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Objective:To investigate effects of long non-coding growth stasis specific protein 6 antisense RNA1 (lncRNA DLX6-AS1) on the proliferation, migration and invasion of a cutaneous squamous cell carcinoma cell line A431, and to explore the underlying mechanisms.Methods:A dual-luciferase reporter system was used to verify the targeting relationship between lncRNA DLX6-AS1 and miR-16-5p, as well as between miR-16-5p and nuclear ubiquitous casein and cyclin-dependent kinase substrate 1 (NUCKS1) mRNA. Cultured A431 cells were divided into several groups: si-DLX6-AS1 group and DLX6-AS1-NC group transfected with lncRNA DLX6-AS1 inhibitor and its negative control respectively; anti-miR-16-5p group and anti-miR-NC group transfected with miR-16-5p inhibitor and its negative control respectively; si-NUCKS1 group and NUCKS1-NC group transfected with NUCKS1 inhibitor and its negative control respectively; si-DLX6-AS1+ anti-miR-16-5p group transfected with lncRNA DLX6-AS1 inhibitor followed by miR-16-5p inhibitor, and si-DLX6-AS1+ anti-miR-NC group transfected with lncRNA DLX6-AS1 inhibitor followed by anti-miR-NC; si-DLX6-AS1+ anti-miR-16-5p+ si-NUCKS1 group transfected with lncRNA DLX6-AS1 inhibitor, miR-16-5p inhibitor and NUCKS1 inhibitor, and si-DLX6-AS1+ anti-miR-16-5p+ NUCKS1-NC group transfected with lncRNA DLX6-AS1 inhibitor, miR-16-5p inhibitor and NUCKS1-NC. After the above treatment, real-time fluorescence-based quantitative PCR (qRT-PCR) was performed to measure the mRNA expression of lncRNA DLX6-AS1, miR-16-5p and NUCKS1 in A431 cells, Western blot analysis to determine the protein expression of NUCKS1, Cyclin D1 antibody, matrix metalloproteinase (MMP) 2 and MMP9, cell counting kit-8 (CCK8) assay to detect cell survival rate, and Transwell assay to evaluate cell migratory and invasive abilities. Two-independent-sample t test was used for comparisons between two groups. Results:Dual-luciferase reporter assay showed targeted binding of lncRNA DLX6-AS1 to miR-16-5p, as well as of miR-16-5p to NUCKS1. Compared with the DLX6-AS1-NC group, the si-DLX6-AS1 group showed significantly increased miR-16-5p expression in A431 cells (3.01 ± 0.31 vs. 1.02 ± 0.10, t = 18.33, P < 0.001) , but significantly decreased protein expression of NUCKS1, Cyclin D1, MMP2 and MMP9 (all P < 0.05) , and significantly decreased cell survival rate and numbers of migratory and invasive cells (all P < 0.05) . Compared with the NUCKS1-NC group, the si-NUCKS1 group showed significantly decreased protein expression of NUCKS1, Cyclin D1, MMP2 and MMP9 in A431 cells (all P < 0.05) , and significantly decreased cell survival rate and numbers of migratory and invasive cells (all P < 0.05) . After inhibition of lncRNA DLX6-AS1 expression, the si-DLX6-AS1+ anti-miR-16-5p group showed significantly decreased miR-16-5p expression in A431 cells (0.34 ± 0.04) compared with the si-DLX6-AS1+ anti-miR-NC group (1.00 ± 0.12, t = 15.65, P < 0.05) , but significantly increased protein expression of Cyclin D1, MMP2 and MMP9, cell survival rate and numbers of migratory and invasive cells compared with the si-DLX6-AS1+ anti-miR-NC group (all P < 0.05) . After inhibition of lncRNA DLX6-AS1 expression and knockdown of miR-16-5p, the si-DLX6-AS1+ anti-miR-16-5p+ si-NUCKS1 group showed significantly decreased protein expression of NUCKS1, Cyclin D1, MMP2 and MMP9 in A431 cells, as well as cell survival rate and numbers of migratory and invasive cells, compared with the si-DLX6-AS1+ anti-miR-16-5p+ NUCKS1-NC group (all P < 0.05) . Conclusion:lncRNA DLX6-AS1 can regulate the proliferation, migration and invasion of A431 cells by targeting miR-16-5p/NUCKS1, suggesting that lncRNA DLX6-AS1 may be a potential molecular target for the treatment of cutaneous squamous cell carcinoma.
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Objective:To evaluate the effects of long non-coding RNA (lncRNA) LEF1-AS1 on proliferation, apoptosis, migration and invasion of cutaneous squamous cell carcinoma cells, and to explore their mechanisms.Methods:Cutaneous squamous cell carcinoma SCC13 cells were divided into si-LEF1-AS1 group transfected with lncRNA LEF1-AS1 interference oligonucleotides (si-LEF1-AS1) , si-NC group transfected with lncRNA LEF1-AS1 nonsense oligonucleotides (si-NC) , miR-612 group transfected with miR-612-overexpressing oligonucleotides, miR-NC group transfected with miR-612 nonsense oligonucleotides (miR-NC) , si-LEF1-AS1+anti-miR-612 group transfected with si-LEF1-AS1 and oligonucleotides against miR-612, and si-LEF1-AS1+anti-miR-NC group transfected with si-LEF1-AS1 and miR-612 nonsense oligonucleotides. Quantitative reverse transcription (qRT) -PCR was performed to determine the relative expression of miR-612 in SCC13 cells, cell counting kit-8 (CCK8) assay to evaluate cellular proliferative activity, flow cytometry to detect cell apoptosis, Transwell assay to assess migratory and invasive abilities of SCC13 cells, and Western blot analysis to determine protein expression of cyclin-dependent kinase 1 (cyclinD1) , cyclinD1 inhibitor p21, Bcl-2 family protein (Bcl-2) , Bcl-2 related X protein (Bax) , matrix metalloproteinase 2 (MMP-2) and MMP-9. The online bioinformatics database LncBase predicted v.2 was employed to predict the complementary sequence between lncRNA LEF1-AS1 and miR-612, and luciferase reporter gene plasmids were constructed by using the complementary/non-complementary sequence, which were co-transfected with miR-612-overexpressing oligonucleotides (miR-612 overexpression group) or miR-NC (overexpression control group) into SCC13 cells in order to verify the binding ability of lncRNA LEF1-AS1 to miR-612. Statistical analysis was carried out by using t test for comparison between two groups, one-way analysis of variance for comparison among multiple groups, and least significant difference (LSD) - t test for multiple comparisons. Results:Compared with the miR-NC group, miR-612 group showed significantly decreased cellular proliferative ability, number of migratory cells and invasive cells (all P < 0.05) , but a significantly increased apoptosis rate ( P < 0.05) . The relative expression of miR-612 ( F = 150.78, P < 0.001) , cellular proliferative activity at 24, 48, 72 hours (all P < 0.05) , apoptosis rate and number of migratory and invasive cells (all P < 0.05) significantly differed among the si-LEF1-AS1 group, si-NC group, si-LEF1-AS1+anti-miR-612 group and si-LEF1-AS1+anti-miR-NC group. Compared with the si-NC group, the si-LEF1-AS1 group showed significantly increased expression of miR-612 and apoptosis rates, but significantly decreased cellular proliferative activity at 48, 72 hours, and number of migratory and invasive cells (all P < 0.05) ; compared with the si-LEF1-AS1+anti-miR-NC group, the si-LEF1-AS1+anti-miR-612 group showed significantly decreased expression of miR-612 and apoptosis rates, but significantly increased cellular proliferative activity at 48, 72 hours, and number of migratory and invasive cells (all P < 0.05) . Western blot analysis showed that the relative protein expression of cyclinD1, p21, Bcl-2, Bax, MMP-2 and MMP-9 significantly differed among the si-LEF1-AS1 group, si-NC group, si-LEF1-AS1+anti-miR-612 group and si-LEF1-AS1+anti-miR-NC group (all P < 0.001) ; compared with the si-NC group, the si-LEF1-AS1 group showed significantly increased protein expression of cyclinD1, Bcl-2, MMP-2 and MMP-9, but significantly decreased protein expression of p21 and Bax (all P < 0.05) ; compared with the si-LEF1-AS1+anti-miR-NC group, the si-LEF1-AS1+anti-miR-612 group showed significantly increased protein expression of cyclinD1, Bcl-2, MMP-2 and MMP-9, but significantly decreased protein expression of p21 and Bax (all P < 0.05) . After co-transfection with complementary sequences, the fluorescence activity was significantly lower in the miR-612 overexpression group than in the overexpression control group ( t = 21.19, P < 0.001) ; after co-transfection with non-complementary sequences, no significant difference was observed in the fluorescence activity between the miR-612 overexpression group and overexpression control group ( t = 0.28, P = 0.78) . Conclusion:lncRNA LEF1-AS1 regulates the proliferation, apoptosis, migration and invasion of cutaneous squamous cell carcinoma cells, likely by targeting miR-612.
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Objective To evaluate the effects of ultraviolet A (UVA) on autophagy in human skin fibroblasts (HSFs).Methods Cultured HSFs were randomly divided into chronic and acute UVA radiation groups.HSFs in the chronic UVA radiation groups were irradiated with UVA at 5,10 and 20 J/cm2 separately once a day for 4 consecutive days,with HSFs receiving no radiation serving as the chronic radiation control group;HSFs in the acute UVA radiation groups received a single session of radiation with 5,10,30 and 60 J/cm2 UVA separately,with HSFs receiving no radiation serving as the acute radiation control group.After additional culture for different durations,methyl thiazolyl tetrazolium (MTT) assay was performed to evaluate the proliferative activity of HSFs,monodansylcadaverin (MDC) staining to determine autophagy levels,and Western blot analysis to track the conversion of the microtubule-associated protein 1 light chain-3 (LC3)-Ⅰ to LC3-Ⅱ.Statistical analysis was carried out by using one-way analysis of variance followed by Students-Newman-Keuls (SNK) test for multiple-group comparisons and by the independent sample t test for two-group comparisons.Results The cellular proliferative activity significantly decreased in the 3 chronic radiation groups at 1 hour after the final UVA radiation compared with the chronic radiation control group (F =155.5,P < 0.05),and in the 4 acute radiation groups at 1,6 and 12 hours after UVA radiation compared with the acute radiation control group (F =1 335,1 649,2 774,all P < 0.05).MDC staining showed that the autophagy levels in HSFs significantly increased in the 3 chronic radiation groups after UVA radiation compared with the chronic radiation control group (F =748.62,P > 0.05),but showed no significant changes in any of the acute radiation groups at 1,6 or 12 hours after UVA radiation compared with the acute radiation control group (F =0.014,0.004,0.002,all P > 0.05).The ratio of LC3-Ⅱ to LC3-Ⅰ was significantly elevated in all the 3 chronic radiation groups at 1 hour after UVA radiation compared with the chronic radiation control group (t =9.002,21.772,18.33,all P < 0.05),but experienced no obvious changes in any of the acute radiation groups at 1,6 or 12 hours after UVA radiation compared with the acute radiation control group (F =0.13,0.27,0.06,all P > 0.05).Conclusion Chronic UVA radiation can upregulate autophagy levels in HSFs,but acute UVA radiation has no evident effects on it.
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Objective To evaluate the effects of alpha-lipoic acid (α-LA)on autophagy in human skin fibroblasts (HSFs). Methods HSFs at passage 3 - 5 were divided into several groups to be cultured with α-LA at final concentrations of 0, 0.01, 0.05, 0.10, 0.15, 0.20 and 0.50 mmol/L for 4, 12 and 24 hours, respectively. Methyl thiazolyl tetrazolium(MTT)assay was performed to evaluate cellular proliferative activity, monodansylcadaverin(MDC)staining to determine autophagy levels, and Western blot to measure the expression of the microtubule-associated protein 1 light chain-3B(LC3-B). Results After incubation for 24 hours, there was a significant difference in the proliferative activity of HSFs among all the groups (F = 10.41, P 0.05). MDC staining also showed a significant difference in the percentage of autophagosome-positive cells among all the groups after 24-hour incubation (F = 8.03, P 0.05). Western blot revealed that the degree of conversion from LC3-Ⅰ to LC3-Ⅱ(LC3-Ⅱ/LC3-Ⅰratio)was significantly different among all the groups after 24-hour incubation (F = 37.49, P 0.05). Conclusion α-LA may inhibit basal autophagy in HSFs.