Molecular mechanisms of Streptococcus pneumoniae‐targeted autophagy via pneumolysin,Golgi‐resident Rab41, and Nedd4‐1‐mediated K63‐linked ubiquitination

Streptococcus pneumoniae is the most common causative agent of community‐acquired pneumonia and can penetrate epithelial barriers to enter the bloodstream and brain. We investigated intracellular fates of S. pneumoniae and found that the pathogen is entrapped by selective autophagy in pneumolysin‐ and ubiquitin‐p62‐LC3 cargo‐dependent manners. Importantly, following induction of autophagy, Rab41 was relocated from the Golgi apparatus to S. pneumoniae‐containing autophagic vesicles (PcAV), which were only formed in the presence of Rab41‐positive intact Golgi apparatuses. Moreover, subsequent localization and regulation of K48‐ and K63‐linked polyubiquitin chains in and on PcAV were clearly distinguishable from each other. Finally, we found that E3 ligase Nedd4‐1 was recruited to PcAV and played a pivotal role in K63‐linked polyubiquitin chain (K63Ub) generation on PcAV, promotion of PcAV formation, and elimination of intracellular S. pneumoniae. These findings suggest that Nedd4‐1‐mediated K63Ub deposition on PcAV acts as a scaffold for PcAV biogenesis and efficient elimination of host cell‐invaded pneumococci.     

SPION‐mediated miR‐141 promotes the differentiation of HuAESCs into dopaminergic neuron‐like cells via suppressing lncRNA‐HOTAIR

In this study, a bioinformatics analysis and luciferase reporter assay revealed that microRNA‐141 could silence the expression of lncRNA‐HOTAIR by binding to specific sites on lncRNA‐HOTAIR. We used superparamagnetic iron oxide nanoparticles (SPIONs) to mediate the high expression of microRNA‐141 (SPIONs@miR‐141) in human amniotic epithelial stem cells (HuAESCs), which was followed by the induction of the differentiation of HuAESCs into dopaminergic neuron‐like cells (iDNLCs). qPCR, western blot, immunofluorescence staining and HPLC all suggested that SPION‐mediated overexpression of miR‐141 could promote an increased expression of brain‐derived neurotrophic factor (BDNF), DAT and 5‐TH in HuAESC‐derived iDNLCs. The RIP and ChIP assay also showed that overexpression of miR‐141 could significantly inhibit the recruitment and binding of lncRNA‐HOTAIR to EZH2 on BDNF gene promoter. cDNA microarray analysis revealed that the expression levels of 190 genes were much higher in iDNLCs than in HuAESCs. Finally, a protein interaction network analysis and identification showed that in the iDNLC group with SPIONs@miR‐141, factors that interact with BDNF, such as FGF8, SHH, NTRK3 and CREB1, all showed significantly higher expression levels compared with those in the SPIONs@miR‐Mut. Therefore, this study confirmed that the highly efficient expression of microRNA‐141 mediated by SPIONs could improve the efficiency of HuAESCs differentiation into dopaminergic neuron‐like cells.     

Secretory phospholipase A2 promotes MMP‐9‐mediated cell death by degrading type I collagen via the ERK pathway at an early stage of chondrogenesis

Background information. sPLA₂ (secretory phospholipase A₂) has been implicated in a wide range of cellular responses, including cell proliferation and ECM (extracellular matrix) remodelling. Even though ECM remodelling is an essential step for chondrogenesis, the expression and functions of sPLA₂ during chondrogenesis have not been studied. Results. In the present study, for the first time, we detect the secretion of sPLA₂ during limb development and suggest that sPLA₂ influences the proliferation and/or survival of limb mesenchymal cells. Treatment of wing bud mesenchymal cells with exogenous sPLA₂ promoted cell death by activating MMP‐9 (matrix metalloproteinase‐9) and increasing type I collagen degradation. The additive chondro‐inhibitory actions were induced by co‐treatment of mp‐BSA (p‐aminophenyl‐mannopyranoside‐BSA), a known ligand of the mannose receptor. Chondro‐inhibitory actions by sPLA₂ were prevented by functional blocking of FcRY (chicken yolk sac IgY receptor), a mannose receptor family member that is the orthologue of the mammalian PLA₂ (phospholipase A₂) receptor and by inhibition of ERK (extracellular‐signal‐regulated kinase) activity. Conclusions. Taken together, our results suggest that elevated levels of sPLA₂ secreted by wing bud mesenchymal cells promote type I collagen degradation by MMP‐9 in a manner typical of receptor‐mediated signalling and that these events lead to cell death.