Objective To investigate the effects of nephroblastoma overexpressed (NOV) on proliferation,adhesion,migration and invasion of remal cell curcinomai (RCC) cells. Methods We constructed a NOV expression plasmid and transfected the plasmid into RCC cell line 786-O and analyzed the effects of NOV expression on proliferation,adhesion,migration and invasion of RCC cells by growth curve assay,WST-1 assay,cell adhesion assay,matrigel invasion assay and transwell migration assay. Results The stable NOV transfected 786-O cells (786-O-NOV) showed decreased growth rate,at 48 h and 72 h,the proliferation activities of 786-O-NOV cells were inhibited by 29.14％ and 32.46％ the proliferation activities of empty vector cells were inhibited by 9.25％ and - 8.16％,respectively,compared to 786-O cells (P ＜0.05); while the 786-O cells transfected with empty vector (786-O-mock) had no difference with 786-Ocells.Adhesion assay indicated significantly increased adhesion of 786-O-NOV cells to fibronectin (0.26 ±0.03) and laminin (0.28 ±0.04),compared to 786-O cells (0.15 ±0.01,0.12±0.10) and 786-O-mock cells (0.14 ±0.02,0.13 ± 0.08).Invasion assay displayed that the numbers of cells penetrated through matrigel membrane were significantly higher in 786-O-NOV cells (240.25 ± 23.12) compared to 786-O cells ( 56.16 ± 6.25 ) and 786-O-mock cells ( 50.28 ± 7.13 ).Migration assay displayed that the numbers of cells passed through polycarbonate filters were significantly higher in 786-O-NOV cells (267.25 ± 20.94) compared to 786-O cells ( 66.10 ± 5.68 ) and 786-O-mock cells ( 56.28 ± 4.11 ).Conclusion NOV exhibits anti-proliferative effects on RCC cells; however,it promotes adhesion,migration and invasion of RCC cells.

Major depressive disorder(MDD)is a common mental illness.Currently,nearly 16%of the global population is affected by depression-related symptoms,while the diagnosis and treatment rate of MDD patients in China is only 9.5%.MDD is characterised by high morbidity and low recovery rate,and how to effectively improve its therapeutic effect has been a hot research topic in recent years.Antidepressants,as the main treatment for MDD,have the disadvantages of many adverse effects and slow onset of action,prompting people to pay attention to the non-pharmacological treatments of MDD.Dietary intervention is a kind of non-pharmacological treatment by changing dietary structures and rhythms;the current application of dietary intervention to psychiatry is very extensive,and it has been proved to be effective in the treatment of depression.Recent research suggests that dietary interventions can treat and ameliorate depressive symptoms by influencing brain-gut axis-related eating mechanisms.This article reviews the multidimensional exploration of dietary interventions in the treatment of depression:dietary structure interventions,dietary rhythm interventions,and the role of intestinal flora.It details the modalities of dietary interventions and the related mechanisms involved,and provides reference for dietary interventions in the treatment of depression-related symptoms.

Terpene synthase (TPS) plays important roles in the synthesis of terpenoids which are the main fragrances in Rhododendron flowers. To understand the function of TPS genes in terpenoid metabolism in relation to flower aroma formation, we identified all TPS gene family members in Rhododendron by analyzing its genome database. We then used a transcriptomic approach to analyze the differential gene expression patterns of TPS gene family members in the scented flower Rhododendron fortunei compared to the non-scented flower Rhododendron 'Nova Zembla'. The contents of terpenoid compounds in petals of the above two Rhododendron species at different developmental stages were also measured by using qRT-PCR and head space-solid phase micro-extraction combined with gas chromatography-mass spectrometry. Our results showed that a total of 47 RsTPS members, with individual lengths ranged from 591 to 2 634 bp, were identified in the Rhododendron genome. The number of exons in RsTPS gene ranged from 3 to 12, while the length of each protein encoded ranged from 196 to 877 amino acids. Members of the RsTPS family are mainly distributed in the chloroplast and cytoplasm. Phylogenetic analysis showed that RsTPS genes can be clustered into 5 subgroups. Seven gene family members can be functionally annotated as TPS gene family since they were temporally and spatially expressed as shown in the transcriptome data. Notably, TPS1, TPS10, TPS12 and TPS13 in Rhododendron fortunei were expressed highly in flower buds reached the peak in the full blossoming. Correlation analysis between gene expression levels and terpenoid content indicates that the expression levels of TPS1, TPS4, TPS9, TPS10, TPS12 and TPS13 were positively correlated with the content of terpenoids in the petals of R. fortunei at all flower developmental stages, suggesting that these six genes might be involved in the aroma formation in R. fortunei.
Rhododendron/metabolism* ; Phylogeny ; Terpenes/metabolism* ; Family ; Gene Expression Regulation, Plant