摘要
The field of regenerative medicine faces a notable challenge in terms of the regeneration of articular cartilage.Without proper treatment,it can lead to osteoarthritis.Based on the research findings,human umbilical cord mesenchymal stem cells(hUMSCs)are considered an excellent choice for regenerating cartilage.However,there is still a lack of suitable biomaterials to control their ability to self-renew and differentiate.To address this issue,in this study using tetrahedral framework nucleic acids(tFNAs)as a new method in an in vitro culture setting to manage the behaviour of hUMSCs was proposed.Then,the influence of tFNAs on hUMSC proliferation,migration and chondrogenic differentiation was explored by combining bioinformatics methods.In addition,a variety of molecular biology techniques have been used to investigate deep molecular mechanisms.Relevant results demonstrated that tFNAs can affect the transcriptome and multiple signalling pathways of hUMSCs,among which the PI3K/Akt pathway is significantly activated.Furthermore,tFNAs can regulate the expression levels of multiple proteins(GSK3β,RhoA and mTOR)downstream of the PI3K-Akt axis to further enhance cell proliferation,migration and hUMSC chondrogenic differentiation.tFNAs provide new insight into enhancing the chondrogenic potential of hUMSCs,which exhibits promising potential for future utilization within the domains of AC regeneration and clinical treatment.
基金
supported by the National Key R&D Program of China(2019YFA0110600).
