Yan Zhu scite author profile

Background: Exosomes can transfer information between cells and facilitate tumor development. Results: PC12 cell-derived exosomes enter into BMSCs through clathrin-mediated endocytosis and macropinocytosis, and decrease the expression of TGF␤RII and TPM1 through miR-21. Conclusion:The results dissect the pathway of exosome internalization and demonstrate their regulation ability. Significance: These findings enhanced our knowledge of the internalization and function of tumor exosomes.

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RNA landscape of the emerging cancer-associated microbe Fusobacterium nucleatum

Ponath

Tawk

Zhu

et al. 2021

Nat Microbiol

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Fusobacterium nucleatum, long known as a constituent of the oral microflora, has recently garnered renewed attention for its association with several different human cancers. The growing interest in this emerging cancer-associated bacterium contrasts with a paucity of knowledge about its basic gene expression features and physiological responses. As fusobacterial lack all established small RNA-associated proteins, post-transcriptional networks in these bacteria are also unknown. Here, using differential RNA-seq (dRNAseq), we generate high-resolution global RNA maps for five clinically relevant fusobacterial strains -F. nucleatum subspecies nucleatum, animalis, polymorphum and vincentii as well as F. periodonticum -for early, mid-exponential growth and early stationary phase. These data are made available in an online browser, and we use these to uncover fundamental aspects of fusobacterial gene expression architecture and a suite of noncoding RNAs. Developing a vector for functional analysis of fusobacterial genes, we discover a conserved fusobacterial oxygen-induced small RNA, FoxI, which serves as a post-transcriptional repressor of the major outer membrane porin FomA. Our findings provide a crucial step towards delineating the regulatory networks enabling F. nucleatum adaptation to different environments, which may elucidate how these bacteria colonize different compartments of the human body.

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PLGA-based gene delivering nanoparticle enhance suppression effect of miRNA in HePG2 cells

et al. 2011

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The biggest challenge in the field of gene therapy is how to effectively deliver target genes to special cells. This study aimed to develop a new type of poly(D,L-lactide-co-glycolide) (PLGA)-based nanoparticles for gene delivery, which are capable of overcoming the disadvantages of polyethylenimine (PEI)- or cationic liposome-based gene carrier, such as the cytotoxicity induced by excess positive charge, as well as the aggregation on the cell surface. The PLGA-based nanoparticles presented in this study were synthesized by emulsion evaporation method and characterized by transmission electron microscopy, dynamic light scattering, and energy dispersive spectroscopy. The size of PLGA/PEI nanoparticles in phosphate-buffered saline (PBS) was about 60 nm at the optimal charge ratio. Without observable aggregation, the nanoparticles showed a better monodispersity. The PLGA-based nanoparticles were used as vector carrier for miRNA transfection in HepG2 cells. It exhibited a higher transfection efficiency and lower cytotoxicity in HepG2 cells compared to the PEI/DNA complex. The N/P ratio (ratio of the polymer nitrogen to the DNA phosphate) 6 of the PLGA/PEI/DNA nanocomplex displays the best property among various N/P proportions, yielding similar transfection efficiency when compared to Lipofectamine/DNA lipoplexes. Moreover, nanocomplex shows better serum compatibility than commercial liposome. PLGA nanocomplexes obviously accumulate in tumor cells after transfection, which indicate that the complexes contribute to cellular uptake of pDNA and pronouncedly enhance the treatment effect of miR-26a by inducing cell cycle arrest. Therefore, these results demonstrate that PLGA/PEI nanoparticles are promising non-viral vectors for gene delivery.

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Expanding the genetic toolkit helps dissect a global stress response in the early-branching species Fusobacterium nucleatum

Ponath

Zhu

Cosi

et al. 2022

Proc. Natl. Acad. Sci. U.S.A.

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Fusobacterium nucleatum , long known as a common oral microbe, has recently garnered attention for its ability to colonize tissues and tumors elsewhere in the human body. Clinical and epidemiological research has now firmly established F. nucleatum as an oncomicrobe associated with several major cancer types. However, with the current research focus on host associations, little is known about gene regulation in F. nucleatum itself, including global stress-response pathways that typically ensure the survival of bacteria outside their primary niche. This is due to the phylogenetic distance of Fusobacteriota to most model bacteria, their limited genetic tractability, and paucity of known gene functions. Here, we characterize a global transcriptional stress-response network governed by the extracytoplasmic function sigma factor, σ E . To this aim, we developed several genetic tools for this anaerobic bacterium, including four different fluorescent marker proteins, inducible gene expression, scarless gene deletion, and transcriptional and translational reporter systems. Using these tools, we identified a σ E response partly reminiscent of phylogenetically distant Proteobacteria but induced by exposure to oxygen. Although F. nucleatum lacks canonical RNA chaperones, such as Hfq, we uncovered conservation of the noncoding arm of the σ E response in form of the noncoding RNA FoxI. This regulatory small RNA acts as an mRNA repressor of several membrane proteins, thereby supporting the function of σ E . In addition to the characterization of a global stress response in F. nucleatum , the genetic tools developed here will enable further discoveries and dissection of regulatory networks in this early-branching bacterium.

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Oral administration of Escherichia coli Nissle 1917 prevents allergen-induced dermatitis in mice

Weise

Zhu

Ernst

et al. 2011

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Yan Zhu

Exosome Uptake through Clathrin-mediated Endocytosis and Macropinocytosis and Mediating miR-21 Delivery

RNA landscape of the emerging cancer-associated microbe Fusobacterium nucleatum

PLGA-based gene delivering nanoparticle enhance suppression effect of miRNA in HePG2 cells

Expanding the genetic toolkit helps dissect a global stress response in the early-branching species Fusobacterium nucleatum

Oral administration of Escherichia coli Nissle 1917 prevents allergen-induced dermatitis in mice

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