Anti-bipolar therapy:
mechanism of action of lithium
by
Jope RS
Department of Psychiatry and Behavioral
Neurobiology,
University of Alabama at Birmingham, 35294-0017, USA.
jope@uab.edu
Mol Psychiatry 1999 Mar;
4(2):117-28
ABSTRACT
This review introduces the concepts that
multiple actions of lithium are critical for its therapeutic effect, and
that these complex effects stabilize neuronal activities, support neural
plasticity, and provide neuroprotection. Three interacting systems appear
most critical. (i) Modulation of neurotransmitters by lithium likely
readjusts balances between excitatory and inhibitory activities, and
decreased glutamatergic activity may contribute to neuroprotection. (ii)
Lithium modulates signals impacting on the cytoskeleton, a dynamic system
contributing to neural plasticity, at multiple levels, including glycogen
synthase kinase-3beta, cyclic AMP-dependent kinase, and protein kinase C,
which may be critical for the neural plasticity involved in mood recovery
and stabilization. (iii) Lithium adjusts signaling activities regulating
second messengers, transcription factors, and gene expression. The outcome
of these effects appears likely to result in limiting the magnitudes of
fluctuations in activities, contributing to a stabilizing influence
induced by lithium, and neuroprotective effects may be derived from its
modulation of gene expression.
Mania
5-HT1B
Lithium
Valproate
Gabapentin
Lamotrigine
Lithium at 50
Anticonvulsants
Bipolar disorders
Drugs for bipolars
Lithium
prophylaxis
Lithium
augmentation
Lithium and
depression
Lithium
pharmacokinetics
Recurrent brief
depression
Lithium maintenance:
review
Refs
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