人类 mA-mRNA 和 lncRNA 表观转录组芯片揭示 RNA 甲基化在血红蛋白 H-Constant Spring 病中的作用。

Human mA-mRNA and lncRNA epitranscriptomic microarray reveal function of RNA methylation in hemoglobin H-constant spring disease.

机构信息

Department of Obstetrics and Gynecology, The First Affiliated Hospital of Guangxi Medical University, No. 6 Shuangyong Road, Nanning, Guangxi, China.

Department of Obstetrics and Gynecology, Minzu Hospital of Guangxi, Zhuang Autonomous Region, Affiliated Minzu Hospital of Guangxi Medical University, Nanning, Guangxi, China.

出版信息

Sci Rep. 2021 Oct 14;11(1):20478. doi: 10.1038/s41598-021-99867-9.

DOI:10.1038/s41598-021-99867-9

PMID:34650160

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8516988/

Abstract

The thalassemia of Hemoglobin H-Constant Spring disease (HbH-CS) is the most common type of Thalassemia in non-transfusion thalassemia. Interestingly, the clinical manifestations of the same genotype of thalassemia can be vastly different, likely due to epigenetic regulation. Here, we used microarray technology to reveal the epigenetic regulation of mA in modifiable diseases and demonstrated a role of BCL2A1 in disease regulation. In this study, we revealed that methylating enzyme writers including METTL16, WTAP, CBLL1, RBM15B, and ZC3H13 displayed low expression and the demethylating enzyme ALKBH5, along with reader proteins including IGF2BP2 and YTHDF3 exhibited high expression. In addition, BCL2A1 was hypo-methylated and showed low expression. We also revealed that the BCL2A1 methylation level and IGF2BP2 expression were negatively correlated. Additionally, the mRNAs expression between ALKBH5 and IGF2BP2 were positively correlated. In HbH-CS, most genes were hypo-methylated. This included BCL2A1, which may play an important role in the process of red blood cell differentiation and development of HbH-CS. Moreover, the mRNA-MA methylation status may be regulated by the demethylating enzyme ALKBH5 via IGF2BP2.

摘要

血红蛋白 H-Constant Spring 病（HbH-CS）的地中海贫血是非输血地中海贫血中最常见的地中海贫血类型。有趣的是，同一基因型地中海贫血的临床表现可能大不相同，这可能是由于表观遗传调控所致。在这里，我们使用微阵列技术揭示了 mA 在可修饰疾病中的表观遗传调控，并证明了 BCL2A1 在疾病调控中的作用。在这项研究中，我们揭示了包括 METTL16、WTAP、CBLL1、RBM15B 和 ZC3H13 在内的甲基化酶书写器表达水平较低，而去甲基化酶 ALKBH5 以及包括 IGF2BP2 和 YTHDF3 在内的阅读器蛋白表达水平较高。此外，BCL2A1 呈低甲基化且表达水平较低。我们还发现 BCL2A1 的甲基化水平和 IGF2BP2 的表达呈负相关。此外，ALKBH5 和 IGF2BP2 之间的 mRNA 表达呈正相关。在 HbH-CS 中，大多数基因呈低甲基化。这包括 BCL2A1，它可能在红细胞分化和 HbH-CS 发育过程中发挥重要作用。此外，mRNA-MA 的甲基化状态可能通过 IGF2BP2 被去甲基化酶 ALKBH5 调节。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ecde/8516988/cce00d66f173/41598_2021_99867_Fig1_HTML.jpg

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人类 mA-mRNA 和 lncRNA 表观转录组芯片揭示 RNA 甲基化在血红蛋白 H-Constant Spring 病中的作用。

Human mA-mRNA and lncRNA epitranscriptomic microarray reveal function of RNA methylation in hemoglobin H-constant spring disease.

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