RESUMO
Aim To explore the role of transcription factor F0XM1 in collagen synthesis in MRC-5 cells in-duced by high glucose.Methods I ▪ The optimal time and concentration of the hyperglycemia model in MRC-5 cells were explored by CCK8: the time gradi¬ents: 6,12,24,48,72 h; the concentration gradients: 5.5,15 ,30,45 mmol • L 1 , and 30 mmol • L 1 man- nitol was used to be the hypertonic control group.(2) Hie effect of collagen synthesis in MRC-5 cells induced by high glucose was detected: the cells were divided into normal control group, hypertonic control group (30 mmol • L 1 mannitol) and high glucose (30 mmol • L 1 ) group.WB and qPCR assays were used to de¬tect the expression of conllagen synthesis factors ( Fn, COL 1, COL m, a-SMA, MMP9, TIMP1 ) and TGF-p signaling pathway factors (TGF-pi , p-Smad2/ Smad2).(3 The role of FOXMl in promoting collagen synthesis by high glucose was investigated: the cells were divided into normal control group, hypertonic control group (30 mmol • L 1 mannitol) , high glucose ( 30 mmol • L 1 ) group and high glucose (30 mmol • L 1 ) + thiostrepton ( 1 (xmol) group, and the expres¬sions of FOXM1 , collagen synthesis factors were detec¬ted by WB and qPCR assays.Results Mannitol had no significant effect on proliferation of MRC-5 cells, hut their proliferation activity was significantly lower than that of control group when MRC-5 cells were trea¬ted with 30 mmol • L 1 high glucose for 24 h; the ex¬pressions of COL 1 , COL IH , F0XM1 and other fac¬tors were promoted when MRC5 cells were treated with high glucose; the expression of F0XM1 was signifi¬cantly inhibited after the addition of thiostrepton, and the expressions of collagen synthesis factors also de-creased compared with high glucose group, and the a- bove differences were all statistically significant (P < 0.05).Conclusion FOXM1 is a factor related to the increase of collagen synthesis in MRC-5 cells induced by high glucose.
RESUMO
After separation of bacterial colonies on solid plates, purification, and screening through the agar cup-plate method, an antibiotic-resistant bacterial isolate was obtained, and named strain L20190601, the 16S rRNA gene sequence data of strain L20190601 to GenBank, NCBI have provided GenBank accession number MW931615. 16S rRNA gene sequencing revealed that this isolate was highly similar to a number of Streptomyces species. Among them, the homology with S. spectabilis was the highest, reaching 99.9, together with curved hyphal morphology and biochemical tests, allowed us to identify strain L20190601 as S. spectabilis. The red pigment produced by S. spectabilis strain L20190601 was structurally identified. An acid-base color reaction assay showed that when this pigment was dissolved in a solution at pH 3.0 and 9.0, the color of the solution was red and yellow, respectively. In addition, the analysis of absorption spectra revealed that at pH 8.0 and 3.0, the maximum absorption peaks were at 466 and 531 nm, respectively. These results are consistent with the spectral absorption characteristics of metacycloprodigiosin reported in the literature. Moreover, the retention time of purified pigments was identical to those of standard metacycloprodigiosin solutions. Mass spectrometry analysis revealed that the molecular weight of the red compound was 392.2 [M + H]+. Finally, metacycloprodigiosin was found to be effective against eight clinically common pathogens: Staphylococcus aureus, Bacillus subtilis, Escherichia coli, Streptococcus pyogenes, Pseudomonas aeruginosa, Bacillus typhi, Candida albicans, and Trichophyton rubrum. In summary, metacycloprodigiosin exhibited strong antibacterial activity and a broad antibacterial spectrum, and thus is a promising compound for the development of a new type of antibacterial drug.
