RÉSUMÉ
Long non-coding RNA (lncRNA) is a type of non-coding RNA with the more than 200 nucleotides. Several lncRNAs have been identified as the potential targets for cancer therapy. LncRNA00067110 is one of the differentially expressed genes in the transcriptome profiles of melanoma B16-F10 cells compared to normal mice melanocytes. To investigate whether lncRNA00067110 regulates the proliferation, apoptosis and melanogenesis of B16-F10 cells, the calcium-binding tyrosine phosphorylation regulated protein (Cabyr) target gene was predicted by LncTar and verified by dual luciferase activities. The regulating function of lncRNA00067110 was investigated by the analysis of transcriptome profiles and to detect the proliferation, apoptosis and melanin production of B16-F10 cells transfected by the overexpression plasmids of lncRNA00067110. The results showed that the relationship of lncRNA00067110 targeting Cabyr, the mRNA and protein levels of proliferation (MEK/ERK/MNK/CREB) and melanogenesis-related genes (TYR family and CREB) were significantly down-regulated, while the mRNA and protein levels of apoptosis-related genes (AKT and Bcl-2) were up-regulated in B16-F10 cells with lncRNA00067110 overexpression. The transcriptome profile of B16-F10 cells with lncRNA00067110 overexpression showed that 17 genes were differentially expressed, among which Cabyr was up-regulated. Furthermore, the effect of lncRNA00067110 on the phenotypes of cell proliferation and apoptosis were verified. The results suggested that lncRNA00067110 might be a novel target for the treatment of melanoma by targeting Cabyr, which regulate the expression of related genes to inhibit the proliferation and melanogenesis, as well as to induce the apoptosis of B16-F10 cells.
RÉSUMÉ
Dickkopf-3 (DKK3) , as a critical inhibitor of the Wnt/p-catenin signaling pathway, may he involved in melanogenesis.In the current study, we investigated the effects of DKK3 on melanogenesis in melanocytes of alpaca.Overexpression of DKK3 in alpaca melanocytes, the expression of Wntl, Lefl , Myc and the major target genes termed microphthalmia-associated transcription factor (M1TF) and its downstream genes, including tyrosinase (TYR), tyrosinase-related protein 1 (TYRP1) and tyrosinase- related protein 2 (TYRP2) were significantly decreased at both mRNA and protein levels (P<0.05); total alkali melanin, pheomelanin and eumelanin were decreased by 80.30%, 72.17% and 64.60% (P <0.05), respectively.In contrast, in the melanocytes transfected with siRNA-DKK3 (a small interference RNA targeting DKK3) , the expression of Wntl, Lefl, Myc, MITF, TYR, TYRPl and TYRP2 were significantly increased at both mRNA and protein levels (P<0.05) ; total alkali melanin, pheomelanin and eumelanin were significantly increased by 1.65 folds, 1.25 folds and 1.21 folds (P< 0.05) , respectively.These results indicate that DKK3 regulates melanogenesis in alpaca melanocytes via the Wnt/p-catenin signaling pathway and down-regulates MITF.
RÉSUMÉ
To investigate the effects of anti-androgen drugs and melengestrol acetate (MGA) on development of regrowth antlers in 6 year old sika deer, twenty healthysika deerwith similar body weight and antler weightwere randomly divided into five groups by using single factor test design: flutamide (=4), bicalutamide (=4), progesterone acetate (CPA, =4), melengestrol acetate (MGA, =4), control(=4). All deer were fed with same diets and were housed outside together in an opened fence of 15 m×30 m with free access to water and feed. Treatment groups were injected subcutaneously sustained-release agents of the four drugs respectively when two-branched antlers were harvested. The control group had no special treatment. In the experiment period of 60 d, blood sampleswere collected for 4 times for each deer. The concentration of testosterone in plasma was tested and analyzed to compare the changes between different groups. Development of regrowth antlers was observed. At the end of the experiment, regrowth antlers were weighted and analyzed. The resultsshowed that the weights of regrowth antlers in treatment groups were significantly greater than those from control group and the weight gain (as compared with the control group) was 100.50%, 64.46%, 87.16% and 117.46% respectively in flutamide group, bicalutamide group, progesterone acetate group and melengestrol acetate group. For plasma testosterone concentration, it was not significantly different in the early stage (in the first 35 d), but at the end of the experimen, it was significantly higher than that of earlier stage (<0.01) in various groups. Testosterone concentration of flutamide treated group was significantly lower than that of the other groups (<0.01), while the level inbicalutamide and MGA treated groups was significantly higher than that in other groups (<0.01). The results showed that both anti-androgen drugs and MGA treatment promoted the development of regrowth antlers and increased the weight of regrowth antlers, where the effect was most significant by MGA treatment. From the morphological observation of the antlers, it was found that anti-androgen and MGA treatments prolonged the growth period of regrowth antlers through delaying the ossification of antlers. However, plasma testosterone concentration was not affected by the treatments.