环状RNA在肿瘤中的表达与功能

环状RNA(circular RNA,circRNA)是一类闭合环状的内源RNA分子,广泛存在于不同物种及多种人体细胞中,具有丰富性、稳定性和组织特异性等特点。人体细胞中的circRNA主要可分为外显子circRNA、环状内含子RNA和外显子-内含子circRNA等。与正常组织相比,circRNA在多种肿瘤组织中异常表达,并具有作为微小RNA(microRNA,miRNA)海绵调控miRNA、结合蛋白质、参与翻译等功能。虽然circRNA在肿瘤中异常表达的具体机制尚不明确,但其在食管鳞状细胞癌、胃癌、结直肠癌、肝细胞癌、神经胶质瘤等多种肿瘤发生、发展的分子通路中具有重要作用,并有望成为全新的肿瘤标志物和治疗靶点。circRNA领域的发展日新月异,本文根据最新研究报道,就circRNA的基本特征、异常表达机制、调控肿瘤的机制及其在多种肿瘤中发挥的作用作一综述。     

Genome-wide circular RNA (circRNA) and mRNA profiling identify a circMET-miR-410-3p regulatory motif for cell growth in colorectal cancer

Circular RNA (circRNA) is a non-coding RNA molecule that lacks polyadenylated tails and is highly stable, abundant, and conserved in human cells. CircRNAs can serve as a competing endogenous RNA (ceRNA) to sponge microRNAs (miRNA) and block their effects on target mRNA expression. CircRNAs also have possible relevance to cancer and therefore may be considered as ideal biomarkers for monitoring cancer progression. Of the about 300,000 predicted human circRNAs, only a few have validated biological functions related to cancer. To better understand the ceRNA role of circRNAs in colorectal cancer (CRC), we performed genome-wide circRNA-based RNA-sequencing (RNA-Seq) on nine CRC tumor samples and their paired histologically normal adjacent tissue samples. By profiling the mRNA expression in the same patients, we further explored the expression correlation between circRNAs and mRNAs generated from the same parental gene. Focusing on the concordant differential expression between circRNAs and mRNAs, we substantially reduced the regulatory noise. In total, we identified 694 circRNA-mRNA pairs that were consistently up or downregulated between tumor and normal tissues. These 694 circRNA-mRNA pairs are from 182 protein-coding genes associated with hormone responses and chemotaxis. Of these 182 genes, 43 are downstream targets of three highly conserved miRNAs (miR-410-3p, miR-135a, and miR-30a). Interestingly, these 43 genes are highly mutated in another cohort from eight independent CRC studies, which have significant effects on patient survival time. Focusing on miR-410-3p and its target oncogene MET, we experimentally validated the ceRNA regulatory motif of circMET. Notably, circMET is substantially upregulated in CRC cell lines and could promote cell proliferation and growth. By confirming the regulatory relationship between miR-410-3p and circMET, we propose a new mechanism for the observed sustained activation of MET in CRC. In conclusion, our work identifies a novel regulatory role of circMET and provides a potential diagnostic biomarker for CRC.     

BORIS-mediated generation of circular RNAs induces inflammation

Circular RNAs (circRNAs), which are more stable than linear mRNAs and long non-coding RNAs (LncRNAs), are detected in body fluids such as plasma, serum, and exosomes. Disease-associated circRNAs have significant clinical roles due to their diagnostic and prognostic values. Brother of regulator of imprinting site (BORIS) promotes cancer progression and is specifically highly expressed in the majority of carcinoma. However, the mechanism underlying the regulation of circRNAs by the oncoprotein BORIS and their role in regulating inflammation and immunity remain to be further explored. Vaccines prepared from circRNAs extracted from cancer cells showed that circRNAs induced inflammation and prevented cancer progression. Serum from animals injected with cancer cell-derived circRNAs vigorously reacted with cells that expressed cancer-specific antigen BORIS or cancer extracted circRNAs. It has been implicated that cancer-related circRNAs could be used as antigens to activate immune responses to prevent cancers and stimulate NF-κB signaling pathway by up-regulating and inducing TLR3. In the study we also found that BORIS regulated the expression of circRNAs and interacted with RNA motifs and the CCCTC binding factor (CTCF) motif adjacent to circRNA splicing sites to enhance the formation of circRNAs. Thus, our study delineated the novel mechanism by which cancer-specific antigen BORIS regulated circRNAs and identified that circRNAs could serve as a vaccine for cancer prevention.     

Has_circ_0055625 from circRNA profile increases colon cancer cell growth by sponging miR-106b-5p

Circular RNAs (circRNA) are endogenous noncoding RNAs and play important roles in cancer; however, the roles of circRNAs in colon cancer are far from clear. The circRNA expression profile in colon cancer tissues was analyzed by microarray. The data from microarray showed that there were 198 upregulated and 136 downregulated circRNAs in colon cancer tissues. Among the top 10 upregulated circRNAs, hsa_circ_0055625 (circ_0055625) was confirmed to be significantly upregulated in colon cancer tissues. Further analysis demonstrated that circ_0055625 might get involved in the pathogenesis of colon cancer by functioning as miRNA sponges and performed bioinformatics analysis of the predicted circ_0055625/miR-106b-5p (miR-106b)/ITGB8 network. Moreover, we found that circ_0055625 expression was associated with pathological TNM stage and metastasis. These data indicated that circ_0055625/miR-106b/ITGB8 played a role in promoting tumor growth and metastasis, which suggested that circ_0055625 was a potential biomarker of colon cancer.     

植物环状RNA研究进展北大核心CSCD

随着高通量测序技术的发展,环状RNA (circular RNA, circRNA)逐渐成为非编码RNA研究领域的热点。CircRNA是由3′端下游供体和5′端上游受体经反向剪接形成的共价闭合环状分子,普遍存在于真核生物中。CircRNA过去被认为是错误剪接的副产物,近年来相关研究爆炸式增长,才将这种错误概念推翻。相较于动物中的大量研究,植物circRNA的研究还处于起步阶段。文中从植物circRNA的发现引入,总结了植物circRNA的环化特征、表达特异性、保守性和稳定性等特征;关注了circRNA的鉴定工具、主要类型和生成机制;归纳了植物circRNA作为microRNA(miRNA)海绵和翻译模板的潜在功能,以及在生物/非生物胁迫应答中的重要作用;简单概括了植物circRNA的降解与定位。最后讨论了植物circRNA研究存在的问题并对进一步开展植物circRNA研究进行了展望。     

The emerging function and clinical significance of circRNAs in Thyroid Cancer and Autoimmune Thyroid Diseases

Thyroid cancer (TC) is one of the most common malignant tumors, with high morbidity and mortality rates worldwide. The incidence of TC, especially that of papillary thyroid carcinoma (PTC); has increased rapidly in recent decades. Autoimmune thyroid disease (AITD) is closely related to TC and has an estimated prevalence of 5%. Thus, it is becoming increasingly important to identify potential diagnostic biomarkers and therapeutic targets for TC and AITD. Circular RNAs (circRNAs) are a class of non-coding RNAs with covalently bonded circular structures that lack 5''-3'' polarity and polyadenylated tails. Several circRNAs play crucial roles in the development of various diseases, including TC and AITD, and could be important new biomarkers and/or targets for the diagnosis and therapy of such disorders. Although there are four subtypes of TC, research on circRNA has largely focused on its connection to PTC. Therefore, this review mainly summarizes the relationships between circRNAs and PTC and AITD, including the molecular mechanisms underlying these relationships. In particular, the functions of “miRNA sponges” and their interactions with proteins and RNA are discussed. The possible targeting of circRNAs for the prevention, diagnosis, and treatment of TC and AITD is also described. CircRNAs could be potential biomarkers of TC and AITD, although validation will be required before they can be implemented in clinical practice.     

CircHIPK3 sponges miR‐558 to suppress heparanase expression in bladder cancer cells

Increasing evidences suggest that circular RNAs (circRNAs) exert crucial functions in regulating gene expression. In this study, we perform RNA‐seq and identify 6,154 distinct circRNAs from human bladder cancer and normal bladder tissues. We find that hundreds of circRNAs are significantly dysregulated in human bladder cancer tissues. We further show that circHIPK3, also named bladder cancer‐related circular RNA‐2 (BCRC‐2), is significantly down‐regulated in bladder cancer tissues and cell lines, and negatively correlates with bladder cancer grade, invasion as well as lymph node metastasis, respectively. Over‐expression of circHIPK3 effectively inhibits migration, invasion, and angiogenesis of bladder cancer cells in vitro and suppresses bladder cancer growth and metastasis in vivo. Mechanistic studies reveal that circHIPK3 contains two critical binding sites for the microRNA miR‐558 and can abundantly sponge miR‐558 to suppress the expression of heparanase (HPSE). Taken together, our findings provide evidence that circRNAs act as “microRNA sponges”, and suggest a new therapeutic target for the treatment of bladder cancer.     

Advancement and properties of circular RNAs in prostate cancer: An emerging and compelling frontier for discovering

Prostate cancer (PC) is the most common carcinoma among men worldwide which results in 26% of leading causes of cancer-related death. However, the ideal and effective molecular marker remains elusive. CircRNA, initially observed in plant-infected viruses and Sendai virus in 1979, is generated from pre-mRNA back-splicing and comes in to play by adequate expression. The differential expression in prostate tissues compared with the control reveals the promising capacity in modulating processes including carcinogenesis and metastasis. However, the biological mechanisms of regulatory network in PC needs to systemically concluded. In this review, we enlightened the comprehensive studies on the definite mechanisms of circRNAs affecting tumor progression and metastasis. What''s more, we validated the potential clinical application of circRNAs serving as diagnostic and prognostic biomarker. The discussion and analysis in circRNAs will broaden our knowledge of the pathogenesis of PC and further optimize the current therapies against different condition.     

外泌体环状RNA在肿瘤微环境中的研究进展

外泌体是细胞分泌的30～150 nm的细胞外囊泡,在肿瘤微环境(tumor microenvironment,TME)中介导细胞间通讯,环状RNA(circular RNA,circRNAs)是一类由前体mRNA(precursor mRNA,pre-mRNA)反向剪接生成的非编码RNA(non-codingRNA,n...     

Cigarette smoke extract alters genome‐wide profiles of circular RNAs and mRNAs in primary human small airway epithelial cells

As a novel kind of non‐coding RNA, circular RNAs (circRNAs) were involved in various biological processes. However, the role of circRNAs in the developmental process of chronic obstructive pulmonary disease (COPD) is still unclear. In the present study, by using a cell model of COPD in primary human small airway epithelial cells (HSAECs) treated with or without cigarette smoke extract (CSE), we uncovered 4,379 previously unknown circRNAs in human cells and 903 smoke‐specific circRNAs, with the help of RNA‐sequencing and bioinformatic analysis. Moreover, 3,872 up‐ and 4,425 down‐regulated mRNAs were also identified under CSE stimulation. Furthermore, a putative circRNA‐microRNA‐mRNA network was constructed for in‐depth mechanism exploration, which indicated that differentially expressed circRNAs could influence expression of some key genes that participate in response to pentose phosphate pathway, ATP‐binding cassette (ABC) transporters, glycosaminoglycan biosynthesis pathway and cancer‐related pathways. Our research indicated that cigarette smoke had an influence on the biogenesis of circRNAs and mRNAs. CircRNAs might be involved in the response to CSE in COPD through the circRNA‐mediated ceRNA networks.     

CircRNAs: role in human diseases and potential use as biomarkers

Circular RNAs (circRNAs) are a class of endogenous RNAs characterized by a covalent loop structure. In comparison to other types of RNAs, the abundance of circRNAs is relatively low but due to the circular configuration, their stability is very high. In addition, circRNAs display high degree of tissue specificity. The sponging activity of circRNAs toward microRNAs is the best-described mode of action of circRNAs. However, the ability of circRNAs to bind with specific proteins, as well as to encode short proteins, propose alternative functions. This review introduces the biogenesis of circRNAs and summarizes the roles played by circRNAs in human diseases. These include examples of their functional roles in several organ-specific cancers, such as head and neck and breast and lung cancers. In addition, we review potential functions of circRNAs in diabetes, cardiovascular, and neurodegenerative diseases. Recently, a growing number of studies have demonstrated involvement of circRNAs in a wide spectrum of signaling molecular pathways, but at the same time many different and controversial views on circRNAs role and function are emerging. We conclude by offering cellular homeostasis generated by networks comprising circular RNAs, other non-coding RNAs and RNA-binding proteins. Accordingly, it is predictable that circRNAs, due to their highly stable nature and remarkable tissue specificity, will emerge as reliable biomarkers of disease course and treatment efficacy.Subject terms: Cancer, Cell biology, Molecular biology     

CircRNAs: a new target for the diagnosis and treatment of digestive system neoplasms

A circRNA is a type of endogenous noncoding RNA that consists of a closed circular RNA molecule formed by reverse splicing; these RNAs are widely distributed in a variety of biological cells. In contrast to linear RNAs, circRNAs have no 5′ cap or 3′ poly(A) tail. They have a stable structure, a high degree of conservation, and high stability, and they are richly and specifically expressed in certain tissues and developmental stages. CircRNAs play a very important role in the occurrence and progression of malignant tumors. According to their origins, circRNAs can be divided into four types: exon-derived circRNAs (ecRNAs), intron-derived circRNAs (ciRNAs), circRNAs containing both exons and introns (EIciRNAs) and intergenic circRNAs. A large number of studies have shown that circRNAs have a variety of biological functions, participate in the regulation of gene expression and play an important role in the occurrence and progression of tumors. In this paper, the structure and function of circRNAs are reviewed, along with their biological role in malignant tumors of the digestive tract, in order to provide a reference for the diagnosis and treatment of digestive system neoplasms.Subject terms: Tumour biomarkers, Non-coding RNAs     

RNA circularization strategies in vivo and in vitro

In the plenitude of naturally occurring RNAs, circular RNAs (circRNAs) and their biological role were underestimated for years. However, circRNAs are ubiquitous in all domains of life, including eukaryotes, archaea, bacteria and viruses, where they can fulfill diverse biological functions. Some of those functions, as for example playing a role in the life cycle of viral and viroid genomes or in the maturation of tRNA genes, have been elucidated; other putative functions still remain elusive. Due to the resistance to exonucleases, circRNAs are promising tools for in vivo application as aptamers, trans-cleaving ribozymes or siRNAs. How are circRNAs generated in vivo and what approaches do exist to produce ring-shaped RNAs in vitro? In this review we illustrate the occurrence and mechanisms of RNA circularization in vivo, survey methods for the generation of circRNA in vitro and provide appropriate protocols.     

Identification and characterization of tumorigenic circular RNAs in cervical cancer

Circular RNAs (circRNAs) are a distinctive family of ncRNAs, and they function as key regulators in the initiation, development and progression of various diseases. However, the regulatory roles of circRNAs in the tumorigenesis of cervical cancer (CC) have not been fully understood. In this study, we identified a set of circRNAs in CC and paired normal tissues, using RNA sequencing data, and found that the cancer and normal tissues could be told apart by those differentially expressed (DE) circRNAs, indicating that circRNA expression profiles in CC were significantly different from those in the normal tissues. Meanwhile, the upregulated genes in CC were enriched in inflammation-related pathways, and the correlation analysis between the DE circRNAs and genes revealed that the abundance of DE circRNAs was positively related to the expression of their host genes. However, the expression of TGFBR2 and KDM4C were found to exhibit a negative correlation with their corresponding circRNAs. Furthermore, we also predicted the interactions between circRNAs and proteins, and constructed a competing endogenous RNA (ceRNA) network. Specifically, hsa_circ_0001495 was predicted to interact with ESRP2, and acted as a sponge by competing for miRNAs with TBL1XR1. Functionally, hsa_circ_0001495 was predicted to regulate epithelial cell proliferation and NOTCH signaling via ESRP2 and TBL1XR1, respectively. We also evaluated the prognostic values of downstream target genes of selected circRNAs, using clinical records of CC patients. In summary, the present study provided some regulatory circRNAs involved in CC tumorigenesis based on bioinformatics approaches, which brought strong evidences for researchers to further explore their biological and clinical values.