Circ_0005075 targeting miR-151a-3p promotes neuropathic pain in CCI rats via inducing NOTCH2 expression.

Neuropathic pain is a most challenging diseases worldwide, caused by the injury of nerve system. CircularRNAs (circRNAs) are revealed to be involved in various diseases, includingneuropathic pain. However, the waycircRNAsparticipate in the progress ofneuropathic painstill needs further study. Identifyingthe possible circRNAexpression patterns of neuropathic painis of great significance to understand its underlying mechanism. Previously, circ_0005075 has been regarded as an important oncogene in multiple cancers and it has been characterized as an inflammation­associated circRNA in various processes. Nevertheless, the functional role of circ_0005075 in neuropathic pain development is still poorly known. In our present study, we observed circ_0005075 was obviously increased in CCI rat models. Knockdown of circ_0005075 repressed thebehaviors of neuropathic pain including mechanical and thermal hyperalgesia. Moreover, loss of circ_0005075 could repress the neuroinflammation via targeting COX-2, IL-6 and TNF-α whereas inducing IL-10 in vivo. Additionally, we predicted miR-151a-3p as the potential target of circ_0005075 using bioinformatics analysis. We displayed that miR-151a-3p was greatly reduced in CCI rats and circ_0005075 reversed the repressive effect of miR-151a-3p on neuropathic pain. For another, NOTCH2 has been shown to induce a variety of intracellular responses correlated withneuropathic pain. Here, we found NOTCH2 expression was strongly induced in CCI rats and miR-151a-3p. In addition, circ_0005075 significantly rescued NOTCH2 expression, which could be repressed by miR-151a-3p. To sum up, we indicated that loss ofcirc_0005075relieved neuropathic pain progression by inducement of miR-151a-3p and inactivation of NOTCH2 signaling.

The roles of circRNAs in cancers: Perspectives from molecular functions.

Circular RNAs (circRNAs), characteristic of covalently closed loops generated by back-splicing, are a subclass of single-stranded RNA molecules. Owing to the circular structures, circRNAs are protected from exonuclease-induced degradation, which makes them more stable compared with linear RNAs. With the development of high-throughput sequencing technology and bioinformatics, the roles of circRNAs in a variety of physiological and pathophysiological processes have been increasingly revealed. Although the functions of most circRNAs remain largely elusive, accumulating studies have identified them as microRNA(miRNA) sponges, protein regulators, transcriptional regulators, protein templates, and so forth. In this review, we briefly describe the biogenesis of circRNAs and provide an overview on their functions in cancers, including miRNA sponges, protein regulators, transcriptional regulators, protein templates. Furthermore, we discuss the potential application of circRNAs as biomarkers and give insight into future perspectives.

Risk assessment of first upper gastrointestinal bleeding using computerized tomoscanning in esophageal varices patients with cirrhosis and portal hypertension.

To evaluate the risk of first upper gastrointestinal bleeding by computerized tomoscanning (CT) for esophageal varices patients with cirrhotic portal hypertension.One hundred thirty two esophageal varices patients with cirrhotic portal hypertension who are also complicated with gastrointestinal bleeding were recruited as bleeding group, while another 132 patients without bleeding as non-bleeding group. The diameter of esophageal varices, number of vascular sections, and total area of blood vessels were measured by CT scanning. The sensitivity and specificity of these indicators were calculated, and Youden index was adjusted with the critical point.The diameter of esophageal varices was 7.83 ±â€Š2.76 mm in bleeding group, and 6.57 ±â€Š3.42 mm in non-bleeding group. The Youden index was 0.32 with the critical point 5.55 mm. The area under the receiver operating characteristics (AUROC) was 0.72. The number of venous vessels was 4.5 ±â€Š2 in bleeding group, whereas being 4 ±â€Š2 in non-bleeding group. The Youden index was 0.35 with a critical point 4, and the area under the curve (AUC) was 0.68. The blood vessel area was 1.73 ±â€Š1.15 cm in bleeding group, and 1.12 ±â€Š0.89 cm in non-bleeding group. The Youden index was 0.48 with the critical point being 1.03 cm, and corresponding AUC was 0.82.Among all 3 indicators of the total area, diameter, and number of sections of the esophageal varices, the total area of esophageal varices showed more accuracy as a potential and novel indicator for bleeding prediction.

Identification of Key Gene Modules of Neuropathic Pain by Co-Expression Analysis.

Neuropathic pain (NP) is a substantial clinical problem causing great injury to people word-widely. Although gene expression analyses had been performed previously, the mechanisms underlying the etiology and development of NP are still poorly understood. To understand the function genes involved in the etiology and development of NP, we built the co-expression modules and performed function enrichment analysis for neuropathic pain. In the present study, from a public microarray data set (GSE69901) from NCBI, gene co-expression modules were contributed with the help of WGCNA for 12 neuropathic pain samples and 13 control samples, respectively. And functional enrichment analyses were followed by DAVID database. Firstly, we established 21 co-expression modules and 19 co-expression modules out of 5,000 high-express genes in NP and control samples, respectively. Then, it showed great difference in interaction relationships of total genes and hub-genes between pairwise modules, which indicated the high confidence of gene co-expression modules. Finally, functional enrichment analysis of the top five co-expression modules in NP exhibited great differences and significant enrichment in transcription regulation of RNA polymerase II promoter and ubiquitin mediated proteolysis pathway. RNA polymerase II promoter and ubiquitin-mediated proteolysis pathway played important role in etiology and development of NP. Anyhow, our findings provided the framework of gene co-expression modules of NP and furthered the understanding of these modules from functional aspect. J. Cell. Biochem. 118: 4436-4443, 2017. © 2017 Wiley Periodicals, Inc.

HMME-based PDT restores expression and function of transporter associated with antigen processing 1 (TAP1) and surface presentation of MHC class I antigen in human glioma.

Numerous studies have established that photodynamic therapy (PDT) can trigger tumor-specific immunity and cancer cell immunogenicity, both of which play a critical role in the long-term control of oncogenesis; however, the underlying mechanisms are largely unexplained. Deficiency of the transporter associated with antigen processing 1 (TAP1) has been observed in a variety of tumors, and the question has been raised whether the restoration of TAP1 could facilitate the activation of antitumor immunity. To elucidate the mechanisms underlying PDT-induced immunopotentiation, we examined the hypothesis that upregulating TAP1 via PDT may contribute to enhancement of antitumor immunity and cancer cell immunogenicity. In this study, we investigated the effects of PDT on the expression and function of TAP1 in glioma cells. We found that HMME-based PDT restored TAP1 expression in a rapid and transient manner. Furthermore, the newly synthesized TAP1 protein was capable of potentiating the activity of transporting antigen peptides. As a result, restoration of the expression and function of TAP1 translated into augmenting the presentation of surface MHC class I molecules. Overall, our data indicate that PDT enables glioma cells to recover both the expression of functional TAP1 and the presentation of surface MHC class I antigens, which are processes that may enhance antitumor immunity after PDT. These findings may have implications for PDT and provide new insights into the mechanisms underlying PDT-induced immunopotentiation.