Pharmacogenetics of Lithium Long-Term Treatment: Focus on Initiation and Adaptation Mechanisms

Serretti, Alessandro; Drago, Antonio

doi:10.1159/000314311

Cited by 15 publications

(12 citation statements)

References 164 publications

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“…The pharmacogenetic response to lithium was the topic of four excellent review papers published in the past 3 years [28–31]. These reviews mostly focused on candidate gene studies where candidate genes were selected, either on the basis of the mechanisms of action of lithium and/or the neurobiology of bipolar disorder.…”

Section: Pharmacogenetics Of Response To Lithiummentioning

confidence: 99%

Genetic Influences on Response to Mood Stabilizers in Bipolar Disorder

Rybakowski

2013

CNS Drugs

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Mood stabilizers form a cornerstone in the long-term treatment of bipolar disorder. The first representative of their family was lithium, still considered a prototype drug for the prevention of manic and depressive recurrences in bipolar disorder. Along with carbamazepine and valproates, lithium belongs to the first generation of mood stabilizers, which appeared in psychiatric treatment in the 1960s. Atypical antipsychotics with mood-stabilizing properties and lamotrigine, which were introduced in the mid-1990s, form the second generation of such drugs. The response of patients with bipolar disorder to mood stabilizers has different levels of magnitude. About one-third of lithium-treated patients are excellent responders, showing total prevention of the episodes, and these patients are clinically characterized by an episodic clinical course, complete remission, a bipolar family history, low psychiatric co-morbidity and a hyperthymic temperament. It has been suggested that responders to carbamazepine or lamotrigine may differ clinically from responders to lithium. The main phenotype of the response to mood stabilizers is a degree of prevention against recurrences of manic and depressive episodes during long-term treatment. The most specific scale in this respect is the so-called Alda scale, where retrospective assessment of lithium response is scored on a 0–10 scale. The vast majority of data on genetic influences on the response to mood stabilizers has been gathered in relation to lithium. The studies on the mechanisms of action of lithium and on the neurobiology of bipolar disorder have led to the identification of a number of candidate genes. The genes studied for their association with lithium response have been those connected with neurotransmitters (serotonin, dopamine and glutamate), second messengers (phosphatidyl inositol [PI], cyclic adenosine-monophosphate [cAMP] and protein kinase C [PKC] pathways), substances involved in neuroprotection (brain-derived neurotrophic factor [BDNF] and glycogen synthase kinase 3-β [GSK-3β]) and a number of other miscellaneous genes. There are no published pharmacogenomic studies of mood stabilizers other than lithium, except for one study of the X-box binding protein 1 (XBP1) gene in relation to the efficacy of valproate. In recent years, a number of genome-wide association studies (GWAS) in bipolar disorders have been performed and some of those have also focused on lithium response. They suggest roles for the glutamatergic receptor AMPA (GRIA2) gene and the amiloride-sensitive cation channel 1 neuronal (ACCN1) gene in long-term lithium response. A promise for better elucidating the genetics of lithium response has been created by the formation of the Consortium on Lithium Genetics (ConLiGen) to establish the largest sample, to date, for the GWAS of lithium response in bipolar disorder. The sample currently comprises more than 1,200 patients, characterized by their response to lithium treatment according to the Alda scale. Preliminary results from this international stud...

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Section: Pharmacogenetics Of Response To Lithiummentioning

confidence: 99%

Genetic Influences on Response to Mood Stabilizers in Bipolar Disorder

Rybakowski

2013

CNS Drugs

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“…However, VEGF mRNA levels in this study were decreased 2 weeks after discontinuation. Interestingly, recent evidences suggest that lithium induces long‐lasting changes (more than 2 weeks after discontinuation) in the expression profile of genes in neurons (Serretti and Drago, ). Thus, it is possible that lithium might induce long‐lasting downregulation of VEGF mRNA levels in the leukocytes.…”

Section: Discussionmentioning

confidence: 97%

“…Lithium is known to exert the effects on neurons such as growth cone enlargement and enhanced adult neurogenesis. The effect may be mediated by depletion of inositol, upregulation of BCL‐2, inhibition of glycogen synthase kinase 3b, altered glutamate receptor trafficking, inhibition of glucocorticoid receptor function, and upregulation of brain‐derived neurotrophic factor; however, the exact molecular mechanism is still unknown (reviewed in Serretti and Drago, ).…”

Section: Introductionmentioning

confidence: 99%

Lithium decreases VEGF mRNA expression in leukocytes of healthy subjects and patients with bipolar disorder

Kikuchi

Iga

Tayoshi

et al. 2011

Hum. Psychopharmacol Clin Exp

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“…Most of these studies have focused on polymorphisms in genes involved in the serotonin or dopamine metabolism pathways, as these are the site of action of many antipsychotics and antidepressants. Comprehensive reviews of the candidate gene literature have been undertaken for lithium response (Serretti & Drago, 2010 ;Smith, Evans, & Craddock, 2010 ), antipsychotic response and side effects (Zhang & Malhotra, 2011 ) and antidepressant response (Kato & Serretti, 2010 ). The most studied variants are the serotonin receptor short/long polymorphism (5HTTLPR) and a 48 bp tandem repeat in the DRD4 gene.…”

Section: Response To Treatment Genomicsmentioning

confidence: 99%