Lithium regulates glycogen synthase kinase-3beta in human peripheral blood mononuclear cells: implication in the treatment of bipolar disorder
Bipolar disorder has been linked to alterations in the multifunctional enzyme glycogen synthase kinase-3beta (GSK3beta). The mood stabilizer lithium inhibits GSK3beta in vitro and in mouse brain, and this is currently the strongest known potential therapeutic target of lithium. We tested whether lit...
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| Published in | Biological psychiatry (1969) Vol. 61; no. 2; p. 216 |
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| Main Authors | , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
United States
15.01.2007
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| Subjects | |
| Online Access | Get full text |
| ISSN | 0006-3223 |
| DOI | 10.1016/j.biopsych.2006.02.027 |
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| Abstract | Bipolar disorder has been linked to alterations in the multifunctional enzyme glycogen synthase kinase-3beta (GSK3beta). The mood stabilizer lithium inhibits GSK3beta in vitro and in mouse brain, and this is currently the strongest known potential therapeutic target of lithium. We tested whether lithium modified GSK3beta in vivo or in vitro in peripheral blood mononuclear cells (PBMCs) from healthy control and bipolar disorder subjects.
The PBMCs were obtained from 23 healthy control subjects, 9 bipolar subjects currently treated with lithium, and 13 lithium-free bipolar subjects. Immunoblot analyses were used to measure the inhibited, serine9-phosphorylated GSK3beta.
The level of phospho-Ser9-GSK3beta in PBMCs was regulated by agents that modified kinases and phosphatases acting on GSK3beta and was increased by in vitro lithium treatment. More important, phospho-Ser9-GSK3beta levels were eightfold higher in PBMCs from lithium-treated bipolar than healthy control subjects.
Signaling pathways regulating serine9-phosphorylation of GSK3beta can be studied in human PBMCs. Both in vitro and in vivo therapeutic lithium treatment is associated with a large increase in phospho-Ser9-GSK3beta in PBMCs. Therefore, the inhibitory serine9-phosphorylation of GSK3beta in human PBMCs may provide a biochemical marker to evaluate the association between GSK3beta inhibition and therapeutic responses to lithium treatment. |
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| AbstractList | Bipolar disorder has been linked to alterations in the multifunctional enzyme glycogen synthase kinase-3beta (GSK3beta). The mood stabilizer lithium inhibits GSK3beta in vitro and in mouse brain, and this is currently the strongest known potential therapeutic target of lithium. We tested whether lithium modified GSK3beta in vivo or in vitro in peripheral blood mononuclear cells (PBMCs) from healthy control and bipolar disorder subjects.
The PBMCs were obtained from 23 healthy control subjects, 9 bipolar subjects currently treated with lithium, and 13 lithium-free bipolar subjects. Immunoblot analyses were used to measure the inhibited, serine9-phosphorylated GSK3beta.
The level of phospho-Ser9-GSK3beta in PBMCs was regulated by agents that modified kinases and phosphatases acting on GSK3beta and was increased by in vitro lithium treatment. More important, phospho-Ser9-GSK3beta levels were eightfold higher in PBMCs from lithium-treated bipolar than healthy control subjects.
Signaling pathways regulating serine9-phosphorylation of GSK3beta can be studied in human PBMCs. Both in vitro and in vivo therapeutic lithium treatment is associated with a large increase in phospho-Ser9-GSK3beta in PBMCs. Therefore, the inhibitory serine9-phosphorylation of GSK3beta in human PBMCs may provide a biochemical marker to evaluate the association between GSK3beta inhibition and therapeutic responses to lithium treatment. Bipolar disorder has been linked to alterations in the multifunctional enzyme glycogen synthase kinase-3beta (GSK3beta). The mood stabilizer lithium inhibits GSK3beta in vitro and in mouse brain, and this is currently the strongest known potential therapeutic target of lithium. We tested whether lithium modified GSK3beta in vivo or in vitro in peripheral blood mononuclear cells (PBMCs) from healthy control and bipolar disorder subjects.BACKGROUNDBipolar disorder has been linked to alterations in the multifunctional enzyme glycogen synthase kinase-3beta (GSK3beta). The mood stabilizer lithium inhibits GSK3beta in vitro and in mouse brain, and this is currently the strongest known potential therapeutic target of lithium. We tested whether lithium modified GSK3beta in vivo or in vitro in peripheral blood mononuclear cells (PBMCs) from healthy control and bipolar disorder subjects.The PBMCs were obtained from 23 healthy control subjects, 9 bipolar subjects currently treated with lithium, and 13 lithium-free bipolar subjects. Immunoblot analyses were used to measure the inhibited, serine9-phosphorylated GSK3beta.METHODSThe PBMCs were obtained from 23 healthy control subjects, 9 bipolar subjects currently treated with lithium, and 13 lithium-free bipolar subjects. Immunoblot analyses were used to measure the inhibited, serine9-phosphorylated GSK3beta.The level of phospho-Ser9-GSK3beta in PBMCs was regulated by agents that modified kinases and phosphatases acting on GSK3beta and was increased by in vitro lithium treatment. More important, phospho-Ser9-GSK3beta levels were eightfold higher in PBMCs from lithium-treated bipolar than healthy control subjects.RESULTSThe level of phospho-Ser9-GSK3beta in PBMCs was regulated by agents that modified kinases and phosphatases acting on GSK3beta and was increased by in vitro lithium treatment. More important, phospho-Ser9-GSK3beta levels were eightfold higher in PBMCs from lithium-treated bipolar than healthy control subjects.Signaling pathways regulating serine9-phosphorylation of GSK3beta can be studied in human PBMCs. Both in vitro and in vivo therapeutic lithium treatment is associated with a large increase in phospho-Ser9-GSK3beta in PBMCs. Therefore, the inhibitory serine9-phosphorylation of GSK3beta in human PBMCs may provide a biochemical marker to evaluate the association between GSK3beta inhibition and therapeutic responses to lithium treatment.CONCLUSIONSSignaling pathways regulating serine9-phosphorylation of GSK3beta can be studied in human PBMCs. Both in vitro and in vivo therapeutic lithium treatment is associated with a large increase in phospho-Ser9-GSK3beta in PBMCs. Therefore, the inhibitory serine9-phosphorylation of GSK3beta in human PBMCs may provide a biochemical marker to evaluate the association between GSK3beta inhibition and therapeutic responses to lithium treatment. |
| Author | Boswell, Sherer Wang, Li Zhu, Wawa May, Roberta S Li, Xiaohua Jope, Richard S Friedman, Ari B Davis, Lori L |
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| SubjectTerms | Adult Antimanic Agents - pharmacology Antimanic Agents - therapeutic use Bipolar Disorder - drug therapy Bipolar Disorder - physiopathology Brain - drug effects Brain - physiopathology Cytoskeletal Proteins - antagonists & inhibitors Cytoskeletal Proteins - blood Female Humans In Vitro Techniques Lithium Chloride - pharmacology Lithium Chloride - therapeutic use Male Middle Aged Monocytes - drug effects Neuronal Plasticity - drug effects Nuclear Proteins - antagonists & inhibitors Nuclear Proteins - blood Phosphorylation - drug effects Phosphoserine - blood Signal Transduction - drug effects |
| Title | Lithium regulates glycogen synthase kinase-3beta in human peripheral blood mononuclear cells: implication in the treatment of bipolar disorder |
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