Hsa_circ_0015278 Regulates FLT3-ITD AML Progression via Ferroptosis-Related Genes.

AML with the FLT3-ITD mutation seriously threatens human health. The mechanism by which circRNAs regulate the pathogenesis of FLT3-ITD mutant-type AML through ferroptosis-related genes (FerRGs) remains unclear. Differentially expressed circRNAs and mRNAs were identified from multiple integrated data sources. The target miRNAs and mRNAs of the circRNAs were predicted using various databases. The PPI network, ceRNA regulatory network, GO, and KEGG enrichment analyses were performed. The "survival" and the "pROC" R packages were used for K-M and ROC analysis, respectively. GSEA, immune infiltration analysis, and clinical subgroup analysis were performed. Finally, circRNAs were validated by Sanger sequencing and qRT-PCR. In our study, 77 DECircs-1 and 690 DECircs-2 were identified. Subsequently, 11 co-up-regulated DECircs were obtained by intersecting DECircs-1 and DECircs-2. The target miRNAs of the circRNAs were screened by CircInteractome, circbank, and circAtlas. Utilizing TargetScan, ENCORI, and miRWalk, the target mRNAs of the miRNAs were uncovered. Ultimately, 73 FerRGs were obtained, and the ceRNA regulatory network was constructed. Furthermore, MAPK3 and CD44 were significantly associated with prognosis. qRT-PCR results confirmed that has_circ_0015278 was significantly overexpressed in FLT3-ITD mutant-type AML. In summary, we constructed the hsa_circ_0015278/miRNAs/FerRGs signaling axis, which provides new insight into the pathogenesis and therapeutic targets of AML with FLT3-ITD mutation.

Down-regulation of lncRNA Gas5 promotes hypoxia-induced pulmonary arterial smooth muscle cell proliferation by regulating KCNK3 expression.

Pulmonary hypertension (PH) is a progressive and potentially serious lung disease, defined by an abnormal elevation of pulmonary arterial pressure. PH occurs for many reasons, and hypoxia is considered as an important stimulus for the disease. Proliferation and migration of pulmonary artery smooth muscular cells (PASMCs) in the small peripheral pulmonary arteries are common characteristic features in hypoxia-induced PH (HPH). However, the mechanisms involved in the hypoxia-induced cell proliferation and migration are not clear. The aim of the present study was to investigate the role of lncRNA Gas5 in the hypoxia-stimulated proliferation and migration of human PASMCs (hPASMCs). We found that the expression of Gas5 was down-regulated in a rat model with hypoxia and in cultured hypoxic hPASMCs, and silence of Gas5 significantly promoted hPASMCs proliferation and migration in both normal and hypoxia condition. Subsequent studies revealed that miR-23b-3p interacted with Gas5 by directly targeting the miRNA-binding site in the Gas5 sequence, and qRT-PCR results showed miR-23b-3p and Gas5 could affect each other's expression, respectively. Further study demonstrated that Gas5 acted as a competing endogenous RNA (ceRNA) for miR-23b-3p to modulate the KCNK3 expression, and these interactions led to promotion of hPASMCs proliferation and migration. This study identified that Gas5/miR-23b-3p/KCNK3 axis may be a mechanism that hypoxia-induced PASMCs proliferation and migration, providing a strategy for clinical treatment of HPH in the future.

A Novel Design Combining Isothermal Exponential Amplification and Gold-Nanoparticles Visualization for Rapid Detection of miRNAs.

MicroRNAs (miRNAs) play important roles in a wide range of biological processes, and their aberrant expressions are associated with various diseases. The levels of miRNAs can be useful biomarkers for cellular events or disease diagnosis; thus, sensitive and selective detection of microRNAs is of great significance in understanding biological functions of miRNAs, early-phase diagnosis of cancers, and discovery of new targets for drugs. However, traditional approaches for the detection of miRNAs are usually laborious and time-consuming, with a low sensitivity. Here, we develop a simple, rapid, ultrasensitive colorimetric assay based on the combination of isothermal Exponential Amplification Reaction (EXPAR) and AuNP-labeled DNA probes for the detection of miRNAs (taking let-7a as a model analyte). In this assay, the presence of let-7a is converted to the reporter Y through EXPAR under isothermal conditions. The subsequent sandwich hybridization of the reporter Y with the AuNP-labeled DNA probes generates a red-to-purple color change. In other words, if the reporter Y is complementary to the AuNP-labeled DNA probes, the DNA-functionalized AuNPs will be aggregated, resulting in the change of solution color from red to purple/blue, while when the AuNP-labeled DNA probes are mismatched to the reporter Y, the solution remains red. This assay represents a simple, time-saving technique, and its results can be visually detected with the naked eye due to the colorimetric change. The method provides superior sensitivity, with a detection limit of 4.176 aM over a wide range from 1 nM to 1 aM under optimal conditions. The method also shows high selectivity for discriminating even single-nucleotide differences between let-7 miRNA family members. Notably, it is comparable to the most sensitive method reported to date, thus providing a promising alternative to standard approaches for the direct detection of let-7a miRNA. Importantly, through combination with specific templates, different miRNAs can be converted to the same reporter Y, which can hybridize with the same set of AuNP-labeled DNA probes to form sandwich hybrids. The color change of the solution can be observed in the presence of the target miRNA. This technique has potential as a routine method for assessing the levels of miRNAs, not only for let-7, but also for various miRNAs in the early phase of cancers. In addition, it can be a useful tool in biomedical research and clinical diagnosis, as well as diagnosis or surveillance programs in field conditions.

[Meta-analysis on influence of different exercise intervention modes to blood glucose related indexes of pre-diabetes].

OBJECTIVE: To assess the influence of the different exercise intervention mode, aerobic exercise training(AET), resistance training(RT) and AET RT, on blood glucose of pre-diabetes. METHODS: Literatures were identified from the PubMed, EMBASE, EBSCO, CNKI and Wanfang databases. Relevant journals or conference proceedings were also searched manually. The qualities of randomized con-trolled trials that conformed to inclusion criteria were evaluated. Meta-analysis of the obtained related data was completed utilizing RevMan 5.2 statistical software. Mean difference of index related in exercise intervention groups and control group were calculated across the studies. RESULTS: Eight original literatures enrolled in this study. Compared with control group, combined effect of different exercise interventions on fast-ing blood glucose showed no significant, consistent with different intervention subgroups analysis. RT group and AET + RT group showed a sig-nificantly reduced role on 2 h postprandial blood index (P < 0.05). AET group showed a significantly reduced role on insulin resistance in-dex. CONCLUSIONS: To pre-diabetic, effects of exercise on postprandial 2 h blood glucose and insulin resistance index are related to modes of ex-ercise. Effects of exercise on fasting blood glucose, but still could not be determined.

Mapping the nicking efficiencies of nickase R.BbvCI for side-specific LNA-substituted substrates using rolling circle amplification.

We used a novel asymmetric cleavage analysis method based on rolling circle amplification (RCA) to determine the effects of LNA modification of substrate on the two subunits of R.BbvCI cleavage. We designed two sets of cleavage circular substrates by using two different ligation strategies and analyzed the single strand cleavage efficiency affected by different modification positions both from the cleaved strands and the uncleaved strands. Results showed that the effects of LNA on cleavage rates of modified strands and unmodified strands were both site-dependent. The Nb.BbvCI and Nt.BbvCI were affected by LNA modification in different way. Most of the modification positions showed strong inhibition of both of these two nickases cleavage. However, the modification in T3 position of bottom strand hardly affected both of the two nickases activities. The results suggested an intimated interaction between the two subunits of R.BbvCI, and the T3 position in bottom strand might be a less tight position which was hard to be disturbed.

Suppression of rolling circle amplification by nucleotide analogs in circular template for three DNA polymerases.

Among wide applications of nucleotide analogs, their roles in enzyme catalytic reactions are significant in both fundamental and medical researches. By introducing analogs into circular templates, we succeeded in determining effects of four analogs on RCA efficiency for three different DNA polymerases. Results showed an obvious suppression effect for 2'-OMeRNA modification, which might be due to the size of the C2'-modified moieties. 2'-F RNA, LNA and PS had little interference, suggesting good analog candidates for application in RCA. Different polymerases and nucleobases made a little difference according to analogs we used. These results are useful for understanding polymerase catalytic mechanism and analogs applications in RCA reaction.