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Literature DB >> 27754862

Hypomethylation of CYP11B2 in Aldosterone-Producing Adenoma.

Yoko Yoshii¹, Kenji Oki², Celso E Gomez-Sanchez¹, Haruya Ohno¹, Kiyotaka Itcho¹, Kazuhiro Kobuke¹, Masayasu Yoneda¹.

Abstract

The purpose of this study was to evaluate the DNA methylation levels of steroidogenic enzyme genes in aldosterone-producing adenoma (APA) and the effects of gene mutations in APA on the DNA methylation levels. DNA methylation array analysis was conducted using nonfunctioning adrenocortical adenoma (n=12) and APA (n=35) samples, including some with a KCNJ5 mutation (n=21), an ATP1A1 mutation (n=5), and without the known mutations (n=9). The quantitative polymerase chain reaction assay was performed for the detection of CYP11B2 and CYP11B1 expression levels in nonfunctioning adrenocortical adenoma and APA. We introduced the KCNJ5 T158A mutation using lentivirus delivery in the human adrenocortical 15 cell line, and analyzed the effects of the mutation on DNA methylation levels. We analyzed the 83 presumed DNA methylation sites of steroidogenic enzymes. In APA, we found 7 hypomethylated sites in CYP11B2 and 1 hypomethylated and 6 hypermethylated sites in CYP11B1 There were no differences in the steroidogenic enzymes gene DNA methylation of peripheral leukocytes between nonfunctioning adrenocortical adenoma and APA. No CYP11B2 methylation level was associated with CYP11B2 transcription levels in APA. All methylation sites, except for a CYP11B2 region, showed no difference among APAs with or without gene mutations. Human adrenocortical 15 cells with the KCNJ5 mutation showed no changes in CYP11B2 or CYP11B1 methylation levels compared with control cells. We demonstrated that CYP11B2 in APA was extensively hypomethylated, and CYP11B2 methylation in the region with hypomethylation was not induced by KCNJ5 or ATP1A1 mutations that cause aldosterone overproduction in APA and a KCNJ5 mutation human adrenocortical 15 cells.

Entities: CellLine Chemical Disease Gene Mutation Species

Keywords: DNA methylation; aldosterone; hyperaldosteronism; mutation

Mesh：

Substances：

Year: 2016 PMID： 27754862 PMCID： PMC5159261 DOI： 10.1161/HYPERTENSIONAHA.116.08313

Source DB: PubMed Journal: Hypertension ISSN： 0194-911X Impact factor: 10.190

27 in total

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2. Role of calmodulin-dependent protein kinase II in the acute stimulation of aldosterone production.

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3. Effect of aldosterone-producing adenoma on endothelial function and Rho-associated kinase activity in patients with primary aldosteronism.

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4. Observational study mortality in treated primary aldosteronism: the German Conn's registry.

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5. Quantitative assessment of CYP11B1 and CYP11B2 expression in aldosterone-producing adenomas.

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6. Expression profiles for steroidogenic enzymes in adrenocortical disease.

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7. K+ channel mutations in adrenal aldosterone-producing adenomas and hereditary hypertension.

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8. Pregnancy, Primary Aldosteronism, and Adrenal CTNNB1 Mutations.

Authors: Ada E D Teo; Sumedha Garg; Lalarukh Haris Shaikh; Junhua Zhou; Fiona E Karet Frankl; Mark Gurnell; Lisa Happerfield; Alison Marker; Mariann Bienz; Elena A B Azizan; Morris J Brown
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9. Somatic mutations in ATP1A1 and CACNA1D underlie a common subtype of adrenal hypertension.

Authors: Elena A B Azizan; Hanne Poulsen; Petronel Tuluc; Junhua Zhou; Michael V Clausen; Andreas Lieb; Carmela Maniero; Sumedha Garg; Elena G Bochukova; Wanfeng Zhao; Lalarukh Haris Shaikh; Cheryl A Brighton; Ada E D Teo; Anthony P Davenport; Tanja Dekkers; Bas Tops; Benno Küsters; Jiri Ceral; Giles S H Yeo; Sudeshna Guha Neogi; Ian McFarlane; Nitzan Rosenfeld; Francesco Marass; James Hadfield; Wojciech Margas; Kanchan Chaggar; Miroslav Solar; Jaap Deinum; Annette C Dolphin; I Sadaf Farooqi; Joerg Striessnig; Poul Nissen; Morris J Brown
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10. Gonadotropin-Releasing Hormone Stimulate Aldosterone Production in a Subset of Aldosterone-Producing Adenoma.

Authors: Rui Kishimoto; Kenji Oki; Masayasu Yoneda; Celso E Gomez-Sanchez; Haruya Ohno; Kazuhiro Kobuke; Kiyotaka Itcho; Nobuoki Kohno
Journal: Medicine (Baltimore) Date: 2016-05 Impact factor: 1.889

15 in total

1. The E3 ubiquitin ligase Siah1 regulates adrenal gland organization and aldosterone secretion.

Authors: Marzia Scortegagna; Annabel Berthon; Nikolaos Settas; Andreas Giannakou; Guillermina Garcia; Jian-Liang Li; Brian James; Robert C Liddington; José G Vilches-Moure; Constantine A Stratakis; Ze'ev A Ronai
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2. MiR-193a-3p functions as a tumour suppressor in human aldosterone-producing adrenocortical adenoma by down-regulating CYP11B2.

Authors: Guoxi Zhang; Xiaofeng Zou; Quanliang Liu; Tianpeng Xie; Ruohui Huang; Huan Kang; Changfu Lai; Jiaxing Zhu
Journal: Int J Exp Pathol Date: 2018-04-17 Impact factor: 1.925

3. Association of DNA methylation with steroidogenic enzymes in Cushing's adenoma.

Authors: Takaya Kodama; Kenji Oki; Yu Otagaki; Ryuta Baba; Akira Okada; Kiyotaka Itcho; Kazuhiro Kobuke; Gaku Nagano; Haruya Ohno; Nobuyuki Hinata; Koji Arihiro; Celso E Gomez-Sanchez; Masayasu Yoneda; Noboru Hattori
Journal: Endocr Relat Cancer Date: 2022-06-29 Impact factor: 5.900

Review 4. The landscape of molecular mechanism for aldosterone production in aldosterone-producing adenoma.

Authors: Kenji Oki; Celso E Gomez-Sanchez
Journal: Endocr J Date: 2020-09-24 Impact factor: 2.860

5. Hypomethylation associated vitamin D receptor expression in ATP1A1 mutant aldosterone-producing adenoma.

Authors: Yuta Nanao; Kenji Oki; Kazuhiro Kobuke; Kiyotaka Itcho; Ryuta Baba; Takaya Kodama; Yu Otagaki; Akira Okada; Yoko Yoshii; Gaku Nagano; Haruya Ohno; Koji Arihiro; Celso E Gomez-Sanchez; Noboru Hattori; Masayasu Yoneda
Journal: Mol Cell Endocrinol Date: 2022-03-04 Impact factor: 4.369

Review 6. The Biology of Normal Zona Glomerulosa and Aldosterone-Producing Adenoma: Pathological Implications.

Authors: Teresa M Seccia; Brasilina Caroccia; Elise P Gomez-Sanchez; Celso E Gomez-Sanchez; Gian Paolo Rossi
Journal: Endocr Rev Date: 2018-12-01 Impact factor: 19.871

7. Calneuron 1 Increased Ca²⁺ in the Endoplasmic Reticulum and Aldosterone Production in Aldosterone-Producing Adenoma.

Authors: Kazuhiro Kobuke; Kenji Oki; Celso E Gomez-Sanchez; Elise P Gomez-Sanchez; Haruya Ohno; Kiyotaka Itcho; Yoko Yoshii; Masayasu Yoneda; Noboru Hattori
Journal: Hypertension Date: 2017-11-06 Impact factor: 10.190

8. Endoplasmic Reticulum Chaperone Calmegin Is Upregulated in Aldosterone-Producing Adenoma and Associates With Aldosterone Production.

Authors: Kiyotaka Itcho; Kenji Oki; Celso E Gomez-Sanchez; Elise P Gomez-Sanchez; Haruya Ohno; Kazuhiro Kobuke; Gaku Nagano; Yoko Yoshii; Ryuta Baba; Noboru Hattori; Masayasu Yoneda
Journal: Hypertension Date: 2019-12-23 Impact factor: 10.190

9. Hypothesis on a relationship between hyperaldosteronism, inflammation, somatic mutations, and autoimmunity.

Authors: Decio Armanini; Alessandra Andrisani; Gabriella Donà; Luciana Bordin; Guido Ambrosini; Chiara Sabbadin
Journal: J Clin Hypertens (Greenwich) Date: 2017-08-20 Impact factor: 3.738

Review 10. DNA Methylation of the Angiotensinogen Gene, AGT, and the Aldosterone Synthase Gene, CYP11B2 in Cardiovascular Diseases.

Authors: Yoshimichi Takeda; Masashi Demura; Takashi Yoneda; Yoshiyu Takeda
Journal: Int J Mol Sci Date: 2021-04-27 Impact factor: 5.923