Literature DB >> 17524370

Regulation of neuronal PLCgamma by chronic morphine.

Daniel H Wolf1, Eric J Nestler, David S Russell.   

Abstract

Alterations in neurotrophic signaling pathways may contribute to the changes in the mesolimbic dopamine system induced by chronic morphine exposure. In a rat model of morphine dependence, we previously identified increased levels of phospholipase C gamma-1 (PLCgamma1) immunoreactivity specifically within the ventral tegmental area (VTA) following chronic morphine treatment. Using an antibody specific for the tyrosine-phosphorylated, activated form of PLCgamma1, we now show that chronic morphine also significantly upregulates PLCgamma1 activity in the VTA, as well as in the nucleus accumbens and hippocampus, regions which are also implicated in the reinforcing properties of morphine. In contrast, no increase in PLCgamma1 activity was found in the substantia nigra or dorsal striatum. HSV-mediated overexpression of PLCgamma1 in PC12 cells induced ERK activation via a mechanism dependent, in part, on both MAP-ERK kinase (MEK) and protein kinase C. PLCgamma1 overexpression in the VTA similarly induced ERK activation in the VTA in vivo. As chronic morphine treatment has been shown to increase ERK activity within the VTA, the current results suggest that increased PLCgamma1 activity may be an upstream mediator of this effect.

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Year:  2007        PMID: 17524370      PMCID: PMC2020853          DOI: 10.1016/j.brainres.2007.04.059

Source DB:  PubMed          Journal:  Brain Res        ISSN: 0006-8993            Impact factor:   3.252


  90 in total

1.  Regulation of phospholipase Cgamma in the mesolimbic dopamine system by chronic morphine administration.

Authors:  D H Wolf; S Numan; E J Nestler; D S Russell
Journal:  J Neurochem       Date:  1999-10       Impact factor: 5.372

2.  Protein measurement with the Folin phenol reagent.

Authors:  O H LOWRY; N J ROSEBROUGH; A L FARR; R J RANDALL
Journal:  J Biol Chem       Date:  1951-11       Impact factor: 5.157

3.  Comparison of the signaling mechanisms by which VEGF, H2O2, and phosphatase inhibitors activate endothelial cell ERK1/2 MAP-kinase.

Authors:  Qi Tao; Simone C Spring; Bruce I Terman
Journal:  Microvasc Res       Date:  2005-01       Impact factor: 3.514

4.  Phospholipase C gamma in distinct regions of the ventral tegmental area differentially regulates morphine-induced locomotor activity.

Authors:  Carlos A Bolaños; Rachael L Neve; Eric J Nestler
Journal:  Synapse       Date:  2005-06-01       Impact factor: 2.562

5.  Focal adhesion kinase promotes phospholipase C-gamma1 activity.

Authors:  X Zhang; A Chattopadhyay; Q S Ji; J D Owen; P J Ruest; G Carpenter; S K Hanks
Journal:  Proc Natl Acad Sci U S A       Date:  1999-08-03       Impact factor: 11.205

6.  Regulation of a protein phosphatase cascade allows convergent dopamine and glutamate signals to activate ERK in the striatum.

Authors:  Emmanuel Valjent; Vincent Pascoli; Per Svenningsson; Surojit Paul; Hervé Enslen; Jean-Christophe Corvol; Alexandre Stipanovich; Jocelyne Caboche; Paul J Lombroso; Angus C Nairn; Paul Greengard; Denis Hervé; Jean-Antoine Girault
Journal:  Proc Natl Acad Sci U S A       Date:  2004-12-17       Impact factor: 11.205

7.  Fear conditioning is associated with altered integration of PLC and ERK signaling in the hippocampus.

Authors:  Colin T Buckley; Kevin K Caldwell
Journal:  Pharmacol Biochem Behav       Date:  2004-12       Impact factor: 3.533

8.  Single and repeated stress-induced modulation of phospholipase C catalytic activity and expression: role in LH behavior.

Authors:  Yogesh Dwivedi; Amal C Mondal; Hooriyah S Rizavi; Pradeep K Shukla; Ghanshyam N Pandey
Journal:  Neuropsychopharmacology       Date:  2005-03       Impact factor: 7.853

9.  Lysophosphatidylcholine activates mesangial cell PKC and MAP kinase by PLCgamma-1 and tyrosine kinase-Ras pathways.

Authors:  B V Bassa; D D Roh; N D Vaziri; M A Kirschenbaum; V S Kamanna
Journal:  Am J Physiol       Date:  1999-09

10.  Genetic alteration of phospholipase C beta3 expression modulates behavioral and cellular responses to mu opioids.

Authors:  W Xie; G M Samoriski; J P McLaughlin; V A Romoser; A Smrcka; P M Hinkle; J M Bidlack; R A Gross; H Jiang; D Wu
Journal:  Proc Natl Acad Sci U S A       Date:  1999-08-31       Impact factor: 11.205
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  5 in total

1.  Removal of polysialylated neural cell adhesion molecule increases morphine analgesia and interferes with tolerance in mice.

Authors:  Abderrahman El Maarouf; Yuri Kolesnikov; Gavril Pasternak; Urs Rutishauser
Journal:  Brain Res       Date:  2011-06-14       Impact factor: 3.252

Review 2.  Opiate-induced molecular and cellular plasticity of ventral tegmental area and locus coeruleus catecholamine neurons.

Authors:  Michelle S Mazei-Robison; Eric J Nestler
Journal:  Cold Spring Harb Perspect Med       Date:  2012-07       Impact factor: 6.915

3.  Morphine and cocaine increase serum- and glucocorticoid-inducible kinase 1 activity in the ventral tegmental area.

Authors:  Elizabeth A Heller; Sophia Kaska; Barbara Fallon; Deveroux Ferguson; Pamela J Kennedy; Rachael L Neve; Eric J Nestler; Michelle S Mazei-Robison
Journal:  J Neurochem       Date:  2014-08-26       Impact factor: 5.372

Review 4.  Neurotrophic factors and structural plasticity in addiction.

Authors:  Scott J Russo; Michelle S Mazei-Robison; Jessica L Ables; Eric J Nestler
Journal:  Neuropharmacology       Date:  2008-07-04       Impact factor: 5.250

5.  Effects of Compound 511 on BDNF-TrkB Signaling in the Mice Ventral Tegmental Area in Morphine-Induced Conditioned Place Preference.

Authors:  Han Zhang; Qisheng Wang; Qinmei Sun; Fenfen Qin; Dengyun Nie; Qian Li; Yun Gu; Yongwei Jiang; Shengfeng Lu; Zhigang Lu
Journal:  Cell Mol Neurobiol       Date:  2020-04-22       Impact factor: 5.046
  5 in total

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