Literature DB >> 11038257

Direct interactions of methamphetamine with the nucleus.

M Asanuma1, T Hayashi, S V Ordonèz, N Ogawa, J L Cadet.   

Abstract

Possible direct effects of methamphetamine (METH) on transcription factors AP-1 and cAMP response element-binding protein (CREB) in the nucleus were assessed by electrophoretic mobility-shift assay. In vitro addition of METH to nuclear extract from brain tissue increased DNA-binding activities of both transcription factors. In addition, injections of METH to mice induced increases in the binding of AP-1 and CREB, which were depleted by preincubating the nuclear extract with anti-METH antibody. We also examined the cellular distribution of METH in mesencephalic neuronal cells using an immunofluorescence experiment with anti-METH antibody. METH-like immunoreactivity was seen to accumulate in the cytosol 4-6 h after the METH treatment. Furthermore, METH-positive signals were also observed in the nuclei of the METH-treated cells. The present study is the first demonstration that METH can have direct effects on DNA-binding protein complex by redistributing not only in the cytosol but also into the nucleus.

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Year:  2000        PMID: 11038257     DOI: 10.1016/s0169-328x(00)00128-5

Source DB:  PubMed          Journal:  Brain Res Mol Brain Res        ISSN: 0169-328X


  10 in total

Review 1.  Methamphetamine-induced neuronal apoptosis involves the activation of multiple death pathways. Review.

Authors:  Jean Lud Cadet; Subramaniam Jayanthi; Xiaolin Deng
Journal:  Neurotox Res       Date:  2005-11       Impact factor: 3.911

Review 2.  Melatonin as a neuroprotective agent in the rodent models of Parkinson's disease: is it all set to irrefutable clinical translation?

Authors:  Naveen Kumar Singhal; Garima Srivastava; Sonal Agrawal; Swatantra Kumar Jain; Mahendra Pratap Singh
Journal:  Mol Neurobiol       Date:  2011-12-24       Impact factor: 5.590

3.  Methamphetamine-induced TNF-alpha gene expression and activation of AP-1 in discrete regions of mouse brain: potential role of reactive oxygen intermediates and lipid peroxidation.

Authors:  Govinder Flora; Yong Woo Lee; Avindra Nath; William Maragos; Bernhard Hennig; Michal Toborek
Journal:  Neuromolecular Med       Date:  2002       Impact factor: 3.843

Review 4.  Nucleus accumbens invulnerability to methamphetamine neurotoxicity.

Authors:  Donald M Kuhn; Mariana Angoa-Pérez; David M Thomas
Journal:  ILAR J       Date:  2011

5.  Methamphetamine enhances cell-associated feline immunodeficiency virus replication in astrocytes.

Authors:  Mikhail A Gavrilin; Lawrence E Mathes; Michael Podell
Journal:  J Neurovirol       Date:  2002-06       Impact factor: 2.643

Review 6.  Methamphetamine toxicity and messengers of death.

Authors:  Irina N Krasnova; Jean Lud Cadet
Journal:  Brain Res Rev       Date:  2009-03-25

Review 7.  Neurotoxicity of substituted amphetamines: molecular and cellular mechanisms.

Authors:  Jean Lud Cadet; Irina N Krasnova; Subramaniam Jayanthi; Johnalyn Lyles
Journal:  Neurotox Res       Date:  2007-04       Impact factor: 3.911

8.  Dopamine is not essential for the development of methamphetamine-induced neurotoxicity.

Authors:  Jie Yuan; Martin Darvas; Bethany Sotak; George Hatzidimitriou; Una D McCann; Richard D Palmiter; George A Ricaurte
Journal:  J Neurochem       Date:  2010-06-01       Impact factor: 5.372

9.  Non-canonical Targets Mediating the Action of Drugs of Abuse: Cocaine at the Sigma-1 Receptor as an Example.

Authors:  Tsung-Ping Su
Journal:  Front Neurosci       Date:  2019-07-23       Impact factor: 4.677

Review 10.  Epigenetic Effects Induced by Methamphetamine and Methamphetamine-Dependent Oxidative Stress.

Authors:  Fiona Limanaqi; Stefano Gambardella; Francesca Biagioni; Carla L Busceti; Francesco Fornai
Journal:  Oxid Med Cell Longev       Date:  2018-07-22       Impact factor: 6.543
  10 in total

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