu.co/index.php/IJPR/article/view/2648
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https://creativecommons.org/licenses/by-nc-sa/4.0/
International Journal of Psychological Research - 2016
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Universidad San Buenaventura - USB (Colombia)
http://purl.org/coar/resource_type/c_6501
info:eu-repo/semantics/publishedVersion
http://purl.org/coar/version/c_970fb48d4fbd8a85
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Animal models have been broadly used in the study of pathophysiology and molecular and neurochemical pathways in neuropsychiatric diseases. Different approaches have used both consanguineous and non-consanguineous mice models to model behavioral patterns associated with the maniac spectrum. However, the disadvantages of validating clinical and experimental protocols have hindered the replication of these studies. In this article, the advantages and disadvantages of using consanguineous lines and non-consanguineous stocks in mice animal models for the study of mania and its subtypes are discussed. Additionally, new experimental alternatives to advance the pathogenesis and pharmacogenetics of mania using animal models are proposed and analyzed
Cuartas Arias, Jorge Mauricio
Díaz Zuluaga, Ana María
López Jaramilo, Carlos
modelos animales
Journal article
Núm. 2 , Año 2016 : Special Issue of Comparative Psychology
2
trastorno afectivo bipolar
knockout y manía.
123
https://revistas.usb.edu.co/index.php/IJPR/article/download/2648/2377
2016-07-01
113
https://doi.org/10.21500/20112084.2648
10.21500/20112084.2648
2016-07-01T00:00:00Z
2011-7922
2016-07-01T00:00:00Z
2011-2084

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