BACKGROUND: A series of studies from independent laboratories have found increased levels of G(s)alpha in bipolar disorder in postmortem brain and peripheral blood cells. Long-term lithium administration blunts G-protein coupled cAMP signaling and may regulate G(s)alpha levels. METHODS: We measured G(s)alpha in transformed lymphoblasts obtained from subjects with bipolar disorder and compared the findings with 23 age- and sex-matched controls. To reduce patient heterogeneity, we included only patients with an excellent response to lithium prophylaxis. RESULTS: We found no differences in G(s)alpha protein levels measured with immunoblotting. G(s)alpha levels did not correlate with age, age of onset or duration of lithium therapy. LIMITATIONS: This study made use of transformed lymphoblasts, which may not fully represent changes that occur in regionalized brain tissue. Furthermore, the transformed lymphoblasts used in this study were acquired from a select group of bipolar disorder subjects that responded to lithium treatment. Lastly, consideration has to be given to the small sample size of the study. CONCLUSIONS: These results are consistent with recent observations suggesting that mood state and treatment effects may account at least in part for increased G(s)alpha levels in bipolar disorder. CLINICAL RELEVANCE: This study suggests a need to further characterize biological phenotypes in subjects with mood disorders to enhance genetic studies.
BACKGROUND: A series of studies from independent laboratories have found increased levels of G(s)alpha in bipolar disorder in postmortem brain and peripheral blood cells. Long-term lithium administration blunts G-protein coupled cAMP signaling and may regulate G(s)alpha levels. METHODS: We measured G(s)alpha in transformed lymphoblasts obtained from subjects with bipolar disorder and compared the findings with 23 age- and sex-matched controls. To reduce patient heterogeneity, we included only patients with an excellent response to lithium prophylaxis. RESULTS: We found no differences in G(s)alpha protein levels measured with immunoblotting. G(s)alpha levels did not correlate with age, age of onset or duration of lithium therapy. LIMITATIONS: This study made use of transformed lymphoblasts, which may not fully represent changes that occur in regionalized brain tissue. Furthermore, the transformed lymphoblasts used in this study were acquired from a select group of bipolar disorder subjects that responded to lithium treatment. Lastly, consideration has to be given to the small sample size of the study. CONCLUSIONS: These results are consistent with recent observations suggesting that mood state and treatment effects may account at least in part for increased G(s)alpha levels in bipolar disorder. CLINICAL RELEVANCE: This study suggests a need to further characterize biological phenotypes in subjects with mood disorders to enhance genetic studies.
Authors: Michael Tseng; Martin Alda; Li Xu; Xiujun Sun; Jun-Feng Wang; Paul Grof; Gustavo Turecki; Guy Rouleau; L Trevor Young Journal: J Psychiatry Neurosci Date: 2008-09 Impact factor: 6.186
Authors: J G Hunsberger; F L Chibane; A G Elkahloun; R Henderson; R Singh; J Lawson; C Cruceanu; V Nagarajan; G Turecki; A Squassina; C D Medeiros; M Del Zompo; G A Rouleau; M Alda; D-M Chuang Journal: Transl Psychiatry Date: 2015-02-03 Impact factor: 6.222