Regulatory mechanism of long noncoding RNA in the occurrence and development of leukemia: a review / 生物工程学报

Long noncoding RNAs (lncRNAs) are a class of RNA molecules that are greater than 200 nt in length and do not have protein-coding capabilities or encode micropeptides only. LncRNAs are involved in the regulation of cell proliferation, differentiation, apoptosis and other biological processes, and are closely associated with the occurrence, recurrence and metastasis of a variety of malignant hematologic diseases. This article summarizes the function, regulatory mechanism and potential clinical application of lncRNAs in leukemia. In general, lncRNAs regulate the occurrence and development of leukemia and the multi-drug resistance in chemotherapy through epigenetic modification, ribosomal RNA transcription, competitive binding with miRNA, modulating glucose metabolic pathway, and activating tumor-related signaling pathway. Studies on lncRNAs provide new references for understanding the pathogenesis of leukemia, uncovering new prognostic markers and potential therapeutic targets, and addressing the problems of drug resistance and post-treatment recurrence in patients in clinical treatment of leukemia.

Mechanisms underlying interferon-mediated host innate immunity during influenza A virus infection / 生物工程学报

Influenza A virus can create acute respiratory infection in humans and animals throughout the world, and it is still one of the major causes of morbidity and mortality in humans worldwide. Numerous studies have shown that influenza A virus infection induces rapidly host innate immune response. Influenza A virus triggers the activation of signaling pathways that are dependent on host pattern recognition receptors (PRRs) including toll like receptors (TLRs) and RIG-I like receptors (RLRs). Using a variety of regulatory mechanisms, these signaling pathways activate downstream transcript factors that control expression of various interferons and cytokines, such as type I and type III interferons. Thus, these interferons stimulate the transcript of relevant interferon-stimulated genes (ISGs) and expression of the antiviral proteins, which are critical components of host innate immunity. In this review, we will highlight the mechanisms by which influenza A virus infection induces the interferon-mediated host innate immunity.

Mechanism underlying the anterograde transport of the influenza A virus transmembrane proteins and genome in host cytoplasm / 生物工程学报

Influenza virus assembly requires the completion of viral protein and vRNP transport to the assembly site at the plasma membrane. Therefore, efficient regulation of intracellular transport of the viral proteins and vRNPs to the surface of the host cell is especially important for virus morphogenesis. Influenza A virus uses the machineries of host cells to transport its own components including ribonucleoproteins (vRNPs) and three transmembrane proteins hemagglutinin (HA), neuraminidase (NA) and matrix 2 protein (M2). It has been shown that newly synthesized vRNPs are associated with active form of Rab11 and accumulate at recycling endosomes adjacent to the microtubule organizing center (MTOC) following nuclear export. Subsequently, they are transported along the microtubule network toward the plasma membranes in cargo vesicles. The viral transmembrane proteins are translated on the rough endoplasmic reticulum and transported to the virus assembly site at the plasma membrane. It has been found that several host factors such as ARHGAP21 and GTPase Cdc42 are involved in regulation of intracellular trafficking of influenza A virus transmembrane proteins including NA. In this review, we will highlight the current knowledge about anterograde transport and its regulation of the influenza A virus transmembrane proteins and genome in the host cytoplasm.