Your search keyword '"CACNA1C"' showing total 8 results

1. Disrupted Cacna1c gene expression perturbs spontaneous Ca2+ activity causing abnormal brain development and increased anxiety

Author

Smedler, Erik, Louhivuori, Lauri, Romanov, Roman A., Masini, Debora, Ellstrom, Ivar Dehnisch, Wang, Chunliang, Caramia, Martino, West, Zoe, Zhang, Songbai, Rebellato, Paola, Malmersjo, Seth, Brusini, Irene, Kanatani, Shigeaki, Fisone, Gilberto, Harkany, Tibor, Uhlen, Per, Smedler, Erik, Louhivuori, Lauri, Romanov, Roman A., Masini, Debora, Ellstrom, Ivar Dehnisch, Wang, Chunliang, Caramia, Martino, West, Zoe, Zhang, Songbai, Rebellato, Paola, Malmersjo, Seth, Brusini, Irene, Kanatani, Shigeaki, Fisone, Gilberto, Harkany, Tibor, and Uhlen, Per

Abstract

The L-type voltage-gated Ca2+ channel gene CACNA1C is a risk gene for various psychiatric conditions, including schizophrenia and bipolar disorder. However, the cellular mechanism by which CACNA1C contributes to psychiatric disorders has not been elucidated. Here, we report that the embryonic deletion of Cacna1c in neurons destined for the cerebral cortex using an Emx1-Cre strategy disturbs spontaneous Ca2+ activity and causes abnormal brain development and anxiety. By combining computational modeling with electrophysiological membrane potential manipulation, we found that neural network activity was driven by intrinsic spontaneous Ca2+ activity in distinct progenitor cells expressing marginally increased levels of voltage-gated Ca2+ channels. MRI examination of the Cacna1c knockout mouse brains revealed volumetric differences in the neocortex, hippocampus, and periaqueductal gray. These results suggest that Cacna1c acts as a molecular switch and that its disruption during embryogenesis can perturb Ca2+ handling and neural development, which may increase susceptibility to psychiatric disease., QC 20220411

Published

2022

2. The association of anxiety and other clinical features with CACNA1C rs1006737 in patients with depression

Author

Dam, Henrik, Buch, Jens O. D., Nielsen, Annelaura B., Weikop, Pia, Jørgensen, Martin B., Dam, Henrik, Buch, Jens O. D., Nielsen, Annelaura B., Weikop, Pia, and Jørgensen, Martin B.

Abstract

Background The CACNA1C protein is a L-type calcium channel, which influence affective disorders. Purpose The purpose of the present study was to examine the possible association between the different genotypes of rs100677 CACNA1C gene and anxiety and other clinical symptoms in patients with unipolar depression. Patients and controls A total of 754 patients and 708 controls from the Danish Psychiatric Biobank participated. Results A significant correlation was found between anxiety and the A allele. It was further found that patients with the A allele more often were treated with electroconvulsive therapy and patients with the AA phenotype had the highest age. Limitations The only information about controls was their sex and that they were recruited from the blood bank. Two types of inclusion criteria were used. The clinical data were not complete for all patients.

Published

2022

3. The association of anxiety and other clinical features with CACNA1C rs1006737 in patients with depression

Author

Dam, Henrik, Buch, Jens O. D., Nielsen, Annelaura B., Weikop, Pia, Jørgensen, Martin B., Dam, Henrik, Buch, Jens O. D., Nielsen, Annelaura B., Weikop, Pia, and Jørgensen, Martin B.

Abstract

Background The CACNA1C protein is a L-type calcium channel, which influence affective disorders. Purpose The purpose of the present study was to examine the possible association between the different genotypes of rs100677 CACNA1C gene and anxiety and other clinical symptoms in patients with unipolar depression. Patients and controls A total of 754 patients and 708 controls from the Danish Psychiatric Biobank participated. Results A significant correlation was found between anxiety and the A allele. It was further found that patients with the A allele more often were treated with electroconvulsive therapy and patients with the AA phenotype had the highest age. Limitations The only information about controls was their sex and that they were recruited from the blood bank. Two types of inclusion criteria were used. The clinical data were not complete for all patients.

Published

2022

4. Genetic variants associated with psychotic symptoms across psychiatric disorders

Author

Calabrò, Marco, Porcelli, Stefano, Crisafulli, Concetta, Albani, Diego, Kasper, Siegfried, Zohar, Joseph, Souery, Daniel, Montgomery, Stuart, Mantovani, Vilma, Mendlewicz, Julien, Bonassi, Stefano, Vieta, Eduard, Frustaci, Alessandra, Ducci, Giuseppe, Landi, Stefano, Boccia, Stefania, Bellomo, Antonello, Di Nicola, Marco, Janiri, Luigi, Colombo, Roberto, Benedetti, Francesco, Mandelli, Laura, Fabbri, Chiara, Serretti, Alessandro, Calabrò, Marco, Porcelli, Stefano, Crisafulli, Concetta, Albani, Diego, Kasper, Siegfried, Zohar, Joseph, Souery, Daniel, Montgomery, Stuart, Mantovani, Vilma, Mendlewicz, Julien, Bonassi, Stefano, Vieta, Eduard, Frustaci, Alessandra, Ducci, Giuseppe, Landi, Stefano, Boccia, Stefania, Bellomo, Antonello, Di Nicola, Marco, Janiri, Luigi, Colombo, Roberto, Benedetti, Francesco, Mandelli, Laura, Fabbri, Chiara, and Serretti, Alessandro

Abstract

Background: Recent evidence suggests that psychiatric symptoms share a common genetic liability across diagnostic categories. The present study investigated the effects of variants within previously identified relevant genes on specific symptom clusters, independently from the diagnosis. Methods: 1550 subjects affected by Schizophrenia (SCZ), Major Depressive Disorder or Bipolar Disorder were included. Symptoms were assessed using the Positive and Negative Syndrome Scale (PANSS) and the Hamilton Depression Rating Scale (HDRS). Principal component analysis and a further clinical refinement were used to define symptom clusters. Clusters scores were tested for association with 46 genetic variants within nine genes previously linked to one or more major psychiatric disorders by large genome wide association studies (ANK3, CACNA1C, CACNB2, FKBP5, FZD3, GRM7, ITIH3, SYNE1, TCF4). Exploratory analyses were performed in each disorder separately to further elucidate the SNPs effects. Results: five PANSS clusters (Negative; Impulsiveness; Cognitive; Psychotic; Depressive) and four HDRS clusters (Core Depressive; Somatic; Psychotic-like; Insomnia) were identified. CACNA1C rs11615998 was associated with HDRS Psychotic cluster in the whole sample. In the SCZ sample, CACNA1C rs11062296 was associated with PANSS Impulsiveness cluster and CACNA1C rs2238062 was associated with PANSS negative cluster. Discussion: CACNA1C rs11615998 was associated with psychotic symptoms (C-allele carriers have decreased psychotic-risk) independently from the diagnosis, in line with the evidence of a cross disorder effect of many risk variants. This gene was previously associated with SCZ and cross-disorder liability to psychiatric disorders. Our findings confirmed that deep phenotyping is pivotal to clarify the role of genetic variants on symptoms patterns., SCOPUS: ar.j, DecretOANoAutActif, info:eu-repo/semantics/published

Published

2020

5. Genetic variants associated with psychotic symptoms across psychiatric disorders

Author

Calabro, M., Porcelli, S., Crisafulli, C., Albani, D., Kasper, S., Zohar, J., Souery, D., Montgomery, S., Mantovani, V., Mendlewicz, J., Bonassi, S., Vieta, E., Frustaci, A., Ducci, G., Landi, S., Boccia, Stefania, Bellomo, A., Di Nicola, Marco, Janiri, Luigi, Colombo, R., Benedetti, F., Mandelli, L., Fabbri, C., Serretti, A., Boccia S. (ORCID:0000-0002-1864-749X), Di Nicola M. (ORCID:0000-0001-7457-0426), Janiri L. (ORCID:0000-0002-1633-9418), Calabro, M., Porcelli, S., Crisafulli, C., Albani, D., Kasper, S., Zohar, J., Souery, D., Montgomery, S., Mantovani, V., Mendlewicz, J., Bonassi, S., Vieta, E., Frustaci, A., Ducci, G., Landi, S., Boccia, Stefania, Bellomo, A., Di Nicola, Marco, Janiri, Luigi, Colombo, R., Benedetti, F., Mandelli, L., Fabbri, C., Serretti, A., Boccia S. (ORCID:0000-0002-1864-749X), Di Nicola M. (ORCID:0000-0001-7457-0426), and Janiri L. (ORCID:0000-0002-1633-9418)

Abstract

Background: Recent evidence suggests that psychiatric symptoms share a common genetic liability across diagnostic categories. The present study investigated the effects of variants within previously identified relevant genes on specific symptom clusters, independently from the diagnosis. Methods: 1550 subjects affected by Schizophrenia (SCZ), Major Depressive Disorder or Bipolar Disorder were included. Symptoms were assessed using the Positive and Negative Syndrome Scale (PANSS) and the Hamilton Depression Rating Scale (HDRS). Principal component analysis and a further clinical refinement were used to define symptom clusters. Clusters scores were tested for association with 46 genetic variants within nine genes previously linked to one or more major psychiatric disorders by large genome wide association studies (ANK3, CACNA1C, CACNB2, FKBP5, FZD3, GRM7, ITIH3, SYNE1, TCF4). Exploratory analyses were performed in each disorder separately to further elucidate the SNPs effects. Results: five PANSS clusters (Negative; Impulsiveness; Cognitive; Psychotic; Depressive) and four HDRS clusters (Core Depressive; Somatic; Psychotic-like; Insomnia) were identified. CACNA1C rs11615998 was associated with HDRS Psychotic cluster in the whole sample. In the SCZ sample, CACNA1C rs11062296 was associated with PANSS Impulsiveness cluster and CACNA1C rs2238062 was associated with PANSS negative cluster. Discussion: CACNA1C rs11615998 was associated with psychotic symptoms (C-allele carriers have decreased psychotic-risk) independently from the diagnosis, in line with the evidence of a cross disorder effect of many risk variants. This gene was previously associated with SCZ and cross-disorder liability to psychiatric disorders. Our findings confirmed that deep phenotyping is pivotal to clarify the role of genetic variants on symptoms patterns.

Published

2020

6. Transcriptional control of muscle cell excitation-contraction coupling:the role of activity and mitochondrial function

Author

Tavi, P. (Pasi), Vuolteenaho, O. (Olli), Hänninen, S. L. (Sandra Lynn), Tavi, P. (Pasi), Vuolteenaho, O. (Olli), and Hänninen, S. L. (Sandra Lynn)

Abstract

Cardiac and skeletal muscle cell contraction is a result of excitation-contraction coupling (ECC), where an electrical signal leads to a rise in intracellular calcium levels and contraction. This process is carefully regulated to meet physiological demand and heavily dependent on an adequate energy supply. Disturbed ECC can have severe consequences on muscle cell function and underlies many cardiac and skeletal muscle pathologies. Cell stress, changing intracellular Ca²⁺ concentrations, and calcium signal dynamics can all play a role in the transcriptional regulation of genes involved in myocyte Ca²⁺-handling. In this thesis project, the transcriptional control of ECC was studied in skeletal and cardiac myocytes. Skeletal myocyte calsequestrin (CASQ1) was downregulated in a mouse model of mitochondrial myopathy and it contributed to the decreased SR Ca²⁺ load and impaired Ca²⁺ handling in Tfam-/- skeletal myocytes. In cultured neonatal cardiomyocytes, mitochondrial uncoupler FCCP-induced mitochondrial dysfunction led to downregulation of cardiac calsequestrin (CASQ2) and similarly impaired Ca²⁺ handling. Whereas there was no increase in reactive oxygen species (ROS) levels in Tfam-/- myocytes, cultured cells exposed to FCCP did display increased ROS, an effect that was counteracted by coexposure with the ROS scavenger (NAC). NAC attenuated FCCP-induced CASQ2 downregulation and restored Ca²⁺ handling. Therefore, mitochondrial dysfunction led to CASQ1/2 downregulation and impaired Ca²⁺ handling in these two cell types, but by different mechanisms. This project also looked at the role of Ca²⁺ dynamics on the transcriptional regulation of Ca²⁺ handling genes. Increased intracellular Ca²⁺ levels and β-adrenergic stimulation of cardiomyocytes activate Ca²⁺-calmodulin kinase II (CaMKII) and can trigger hypertrophic remodeling. It was found that CaMKII downregulated expression of the L-type Ca²⁺ channel α1c-subunit (Cacna1c) in cultured cardiomyocytes. An, Tiivistelmä Sydän- ja luustolihassolujen supistuminen on seurausta ärsytys-supistuskytkennästä (ECC), jossa sähköinen ärsytys kohottaa solunsisäistä kalsiumpitoisuutta ja aiheuttaa supistuksen. Tätä säädellään tarkasti fysiologisen tarpeen mukaan, ja se riippuu riittävästä energian saannista. Häiriintynyt ECC voi aiheuttaa vakavia seurauksia lihassolujen toiminnalle, ja se on mukana monien sydän- ja luustolihasten sairauksien synnyssä. Tässä tutkimuksessa ECC:n transkriptionaalista säätelyä tutkittiin luustolihasten ja sydämen lihassoluissa. Luustolihassolujen kalsekvestriinin (CASQ1) väheneminen pienensi SR:n Ca²⁺-määrää mitokondrioiden myopatian hiirimallissa ja heikensi Ca²⁺-tasapainon ylläpitoa Tfam-/--luustolihassoluissa. Viljellyissä vastasyntyneiden kammio-sydänlihassoluissa mitokondrio-irtikytkijän FCCP:n aiheuttama mitokondrioiden toimintahäiriö johti sydämen kalsekvestriinin (CASQ2) vähenemiseen ja heikensi samalla tavalla Ca²⁺-tasapainon ylläpitoa. Vaikka Tfam-/--myosyyteissä reaktiivisten happilajien (ROS) tasot eivät olleet koholla, FCCP:lle altistetuissa viljellyissä soluissa ROS kuitenkin lisääntyi. Vaikutusta esti ROS-puhdistaja NAC, joka heikensi FCCP:n aiheuttamaa CASQ2:n laskua ja palautti Ca²⁺-säätelyn normaaliksi. Mitokondrioiden toimintahäiriö siis johti CASQ1/2:n vähenemiseen ja Ca²⁺-säätelyn heikentymiseen molemmissa solutyypeissä, mutta eri mekanismeilla. Tässä tutkimuksessa tarkasteltiin myös Ca²⁺-dynamiikan osuutta Ca²⁺-tasapainoon osallistuvien geenien transkription säätelyssä. Lisääntynyt solunsisäinen Ca²⁺-taso ja sydänlihassolujen β-adrenerginen stimulointi aktivoivat Ca²⁺-kalmoduliinikinaasi II:n (CaMKII), ja ne voivat laukaista sydämen hypertrofisen uudelleenmuovautumisen. Havaittiin, että CaMKII vähensi L-tyypin Ca²⁺-kanavan a1c-alayksikön (Cacna1c) ilmentymistä viljellyissä sydänlihassoluissa. Promoottorianalyysi osoitti tämän johtuvan transkription repressorin DREAM:n sitoutumisesta oletettuun DRE:hen (alavirrassa sijaitseva

Published

2019

7. The effects of CACNA1C gene polymorphism on spatial working memory in both healthy controls and patients with schizophrenia or bipolar disorder.

Author

Zhang, Qiumei, Zhang, Qiumei, Shen, Qiuge, Xu, Zhansheng, Chen, Min, Cheng, Lina, Zhai, Jinguo, Gu, Huang, Bao, Xin, Chen, Xiongying, Wang, Keqin, Deng, Xiaoxiang, Ji, Feng, Liu, Chuanxin, Li, Jun, Dong, Qi, Chen, Chuansheng, Zhang, Qiumei, Zhang, Qiumei, Shen, Qiuge, Xu, Zhansheng, Chen, Min, Cheng, Lina, Zhai, Jinguo, Gu, Huang, Bao, Xin, Chen, Xiongying, Wang, Keqin, Deng, Xiaoxiang, Ji, Feng, Liu, Chuanxin, Li, Jun, Dong, Qi, and Chen, Chuansheng

Abstract

CACNA1C gene polymorphism (rs1006737) is a susceptibility factor for both schizophrenia (SCZ) and bipolar disorder (BP). However, its role in working memory, a cognitive function that is impaired in both diseases, is not clear. Using three samples, including healthy controls, patients with SCZ, and patients currently in manic episodes of BP, this study tested the association between the SNP rs1006737 and spatial working memory as measured by an N-back task and a dot pattern expectancy (DPX) task. Among SCZ patients and healthy controls, the clinical risk allele was associated with impaired working memory, but the association was either in opposite direction or non-significant in patients with BP. These results indicated that rs1006737 may have differential effects on working memory in different disease populations and pointed to the necessity for more studies in different patient populations.

Published

2012

8. The effects of CACNA1C gene polymorphism on spatial working memory in both healthy controls and patients with schizophrenia or bipolar disorder.

Author

Zhang, Qiumei, Zhang, Qiumei, Shen, Qiuge, Xu, Zhansheng, Chen, Min, Cheng, Lina, Zhai, Jinguo, Gu, Huang, Bao, Xin, Chen, Xiongying, Wang, Keqin, Deng, Xiaoxiang, Ji, Feng, Liu, Chuanxin, Li, Jun, Dong, Qi, Chen, Chuansheng, Zhang, Qiumei, Zhang, Qiumei, Shen, Qiuge, Xu, Zhansheng, Chen, Min, Cheng, Lina, Zhai, Jinguo, Gu, Huang, Bao, Xin, Chen, Xiongying, Wang, Keqin, Deng, Xiaoxiang, Ji, Feng, Liu, Chuanxin, Li, Jun, Dong, Qi, and Chen, Chuansheng

Abstract

CACNA1C gene polymorphism (rs1006737) is a susceptibility factor for both schizophrenia (SCZ) and bipolar disorder (BP). However, its role in working memory, a cognitive function that is impaired in both diseases, is not clear. Using three samples, including healthy controls, patients with SCZ, and patients currently in manic episodes of BP, this study tested the association between the SNP rs1006737 and spatial working memory as measured by an N-back task and a dot pattern expectancy (DPX) task. Among SCZ patients and healthy controls, the clinical risk allele was associated with impaired working memory, but the association was either in opposite direction or non-significant in patients with BP. These results indicated that rs1006737 may have differential effects on working memory in different disease populations and pointed to the necessity for more studies in different patient populations.

Published

2012