Objective To investigate the supernatant of umbilical cord-derived mesenchymal stem cells (UCMSCs) on tumor necrosis factor-α(TNF-α) and apoptosis protein caspase-3 in diabetic rats model with skin ulcer. Methods 45 Sprague-Dawley rats were randomly divided into control group (acute wounds group), phosphate buffered saline (PBS) group and UCMSCs supernatant group. The diabetic rat model was constructed by injecting with alloxan by tail vein and feeding with high-fat diet. Diabetic skin ulcer (DSU) rat model was constructed by scratching a wound and infusing suspension of Staphylococcus aureus. In the control group, the diabetic rats (n=15) were scratched to form a wound and treated by tail vein injection of 100μl PBS. In the PBS group, DSU rats (n=15) were treated by tail vein injection of 100μl PBS, and then 100μl PBS was dropped at the ulcer site. In the UCMSCs supernatant group, freeze-dried powder of UCMSCs supernatant was dissolved in 200μl PBS, 100μl of which was injected into the tail vein of DSU rats (n=15), and other 100μl was dropped at the ulcer site. After 5 days of the treatments, the levels of serum TNF-αwere detected by radioimmunoassay method, and the expression of TNF-αand caspase-3 in the ulcer tissues of rats was detected by polymerase chain reaction and Western Blot. Results The levels of TNF-αin the PBS group [(35.9±3.7)μg/L] were significantly higher than that of the control group [(11.4±4.9)μg/L] and the UCMSCs group [(14.7±6.6)μg/L] (all P<0.05). The levels of mRNA and protein expression of TNF-αand caspase-3 in the UCMSCs group were significantly lower than those of the PBS group (all P<0.05), and have no significant differences with respect to those of the control group (all P>0.05). Conclusions UCMSCs supernatant treatments can effectively down-regulate the expression of TNF-αand caspase-3 in ulcer tissue of DSU rats, and play an anti-inflammatory and anti-apoptotic effect.

Intensive cancer treatment with drug combination is widely exploited in the clinic but suffers from inconsistent pharmacokinetics among different therapeutic agents.To overcome it,the emerging nanomedicine offers an unparalleled opportunity for encapsulating multiple drugs in a nano-carrier.Herein,a two-step super-assembled strategy was performed to unify the pharmacokinetics of a pep-tide and a small molecular compound.In this proof-of-concept study,the bioinformatics analysis firstly revealed the potential synergies towards hepatoma therapy for the associative inhibition of exportin 1(XPO1)and ataxia telangiectasia mutated-Rad3-related(ATR),and then a super-assembled nano-pill(gold nano drug carrier loaded AZD6738 and 97-110 amino acids of apoptin(AP)(AA@G))was con-structed through camouflaging AZD6738(ATR small-molecule inhibitor)-binding human serum albumin onto the AP-Au supramolecular nanoparticle.As expected,both in vitro and in vivo experiment results verified that the AA@G possessed extraordinary biocompatibility and enhanced therapeutic effect through inducing cell cycle arrest,promoting DNA damage and inhibiting DNA repair of hepatoma cell.This work not only provides a co-delivery strategy for intensive liver cancer treatment with the clinical translational potential,but develops a common approach to unify the pharmacokinetics of peptide and small-molecular compounds,thereby extending the scope of drugs for developing the advanced com-bination therapy.

The precise etiology of oral lichen planus(OLP)is still unclear,but the existing evidence suggests that drug intake,virus infection,fungal infection,psychological disorders,and immunodeficiency are closely associated with the pathogenesis of OLP.We report a case of OLP accompanied with candidiasis induced by long-term use of antimicrobials for recurrent aphthous ulcer(RAU)and update the literature,to discuss the possible association between OLP and misuse of antimicrobials,and to inform general dentists and pharmacists the importance for practice with optimal antimicrobial stewardship.In this case,a 42-year-old man presented to Xiangya Stomatological Hospital with white reticular patterns spreading in the oral cavity for almost 1 year.He was diagnosed with OLP via histopathological examination.He had a 5-year history of RAU which occurred every 1-2 months,and he was given antimicrobials ingested or injected whenever the ulcers came up.Satisfactory treatment results were obtained by stopping the abuse of antimicrobials and local antifungal therapy.Meanwhile,the exacerbation and alleviation of OLP was closely related to the administration of antimicrobials.Combined with literature review,antimicrobial might contribute to the development of OLP by inducing candidiasis,a common side-effect of misuse of antimicrobials.Considering the seriousness of antimicrobial resistance and opportunistic infection,dentists should prescribe antimicrobials judiciously according to guidelines and evidence-based indications.Appropriate prescribing of antimicrobials is a professional responsibility to all dentists.

ObjectiveThe biosynthetic pathways of benzylisoquinoline alkaloids（BIAs） in Nelumbo nucifera are of great theoretical and economic value. In this paper， N. nucifera O-methyltransferase（NnOMT） and N. nucifera N-methyltransferase（NnNMT） gene families were identified and analyzed by bioinformatics in order to facilitate the biosynthetic pathway of BIAs in N. nucifera. MethodBased on the whole genome of N. nucifera， UniPort and National Center for Biotechnology Information（NCBI） databases were used to identify the NnOMT and NnNMT gene families of N. nucifera， and analyze their physicochemical properties and subcellular localization， then TBtools， MEME， MEGA 11.0， FigTree 1.4.4 and other tools were used to analyze the phylogeny， sequence characteristics， gene structure， functional annotation and cis-acting elements of NnOMT and NnNMT genes identified in the previous stage. ResultA total of 61 NnOMT and NnNMT genes were identified in this paper， the number of amino acids encoded by these genes ranged from 168 aa to 580 aa， the isoelectric point ranged from 4.76 to 9.16， and the relative molecular weight ranged from 18 699.52 Da to 64 934.53 Da， most of which showed acidic and mostly hydrophilic proteins. There were 10 conserved motifs， Kyoto Encyclopedia of Genes and Genomes（KEGG） analysis enriched a total of 12 pathways， including metabolism， biosynthesis of phenylpropane and isoquinoline alkaloids， etc. And Visualization of Gene Ontology（GO） enrichment results showed that 61 NnOMT and NnNMT genes were annotated to 32 items， which included 16 molecular functions［such as reduced nicotinamide adenine dinucleotide（NADH） activity and exopeptidase activity］ and 16 biological processes（such as metabolic process of carbon tetrachloride， anaerobic carbon tetrachloride metabolic process and responses to exogenous biological stimuli）. There were a variety of cis-acting elements in the promoter regions of NnOMT and NnNMT genes， mainly promoter and enhancer regions element， light responsive element and methyl jasmonate responsive element. ConclusionIn this study， a comprehensive bioinformatics analysis of 61 NnOMT and NnNMT genes is carried out based on the genome data of N. nucifera， which lays a foundation for research on the gene structure and function of NnOMT and NnNMT gene families， and provides a reference for biosynthetic pathway elucidation of BIAs in N. nucifera.