Circular RNA: A new expectation for cardiovascular diseases

Circular RNA (circRNA) is a class of RNA with the 5' and 3' ends connected covalently to form a closed loop structure and characterized by high stability, conserved sequences and tissue specificity, which is caused by special reverse splicing methods. Currently, it has become a hot spot for research. With the discovery of its powerful regulatory functions and roles, the molecular mechanisms and future value of circRNA in participating in and regulating biological and pathological processes are becoming increasingly apparent. Among them is the increasing prevalence of cardiovascular diseases (CVDs). Many studies have elucidated that circRNA plays a crucial role in the development and progression of CVDs. Therefore, circRNA shows its advantages and brilliant expectations in the field of CVDs. In this review, we describe the biogenesis, bioinformatics detection and function of circRNA and discuss the role of circRNA and its effects on CVDs, including atherosclerosis, myocardial infarction, cardiac hypertrophy and heart failure, myocardial fibrosis, cardiac senescence, pulmonary hypertension, and diabetic cardiomyopathy by different mechanisms. That shows circRNA advantages and brilliant expectations in the field of CVDs.     

Circular RNA in renal diseases

Circular RNA (circRNA) is a newly described type of non‐coding RNA. Active research is greatly enriching the current understanding of the expression and role of circRNA, and a large amount of evidence has implicated circRNA in the pathogenesis of certain renal diseases, such as renal cell carcinoma, acute kidney injury, diabetic nephropathy and lupus nephritis. Studies have found evidence that circRNAs regulate programmed cell death, invasion, and metastasis and serve as biomarkers in renal diseases. Recently, circRNAs were identified in exosomes secreted by the kidneys. Nevertheless, the function of circRNA in renal diseases remains ambiguous. Given that circRNAs are regulators of gene expression, they may be involved in the pathology of multiple renal diseases. Additionally, emerging evidence is showing that circulating circRNAs may serve as novel biomarkers for renal disease. In this review, we have summarized the identification, biogenesis, degradation, and functions of circRNA and have evaluated the roles of circRNA in renal diseases.     

An autoregulation loop in fust-1 for circular RNA regulation in Caenorhabditis elegans

Many circular RNAs (circRNAs) are differentially expressed in different tissues or cell types, suggestive of specific factors that regulate their biogenesis. Here, taking advantage of available mutation strains of RNA-binding proteins (RBPs) in Caenorhabditis elegans, I performed a screening of circRNA regulation in 13 conserved RBPs. Among them, loss of FUST-1, the homolog of Fused in Sarcoma (FUS), caused downregulation of multiple circRNAs. By rescue experiments, I confirmed FUST-1 as a circRNA regulator. Through RNA sequencing using circRNA-enriched samples, circRNAs targets regulated by FUST-1 were identified globally, with hundreds of them significantly altered. Furthermore, I showed that FUST-1 regulates circRNA formation with only small to little effect on the cognate linear mRNAs. When recognizing circRNA pre-mRNAs, FUST-1 can affect both exon-skipping and circRNA in the same genes. Moreover, I identified an autoregulation loop in fust-1, where FUST-1, isoform a (FUST-1A) promotes the skipping of exon 5 of its own pre-mRNA, which produces FUST-1, isoform b (FUST-1B) with different N-terminal sequences. FUST-1A is the functional isoform in circRNA regulation. Although FUST-1B has the same functional domains as FUST-1A, it cannot regulate either exon-skipping or circRNA formation. This study provided an in vivo investigation of circRNA regulation, which will be helpful to understand the mechanisms that govern circRNA formation.     

条纹斑竹鲨肝脏环形RNA的筛选、鉴定及功能分析北大核心CSCD

为筛选和验证条纹斑竹鲨肝脏中环形RNA(circRNA)及探究其在肝癌细胞HepG2中过表达对肝癌细胞增殖、迁移能力的影响,本研究主要进行了两项实验:对条纹斑竹鲨肝脏circRNA进行高通量测序和预测,随后设计正、反向引物验证其真实性;构建circRNA过表达载体,将其瞬时转染进肝癌细胞HepG2,进行CCK-8和划痕实验来评价其对肝癌细胞增殖和迁移能力的影响。结果显示:预测到有4558条circRNAs,并确认了14条circRNAs的真实性;qRT-PCR实验表明在肝癌细胞HepG2中能瞬时过表达circRNA 13-566、circRNA 4-475、circRNA 5-402、circRNA 294-177、circRNA 30-219;且CCK-8和划痕实验显示,这5条circRNAs过表达后,均能不同程度地抑制肝癌细胞的增殖和迁移能力,其中circRNA 4-475、circRNA 294-177作用尤为显著。上述结果为深入研究条纹斑竹鲨肝脏中circRNA及其在肝再生、肝癌治疗方面的功能提供了新思路和基础。     

环状RNA及其作为疾病标志物的潜能

环状RNA（circular RNA, circRNA）是一种共价闭合环状结构的内源性非编码RNA分子,不具有5′端帽子和3′端poly(A)尾巴结构,具有广泛性、保守性、组织特异性以及稳定性等特性;根据序列来源的不同可分为3种类型：外显子circRNA、内含子circRNA、外显子-内含子circRNA;随着生物信息学的快速发展和高通量测序技术的不断革新,目前已经在真核细胞中发现大量内源性circRNA,主要分布于细胞质中,其独特的序列结构,使它具有microRNA海绵、调节选择性剪接或转录、与RNA结合蛋白结合、滚动翻译和衍生假基因等功能;它参与癌症、糖尿病、神经系统疾病和动脉粥样硬化等疾病发生、发展过程。众多研究显示circRNA会成为新型的疾病临床诊断标志物或人类疾病治疗的潜在靶点,该评述较为详细地从circRNA的形成、特性、生物学功能、研究方法、研究数据库以及和疾病的关系等方面来阐述circRNA的最新研究进展,方便研究人员进行circRNA研究。     

circRNA相关数据库及其应用

环状RNA(circular RNA, circRNA)是由真核生物中的前体mRNA反向剪接产生的环状内源性RNA分子,分布广泛、结构稳定、序列高度保守,具有细胞和组织特异性。circRNA以多种方式参与调控生物学过程以及疾病的发生发展。目前发现的功能模式包含竞争性内源性RNA作用、与蛋白质互作、翻译成蛋白质以及顺式调控亲本基因的转录等。随着circRNA的基本信息、功能分析和与人类疾病的关系等研究内容不断更新增加,急需对海量的信息进行整合分析,以及对相应细胞或组织来源的circRNA进行分类。本文从基本信息整合及分析、相关功能分析和与人类疾病的相关性等方面,对目前常用的circRNA数据库进行综述,以期为circRNA研究提供参考。     

Synthetic circular RNA switches and circuits that control protein expression in mammalian cells

Synthetic messenger RNA (mRNA) has been focused on as an emerging application for mRNA-based therapies and vaccinations. Recently, synthetic circular RNAs (circRNAs) have shown promise as a new class of synthetic mRNA that enables superior stability and persistent gene expression in cells. However, translational control of circRNA remained challenging. Here, we develop ‘circRNA switches’ capable of controlling protein expression from circRNA by sensing intracellular RNA or proteins. We designed microRNA (miRNA) and protein-responsive circRNA switches by inserting miRNA-binding or protein-binding sequences into untranslated regions (UTRs), or Coxsackievirus B3 Internal Ribosome Entry Site (CVB3 IRES), respectively. Engineered circRNAs efficiently expressed reporter proteins without inducing severe cell cytotoxicity and immunogenicity, and responded to target miRNAs or proteins, controlling translation levels from circRNA in a cell type-specific manner. Moreover, we constructed circRNA-based gene circuits that selectively activated translation by detecting endogenous miRNA, by connecting miRNA and protein-responsive circRNAs. The designed circRNA circuits performed better than the linear mRNA-based circuits in terms of persistent expression levels. Synthetic circRNA devices provide new insights into RNA engineering and have a potential for RNA synthetic biology and therapies.     

MiRNA介导circRNA调控肿瘤的发展

CircRNA(circular RNA)是一种具有特殊环形结构的ncRNA(non-coding RNA),并具有多种生物学功能.随着研究的深入,发现circRNA能够通过海绵吸附抑制miRNA(micro RNA)的表达,进而调控各系统肿瘤的发展.此外,一种circRNA也可参与调控一种或多种miRNA的表达,这一...     

Circular RNA circFBXO11 modulates hepatocellular carcinoma progress and oxaliplatin resistance through miR‐605/FOXO3/ABCB1 axis

Increasing findings suggest the critical role of circular RNA (circRNA) in human cancer, and chemotherapy resistance is a poor prognostic factor for hepatocellular carcinoma (HCC). The function of circRNA in the HCC oxaliplatin (OXA) resistance remains largely unknown. In this study, we found that circRNA circFBXO11 was significantly up‐regulated in HCC tissues, and the circFBXO11 overexpression was associated with poor prognosis. CircFBXO11 was found to promote the HCC proliferation, cycle progress and OXA resistance. Mechanistically, circFBXO11 was predominantly localized in the cytoplasm and harboured the miR‐605, thereby targeting FOXO3 protein. Furthermore, FOXO3 targeted the promoter region of ABCB1 to accelerate its expression. In conclusion, this research reveals the role of circFBXO11/miR‐605/FOXO3/ABCB1 axis in the HCC OXA resistance, providing new insight for circRNA‐based diagnostic and therapeutic strategies.     

hsa_circ_0062019 promotes the proliferation,migration,and invasion of prostate cancer cells via the miR-195-5p/HMGA2 axis

Circular RNA (circRNA) is a new class of non-coding RNA.It was reported that circRNA involves in the metastasis of cancer.The aim of this study is to explore th...