1.Genes Involved in Neurodevelopment, Neuroplasticity and Major Depression: No Association for CACNA1C, CHRNA7 and MAPK1
Marco CALABRÒ ; Laura MANDELLI ; Concetta CRISAFULLI ; Soo Jung LEE ; Tae Youn JUN ; Sheng Min WANG ; Ashwin A PATKAR ; Prakash S MASAND ; Changsu HAN ; Chi Un PAE ; Alessandro SERRETTI
Clinical Psychopharmacology and Neuroscience 2019;17(3):364-368
OBJECTIVE: Genetics factors are likely to play a role in the risk, clinical presentation and treatment outcome in major depressive disorder (MDD). In this study, we investigated the role of three candidate genes for MDD; calcium voltage-gated channel subunit alpha1 C (CACNA1C), cholinergic receptor nicotinic alpha 7 subunit (CHRNA7), and mitogen-activated protein kinase 1 (MAPK1). METHODS: Two-hundred forty-two MDD patients and 326 healthy controls of Korean ancestry served as samples for the analyses. Thirty-nine single nucleotide polymorphisms (SNPs) within CACNA1C, CHRNA7, and MAPK1 genes were genotyped and subsequently tested for association with MDD (primary analysis) and other clinical features (symptoms’ severity, age of onset, history of suicide attempt, treatment outcome) (secondary analyses). Single SNPs, haplotypes and epistatic analyses were performed. RESULTS: Single SNPs were not associated with disease risk and clinical features. However, a combination of alleles (haplotype) within MAPK1 was found associated with MDD-status. Secondary analyses detected a possible involvement of CACNA1C haplotype in resistance to antidepressant treatment. CONCLUSION: These data suggest a role for MAPK1 and CACNA1C in MDD risk and treatment resistance, respectively. However, since many limitations characterize the analysis, the results must be considered with great caution and verified.
Age of Onset
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Alleles
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Calcium
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Depression
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Depressive Disorder, Major
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Genetics
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Haplotypes
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Humans
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Mitogen-Activated Protein Kinase 1
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Neuronal Plasticity
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Polymorphism, Single Nucleotide
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Suicide
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Treatment Outcome
2.Possible Modulatory Role of ARC Gene Variants in Mood Disorders
Concetta CRISAFULLI ; Marco CALABRÒ ; Laura MANDELLI ; Sheng-Min WANG ; Soo-Jung LEE ; Changsu HAN ; Ashwin PATKAR ; Prakash MASAND ; Chi-Un PAE ; Daniel SOUERY ; Julien MENDLEWICZ ; Alessandro SERRETTI
Clinical Psychopharmacology and Neuroscience 2021;19(1):46-52
Objective:
The genetic background of mood disorders is gradually emerging through the use of large multicenter samples but a detailed phenotyping is complementary in elucidating the role of modulating variants.
Methods:
In the present paper we focused on the possible modulatory effects of ARC gene variants on two independent mood disorder samples of European (n = 246 bipolar disorder) and Korean (n = 132 bipolar disorder; n = 242 major depressive disorder [MDD]) ancestry.
Results:
No result survived Bonferroni correction, however we evidenced promising trend toward possible association between ARC gene variants and mood disorder phenotypes. In particular, we evidenced weak correlations of ARC single nucleotide polymorphisms with depressive symptoms severity (evaluated through Hamilton depression rating scale scores) in the MDD Korean (rs7465272) and European (rs11167152) samples. Additionally rs10110456 was found to be related to Family History, while rs7465272 was related to suicide risk in the Korean sample. Finally, rs7465272 was associated with body mass index in the European sample.
Conclusion
Overall, ARC gene variants may have a partial role in modulatory effect on treatment efficacy or phenotypes of mood disorders. Further studies, on larger samples may provide a better understanding on the role of ARC gene variants in the symptom severity and treatment outcomes in patients with mood disorders.
3.ZNF804A Gene Variants Have a Cross-diagnostic Influence on Psychosis and Treatment Improvement in Mood Disorders
Marco CALABRÒ ; Laura MANDELLI ; Concetta CRISAFULLI ; Marco Di NICOLA ; Roberto COLOMBO ; Luigi JANIRI ; Soo-Jung LEE ; Tae-Youn JUN ; Sheng-Min WANG ; Prakash S. MASAND ; Ashwin A. PATKAR ; Changsu HAN ; Chi-Un PAE ; Alessandro SERRETTI
Clinical Psychopharmacology and Neuroscience 2020;18(2):231-240
Objective:
Genetic variations in the gene encoding zinc finger protein 804A gene (ZNF804A) have been associated with major depression and bipolar disorder. In this work we focused on the potential influence of ZNF804A variations on the risk of developing specific sub-phenotypes as well as the individual response to available treatments.
Methods:
We used two samples of different ethnic origin: a Korean sample, composed by 242 patients diagnosed with major depression and 132 patients diagnosed with bipolar disorder and 326 healthy controls; an Italian sample composed 151 major depression subjects, 189 bipolar disorder subjects and 38 outpatients diagnosed for a primary anxiety disorder.
Results:
Our analyses reported an association of rs1344706 with psychotic phenotype in the cross-diagnostic pooled sample (geno p = 4.15 × 10−4, allelic p = 1.06 × 10−4). In the cross-diagnosis Italian sample but not in the Korean one, rs7597593 was involved with depressive symptoms improvement after treatment (geno p = 0.025, allelic p = 0.007).
Conclusion
The present study evidenced the role of ZNF804A alterations in symptoms improvement after treatment. Both manic and depressive symptoms seem to be modulated by ZNF804A, though the latter was observed in the bipolar pooled sample only. The role of this factor is likely related to synaptic development and maintenance; however, further analyses will be needed to better understand the molecular mechanics involved with ZNF804A.