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2 results

  • Neuroactive steroids, mood stabilizers, and neuroplasticity: alterations following lithium and changes in Bcl-2 knockout mice

  • Christine E. Marx, Peixiong Yuan, Jason D. Kilts, Roger D. Madison, Lawrence J. Shampine, Husseini K. Manji
  • Journal:
    / Volume 11 / Issue 4 / June 2008
    Published online by Cambridge University Press:
    08 February 2008, pp. 547-552
    Print publication:
    June 2008

  • Many neuroactive steroids (NS) demonstrate neurotrophic and neuroprotective actions, including protection against apoptosis via Bcl-2 protein. NS are altered in post-mortem brain tissue from subjects with bipolar disorder, and several agents with efficacy in mania elevate NS in rodents. We therefore hypothesized that lithium and valproate may elevate NS, and compensatory NS increases may occur in Bcl-2 knockout mice. NS levels (allopregnanolone, pregnenolone) were determined in frontal cortex by negative ion chemical ionization gas chromatography/mass spectrometry in male Wistar Kyoto rats treated chronically with lithium, valproate, or vehicle. NS were also investigated in heterozygous Bcl-2 knockout mice. Allopregnanolone levels are significantly elevated in lithium-treated (p<0.05), but not in valproate-treated, rats. Pregnenolone levels also tend to be higher following lithium treatment (p=0.09). Knockout of Bcl-2 significantly increases pregnenolone levels in mice (p<0.01), while allopregnanolone levels are unaltered. NS induction may be relevant to mechanisms contributing to lithium therapeutic efficacy and neuroprotection.

  • 14 - Pharmacogenetics of anxiolytic drugs and the GABA–benzodiazepine receptor complex

  • from Part V - Specific psychotropic drugs and disorders
  • Edited by Bernard Lerer, Hadassah-Hebrew Medical Center, Jerusalem
  • Book:
    Pharmacogenetics of Psychotropic Drugs
    Published online:
    20 August 2009
    Print publication:
    29 August 2002, pp 300-319

  • Summary

    The benzodiazepines (BDZ) have proven to be both effective and controversial in the treatment of anxiety. New insights into the genetics of the BD2 receptor system may lead to the development of new drugs that act on the γ-aminobutyric acid (GABA) receptor complex and are devoid of the problems associated with the classical BDZs. This pharmacotherapeutic approach has gathered impetus following the discovery of the various subunits of the GABA receptor, which play an important role in the regulation of anxiety and the actions of anxiolytics, and which demonstrate differential brain expression. This chapter discusses the above with reference to recent evidence from animal and human studies, as well as the implications for future anxiolytic treatment strategies. It focuses on the development of the GABA-BDZ receptor field of research. Unlike the BDZ site, the modulation of the GABA receptor by neurosteroids requires the presence of a β-subunit.