Zhongchun Tong scite author profile

Targeted delivery of clustered regularly interspaced short palindromic repeats (CRISPR)/CRISPR‐associated protein 9 (Cas9) system to the receptor cells is essential for in vivo gene editing. Exosomes are intensively studied as a promising targeted drug delivery carrier recently, while limited by their low efficiency in encapsulating of large nucleic acids. Here, a kind of hybrid exosomes with liposomes is developed via simple incubation. Different from the original exosomes, the resultant hybrid nanoparticles efficiently encapsulate large plasmids, including the CRISPR–Cas9 expression vectors, similarly as the liposomes. Moreover, the resultant hybrid nanoparticles can be endocytosed by and express the encapsulated genes in the mesenchymal stem cells (MSCs), which cannot be transfected by the liposome alone. Taken together, the exosome–liposome hybrid nanoparticles can deliver CRISPR–Cas9 system in MSCs and thus be promising in in vivo gene manipulation.

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Mineral trioxide aggregate promotes odontoblastic differentiation via mitogen-activated protein kinase pathway in human dental pulp stem cells

Zhao

et al. 2011

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Mitogen-activated protein kinase (MAPK) pathways are involved in stem cell differentiation. However, the odontoblastic differentiation-inducing effects by mineral trioxide aggregate (MTA) via MAPK pathways have not been clarified in human dental pulp stem cells (DPSCs). In this study we investigated the effects of MTA on cell viability and production of differentiation markers, and the involvement of MAPK signaling pathways in cultured human DPSCs. Cells were cultured with MTA, and the viability and differentiation productions of the cells were determined using the MTT assay and real-time PCR analysis, respectively. MAPK activation was measured by western blotting. MTA at concentrations of 20 and 10 mg/ml was toxic for human DPSCs. MTA significantly increased the expression of alkaline phosphatase (ALP), dentin sialophosphoprotein (DSPP), type I collagen (COLI), osteocalcin (OCN) and bone sialoprotein (BSP) mRNAs and induced the phosphorylation of p42 and p44 (p42/44), p38 and c-Jun N-terminal kinases 1 and 2 (JNK1/2) MAPK. Furthermore, the inhibitor of p42/44 MAPK attenuated the MTA-induced odontoblastic differentiation. These data indicated that MTA-induced odontoblastic differentiation of human DPSCs was via MAPK pathways, which may play a key role in the repair responses of dentin-pulp-like complexes.

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Nisin inhibits dental caries-associated microorganism in vitro

et al. 2010

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An In Vitro Study on the Effects of Nisin on the Antibacterial Activities of 18 Antibiotics against Enterococcus faecalis

et al. 2014

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Enterococcus faecalis rank among the leading causes of nosocomial infections worldwide and possesses both intrinsic and acquired resistance to a variety of antibiotics. Development of new antibiotics is limited, and pathogens continually generate new antibiotic resistance. Many researchers aim to identify strategies to effectively kill this drug-resistant pathogen. Here, we evaluated the effect of the antimicrobial peptide nisin on the antibacterial activities of 18 antibiotics against E. faecalis. The MIC and MBC results showed that the antibacterial activities of 18 antibiotics against E. faecalis OG1RF, ATCC 29212, and strain E were significantly improved in the presence of 200 U/ml nisin. Statistically significant differences were observed between the results with and without 200 U/ml nisin at the same concentrations of penicillin or chloramphenicol (p<0.05). The checkerboard assay showed that the combination of nisin and penicillin or chloramphenicol had a synergetic effect against the three tested E. faecalis strains. The transmission electron microscope images showed that E. faecalis was not obviously destroyed by penicillin or chloramphenicol alone but was severely disrupted by either antibiotic in combination with nisin. Furthermore, assessing biofilms by a confocal laser scanning microscope showed that penicillin, ciprofloxacin, and chloramphenicol all showed stronger antibiofilm actions in combination with nisin than when these antibiotics were administered alone. Therefore, nisin can significantly improve the antibacterial and antibiofilm activities of many antibiotics, and certain antibiotics in combination with nisin have considerable potential for use as inhibitors of this drug-resistant pathogen.

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Zhongchun Tong

Exosome–Liposome Hybrid Nanoparticles Deliver CRISPR/Cas9 System in MSCs

Mineral trioxide aggregate promotes odontoblastic differentiation via mitogen-activated protein kinase pathway in human dental pulp stem cells

Nisin inhibits dental caries-associated microorganism in vitro

An In Vitro Study on the Effects of Nisin on the Antibacterial Activities of 18 Antibiotics against Enterococcus faecalis

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