MiR-205-3p protects human corneal epithelial cells from ultraviolet damage by inhibiting autophagy via targeting TLR4/NF-κB signaling.

OBJECTIVE: MiRNA has been found to have therapeutic effect on corneal damage. This paper aimed to study the effect of miR-205-3p on corneal damage induced by ultraviolet (UV) radiation. MATERIALS AND METHODS: HCE cells were exposed to UV light and transfected. Quantitative Real Time-Polymerase Chain Reaction (qRT-PCR) and Western blot were used to determine miRNA/mRNA and protein expression. CCK-8 assay, Edu incorporation experiment, and flow cytometry were used to separately measure cell activity, proliferation and apoptosis. LC3 puncta were researched by immunofluorescence experiment. TNF-α, IL-6 and IL-1ß levels in cells were detected by enzyme-linked immunosorbent assay (ELISA) kit. MDA, SOD, and GSH-PX levels were measured using detection kits. Reactive oxygen species (ROS) level was reflected by detecting DCFH-DA density. Luciferase activity assay was performed to verify the regulating relationship between miR-205-3p and TLR4. RESULTS: UV radiation decreased HCE cell viability, proliferation, and increased HCE cell apoptosis and autophagy (all p < 0.01). When exposed UV radiation, the overexpression of miR-205-3p group elevated HCE cells viability, proliferation and weakened HCE cells apoptosis and autophagy (all p < 0.01). MiR-205-3p inhibited inflammation and oxidative stress in HCE cells induced by UV radiation (p < 0.01). MiR-205-3p directly inhibited TLR4 expression. The upregulation of TLR4 significantly reversed the effects of miR-205-3p on HCE cells phenotypes induced by UV radiation (p < 0.01). CONCLUSIONS: MiR-205-3p protected HCE cells from UV damage by inhibiting autophagy via targeting TLR4.

ROS, MAPK/ERK and PKC play distinct roles in EGF-stimulated human corneal cell proliferation and migration.

Cornea is at the outermost surface of eye globe, and it easily receives damage from ultraviolet light exposure, physiology wounding, and infections. It is essential to understand the mechanisms controlling human corneal epithelial (HCE) cell proliferation and wound healing. Epidermal growth factor (EGF) could stimulate cell proliferation and migration in various cell types. Therefore, we investigated the roles and mechanisms of EGF on HCE cell proliferation and migration. CCK-8 kit and wound healing experiment were used to investigate HCE cell proliferation and cell migration, respectively. ROS activity was quantified by DCFDA and flow cytometry. Western blot and Q-PCR were performed to examine protein and RNA levels. EGF could promote HCE cell proliferation and migration in both physiology status and UV irradiation conditions, which is used to mimic the disease condition in human corneal epithelial cells. Interestingly, the promotion effect of EGF on HCE cell proliferation is mainly mediated by activated ROS signaling under disease condition. However, the EGF function is mediated by ROS and MAPK/ERK pathway in EGF-treated corneal epithelial cells in physiology status, in which ROS and MAPK/ERK pathway have no mutual influence on the other signaling pathway in EGF-stimulated corneal epithelial cells. We also revealed that MAPK/ERK pathway instead of ROS mediates EGF-stimulated HCE cell migration. Interestingly, we found that PKC proteins were downregulated by EGF in HCE cells that is partially mediated by ROS signaling, while PKC pathway was not involved in EGF-stimulated corneal cell proliferation and migration. EGF promotes human corneal cell proliferation and migration both in physiology and disease conditions, and ROS, MAPK/ERK and PKC pathways play different roles in these processes.

Associations of depression with impaired glucose regulation, newly diagnosed diabetes and previously diagnosed diabetes in Chinese adults.

AIM: To examine the association between depression and impaired glucose regulation, newly diagnosed diabetes and previously diagnosed diabetes in middle-aged and elderly Chinese people, and whether depression was associated with different treatment regimens or durations of diabetes. METHODS: A cross-sectional study was performed among 229,047 adults living in the community aged ≥ 40 years from 25 centres in China. The self-reported depression rating scale Patient Health Questionnaire 9 (PHQ-9) was used to diagnose probable and sub-threshold depression. Glucose metabolism status was determined according to World Health Organization 1999 diagnostic criteria. RESULTS: The numbers of participants with normal glucose regulation, impaired glucose regulation, newly diagnosed diabetes and previously diagnosed diabetes were 120,458, 59,512, 24,826 and 24,251, respectively. The prevalence of sub-threshold depression in the total sample of participants was 4.8% (4.8%, 4.8%, 4.4% and 5.6% from normal glucose regulation to previously diagnosed diabetes, respectively), and the prevalence of probable depression was 1.1% (1.1%, 1.0%, 0.9% and 1.8% from normal glucose regulation to previously diagnosed diabetes, respectively). Compared with participants with normal glucose regulation, those with previously diagnosed diabetes had increased odds of probable depression [odds ratio (OR) = 1.61, 95% confidence interval (CI) 1.39-1.87] and sub-threshold depression (OR = 1.14, 95% CI 1.06-1.24), after adjustment for multiple confounding factors. Newly diagnosed diabetes or impaired glucose regulation was not associated with depression. Among those with previously diagnosed diabetes, insulin treatment was associated with greater odds of depression compared with no treatment or oral anti-diabetic medicine. CONCLUSION: Previously diagnosed diabetes, but not newly diagnosed diabetes or impaired glucose regulation, was associated with a higher prevalence of depression. Patients receiving insulin were more likely to have depression than those not receiving treatment or being treated with oral anti-diabetic medicine.

A preferential inhibition by Zn2+ on platelet activating factor- and thrombin-induced serotonin secretion from washed rabbit platelets.

Zinc ions at micromolar levels exhibited a significant inhibitory activity toward platelet activating factor (AGEPC)- and thrombin-induced serotonin release from washed rabbit platelets. In the ranges from 25 to 30 microM and 10 to 50 microM, respectively, zinc essentially prevented any serotonin release from 1.25 X 10(8) cells/microliter by 1 X 10(-10) M AGEPC and by 0.2 unit thrombin/ml. This inhibition by zinc ions, in micromolar range, occurred in the presence of 1.0 mM Ca2+. The amount of zinc needed for inhibition was inversely proportional to the amount of AGEPC present and further zinc must be added prior to or at the same time as the AGEPC to be effective. Introduction of zinc ions after the AGEPC essentially abolished the inhibitory properties of this divalent cation. Other cations such as Cu2+, La3+, Cd2+, and Mg2+ were ineffective as inhibitors at concentrations where zinc showed its maximal effects. Under conditions similar to those noted above, aggregation induced by AGEPC was blocked only to the extent of 25% of a control. No inhibitory action by zinc on thrombin-induced aggregation was noted. It is apparent that zinc ions influence a site(s) on the rabbit platelet of considerable importance to the activation (or signaling) process by AGEPC and thrombin in these cells, as expressed by serotonin release. Zinc should provide a suitable probe to explore the mechanism of action of these agonists in their interaction with sensitive cells and to define in more specific biochemical terms the putative receptor for these molecules.