58 research outputs found

    Novel Therapeutic Targets for Hepatocellular Carcinoma Treatment

    Get PDF

    Ξ²-arrestin2/miR-155/GSK3Ξ² Regulates Transition of 5\u27-Azacytizine-Induced Sca-1-Positive Cells to Cardiomyocytes

    Get PDF
    Stem-cell antigen 1-positive (Sca-1+) cardiac stem cells (CSCs), a vital kind of CSCs in humans, promote cardiac repair in vivo and can differentiate to cardiomyocytes with 5\u27-azacytizine treatment in vitro. However, the underlying molecular mechanisms are unknown. b-arrestin2 is an important scaffold protein and highly expressed in the heart. To explore the function of b-arrestin2 in Sca-1+ CSC differentiation, we used b-arrestin2-knockout mice and overexpression strategies. Real-time PCR revealed that b-arrestin2 promoted 5\u27-azacytizine-induced Sca-1+ CSC differentiation in vitro. Because the microRNA 155 (miR-155) may regulate b-arrestin2 expression, we detected its role and relationship with b-arrestin2 and glycogen synthase kinase 3 (GSK3Ξ²), another probable target of miR-155. Real-time PCR revealed that miR-155, inhibited by b-arrestin2, impaired 5\u27-azacytizine-induced Sca-1+ CSC differentiation. On luciferase report assay, miR-155 could inhibit the activity of b-arrestin2 and GSK3Ξ², which suggests a loop pathway between miR-155 and b-arrestin2. Furthermore, b-arrestin2-knockout inhibited the activity of GSK3Ξ². Akt, the upstream inhibitor of GSK3Ξ², was inhibited in b-arrestin2-Knockout mice, so the activity of GSK3Ξ² was regulated by b-arrestin2 not Akt. We transplanted Sca-1+ CSCs from b-arrestin2-knockout mice to mice with myocardial infarction and found similar protective functions as in wild-type mice but impaired arterial elastance. Furthermore, low level of b-arrestin2 agreed with decreased phosphorylation of AKT and increased phophorylation of GSK3Ξ², similar to in vitro findings. The Ξ²-arrestin2/miR-155/GSK3Ξ² pathway may be a new mechanism with implications for treatment of heart disease

    Carboxyl-terminal truncated HBx regulates a distinct microRNA transcription program in Hepatocellular carcinoma development

    Get PDF
    Background: The biological pathways and functional properties by which misexpressed microRNAs (miRNAs) contribute to liver carcinogenesis have been intensively investigated. However, little is known about the upstream mechanisms that deregulate miRNA expressions in this process. In hepatocellular carcinoma (HCC), hepatitis B virus (HBV) X protein (HBx), a transcriptional trans-activator, is frequently expressed in truncated form without carboxyl-terminus but its role in miRNA expression and HCC development is unclear. Methods: Human non-tumorigenic hepatocytes were infected with lentivirus-expressing full-length and carboxyl-terminal truncated HBx (Ct-HBx) for cell growth assay and miRNA profiling. Chromatin immunoprecipitation microarray was performed to identify the miRNA promoters directly associated with HBx. Direct transcriptional control was verified by luciferase reporter assay. The differential miRNA expressions were further validated in a cohort of HBV-associated HCC tissues using real-time PCR. Results: Hepatocytes expressing Ct-HBx grew significantly faster than the full-length HBx counterparts. Ct-HBx decreased while full-length HBx increased the expression of a set of miRNAs with growth-suppressive functions. Interestingly, Ct-HBx bound to and inhibited the transcriptional activity of some of these miRNA promoters. Notably, some of the examined repressed-miRNAs (miR-26a, -29c, -146a and -190) were also significantly down-regulated in a subset of HCC tissues with carboxyl-terminal HBx truncation compared to their matching non-tumor tissues, highlighting the clinical relevance of our data. Conclusion: Our results suggest that Ct-HBx directly regulates miRNA transcription and in turn promotes hepatocellular proliferation, thus revealing a viral contribution of miRNA deregulation during hepatocarcinogenesis. Β© 2011 Yip et al.published_or_final_versio

    Small and Long Non-Coding RNAs: Novel Targets in Perspective Cancer Therapy

    Full text link

    Targeting EZH2 for Cancer Therapy: Progress and Perspective

    Full text link

    LINC01133 can induce acquired ferroptosis resistance by enhancing the FSP1 mRNA stability through forming the LINC01133-FUS-FSP1 complex

    Full text link
    Abstract Due to a lack of research on the critical non-coding RNAs in regulating ferroptosis, our study aimed to uncover the crucial ones involved in the process. We found that LINC01133 could make pancreatic cancer cells more resistant to ferroptosis. A higher expression of LINC01133 was associated with a higher IC50 of sorafenib in clinical samples. Furthermore, we discovered that LINC01133 induced this process through enhancing the mRNA stability of FSP1. CEBPB was the transcription factor to increase the expression of LINC01133. A higher CEBPB could also indicate a higher IC50 of sorafenib in patients with cancer. Moreover, we confirmed that LINC01133 could form a triple complex with FUS and FSP1 to increase the mRNA stability of FSP1

    Adsorption mechanisms of hydrogels for heavy metal and organic dyes removal: A short review

    Full text link
    Heavy metal and organic dyes produced in modern industrialization development have polluted the natural resources human live by due to their adverse effects on all biological organisms. Developing effective, economical and friendly strategies to tackle environmental pollution has been a hotspot in recent years, among which adsorption of chemical pollutants from water has been considered of utmost importance. Hydrogel-based adsorbents with three-dimensional porous structures and versatile functional groups have become the first choice, whose adsorption involves several mechanisms. In this perspective article, electrostatic interactions, hydrogen bonding, Ο€-Ο€ interactions, ion exchange, surface complexation and coordination/chelation were introduced in detail to provide an overview for a better understanding of the action mechanisms of various hydrogels. Combining two or more mechanisms is advantageous to gain great adsorption capacity, which could be achieved via physical or chemical modification of hydrogels. This short review aims to provide theoretical guidance to design and prepare hydrogels for applications in water treatment
    • …
    corecore