流行性感冒(简称“流感”)是由流感病毒引起的急性呼吸道传染疾病,据世界卫生组织统计,流感每年可导致300万~500万严重病例,其中29万~65万病例死亡,给社会带来沉重的经济负担,是一个世界性的公共卫生难题。研究发现宿主细胞中存在多条信号通路参与对流感病毒感染的应答,越来越多的研究表明宿主miRNAs通过直接或间接的方式,在流感病毒感染、复制的不同阶段发挥着重要调控作用。本文综合分析了目前关于宿主细胞miRNA对流感病毒复制调控的研究进展,对不同的miRNA具体的调控机制进行系统地归类总结后发现:甲型流感病毒(Influenza A virus,IAV)的PB1、PB2、NA、NP、M1基因是宿主miRNA直接抑制病毒复制的主要靶基因,而在间接调控过程中宿主miRNA主要作用在RIG-I样受体信号通路,Jak-STAT信号通路和Toll样受体信号通路三条流感病毒应答信号途径中,以上发现将更有助于全面理解宿主miRNA对于流感病毒调控网络和宿主细胞与流感病毒的互作机制。 相似文献
Digestive system cancer remains a common cancer and the main cause of cancer-related death worldwide. Drug resistance is a major challenge in the therapy of digestive system cancer, and represents a primary obstacle in the treatment of cancer by restricting the efficiency of both traditional chemotherapy and biological therapies. Existing studies indicate that noncoding RNAs play an important role in the evolution and progression of drug resistance in digestive system cancer, mainly by modulating drug transporter-related proteins, DNA damage repair, cell-cycle-related proteins, cell apoptosis-related proteins, drug target-related proteins, and the tumor microenvironment. In this review, we address the potential mechanisms of ncRNAs underlying drug resistance in digestive system tumors and discuss the possible application of ncRNAs against drug resistance in digestive system tumors. 相似文献
Hepatocellular carcinoma (HCC) occurs mainly in patients with chronic liver disease and cirrhosis. Increasing evidence has identified the involvement of microRNAs (miRNAs) acting as essential regulators in the progression of HCC. As predicted by microarray analysis, miR-448 might potentially affect HCC progression by regulating the melanoma-associated antigen (MAGEA). Therefore, the present investigation focused on exploring whether or not miR-448 and MAGEA6 were involved in the self-renewal and stemness maintenance of HCC stem cells. The interaction among miR-448, MAGEA6, and the AMPK signaling pathway was evaluated. It was noted that miR-448 targeted and downregulated MAGEA6, thus activating the AMP-activated protein kinase (AMPK) signaling pathway in HCC. Furthermore, for the purpose of exploring the functional relevance of MAGEA6 and miR-448 on the sphere formation, colony formation, and invasion and migration of HCC stem cells, the CD133+CD44 + HCC stem cells were sorted and treated with the mimic or inhibitor of miR-448, small interfering RNA (siRNA) against MAGEA6 or an AMPK activator AICAR. MAGEA6 silencing or miR-448 overexpression was demonstrated to inhibit the abilities of sphere formation, colony formation, cell migration, and invasion of HCC cells. Afterwards, a rescue experiment was conducted and revealed that MAGEA6 silencing reversed the effects of miR-448 inhibitor on stemness maintenance and self-renewal of HCC stem cells. Finally, after the in vivo experiment was carried out, miR-448 was observed to restrain the tumor formation and stemness in vivo. Altogether, miR-448 activates the AMPK signaling pathway by downregulating MAGEA6, thus inhibiting the stemness maintenance and self-renewal of HCC stem cells, which identifies miR-448 as a new therapeutic strategy for HCC. 相似文献
In animals, the Sep15 protein participates in disease resistance, growth, and development, but the function of its plant homologues remains unclear. Here, the function of maize Sep15 was analysed by characterization of two independent Sep15‐like loss‐of‐function mutants. In the absence of ZmSep15‐like, seedling tolerance to both water and salinity stress was compromised. The mutants experienced a heightened level of endoplasmic reticulum stress, and over‐accumulated reactive oxygen species, resulting in leaf necrosis. Characterization of Arabidopsis thalianaatsep15 mutant as well as like with ectopic expression of ZmSep15‐like indicated that ZmSep15‐like contributed to tolerance of both osmotic and salinity stress. ZmSep15‐like interacted physically with UDP‐glucose: glycoprotein glucosyltransferase1 (UGGT1). When the interaction was disrupted, the response to both osmotic and salinity stresses was impaired in maize or Arabidopsis. Co‐expressing ZmUGGT1 and ZmUGGT2 enhanced the tolerance of A. thaliana to both stressors, indicating a functional interaction between them. Together, the data indicated that plants Sep15‐like proteins promote osmotic and salinity stress resistance by influencing endoplasmic reticulum stress response and reactive oxygen species level. 相似文献
Acute inhalation of combustion smoke produces long-term neurologic deficits in survivors. To study the mechanisms that contribute to the development of neurologic deficits and identify targets for prevention, we developed a mouse model of acute inhalation of combustion smoke, which supports longitudinal investigation of mechanisms that underlie the smoke induced inimical sequelae in the brain. Using a transgenic mouse engineered to overexpress neuroglobin, a neuroprotective oxygen-binding globin protein, we previously demonstrated that elevated neuroglobin preserves mitochondrial respiration and attenuates formation of oxidative DNA damage in the mouse brain after smoke exposure. In the current study, we show that elevated neuronal neuroglobin attenuates the persistent inflammatory changes induced by smoke exposure in the mouse brain and mitigates concordant smoke-induced long-term neurobehavioral deficits. Specifically, we found that increases in hippocampal density of GFAP and Iba-1 positive cells that are detected post-smoke in wild-type mice are absent in the neuroglobin overexpressing transgenic (Ngb-tg) mice. Similarly, the smoke induced hippocampal myelin depletion is not observed in the Ngb-tg mice. Importantly, elevated neuroglobin alleviates behavioral and memory deficits that develop after acute smoke inhalation in the wild-type mice. Taken together, our findings suggest that the protective effects exerted by neuroglobin in the brains of smoke exposed mice afford protection from long-term neurologic sequelae of acute inhalation of combustion smoke. Our transgenic mouse provides a tool for assessing the potential of elevated neuroglobin as possible strategy for management of smoke inhalation injury.
ObjectivesAdult stem cells uphold a delicate balance between quiescent and active states, which is crucial for tissue homeostasis. Whereas many signalling pathways that regulate epithelial stem cells have been reported, many regulators remain unidentified.Materials and MethodsFlies were used to generate tissue‐specific gene knockdown and gene knockout. qRT‐PCR was used to assess the relative mRNA levels. Immunofluorescence was used to determine protein localization and expression patterns. Clonal analyses were used to observe the phenotype. RNA‐seq was used to screen downstream mechanisms.ResultsHere, we report a member of the chloride channel family, ClC‐c, which is specifically expressed in Drosophila intestinal stem/progenitor cells and regulates intestinal stem cell (ISC) proliferation under physiological conditions and upon tissue damage. Mechanistically, we found that the ISC loss induced by the depletion of ClC‐c in intestinal stem/progenitor cells is due to inhibition of the EGFR signalling pathway.ConclusionOur findings reveal an ISC‐specific function of ClC‐c in regulating stem cell maintenance and proliferation, thereby providing new insights into the functional links among the chloride channel family, ISC proliferation and tissue homeostasis. 相似文献
Prolonged pathological myocardial hypertrophy leads to end‐stage heart failure. Thymoquinone (TQ), a bioactive component extracted from Nigella sativa seeds, is extensively used in ethnomedicine to treat a broad spectrum of disorders. However, it remains unclear whether TQ protects the heart from pathological hypertrophy. This study was conducted to examine the potential utility of TQ for treatment of pathological cardiac hypertrophy and if so, to elucidate the underlying mechanisms. Male C57BL/6J mice underwent either transverse aortic constriction (TAC) or sham operation, followed by TQ treatment for six consecutive weeks. In vitro experiments consisted of neonatal rat cardiomyocytes (NRCMs) that were exposed to phenylephrine (PE) stimulation to induce cardiomyocyte hypertrophy. In this study, we observed that systemic administration of TQ preserved cardiac contractile function, and alleviated cardiac hypertrophy, fibrosis and oxidative stress in TAC‐challenged mice. The in vitro experiments showed that TQ treatment attenuated the PE‐induced hypertrophic response in NRCMs. Mechanistical experiments showed that supplementation of TQ induced reactivation of the AMP‐activated protein kinase (AMPK) with concomitant inhibition of ERK 1/2, p38 and JNK1/2 MAPK cascades. Furthermore, we demonstrated that compound C, an AMPK inhibitor, abolished the protective effects of TQ in in vivo and in vitro experiments. Altogether, our study disclosed that TQ provides protection against myocardial hypertrophy in an AMPK‐dependent manner and identified it as a promising agent for the treatment of myocardial hypertrophy. 相似文献