1.Effect of proanthocyaindin on angiogenesis in rats with ischemic hindlimb
Haoyun LI ; Zhenhao HUANG ; Jingjuan HUANG ; Linlin ZHANG ; Junli DUAN
Clinical Medicine of China 2013;29(11):1179-1181
Objective To investigate the effect of proanthcyaindin on angiogenesis of rats with ischemic hindlimb.Methods Twelve male SD rats were randomized divided into control group (n =6) and proanthcyaindin group (PC group,n =6).Lower limb ischemia rat model was establish,rats in both group were administration by oral daily,and PC group was given proanthocyanidins 200 mg/(kg · d),while the control group received the same volume of saline.Forteen days after surgery,ischemic tissues of adductor were collected for several tests including the expression of CD31 in the ischemic muscle tissue and the number of new blood vessels by immunohistochemical staining,hypoxia inducible factor-1 protein expression by western blot,and vascular endothelial growth factor level test by enzyme-linked immunosorbent assay.Results The capillary count showed that the angiogenesis situation of PC group was (69.67 ±3.11)/HP,higher than that in control group((111.00 ± 3.11)/HP,t =13.350,P < 0.0001).The HIF-1 protein expression in PC group was (1.90 ± 0.25),remarkable higher than that in control group (0.54 ± 0.21,t =4.183,P =0.0058).Compared with control group,VEGF level in PC group increased((432.86 ± 13.00) μg/L vs.(326.68 ± 11.08) μg/L,t =6.216,P <0.0001).Conclusion Proanthcyaindin plays a positive role in angiogenesis after ischemia.PC may induce up-regulation of HIF-1 and VEGF,and then promote the formation of endovascular through multiple signaling pathways consequently.
2.The promoting effects of ROCK inhibitor Y-27632 on the activity of limbal stem cells in corneal preservation medium
Yao, WANG ; Haoyun, DUAN ; Lingling, YANG ; Mingli, QU ; Qingjun, ZHOU
Chinese Journal of Experimental Ophthalmology 2015;33(9):787-792
Background Limbal stem cells (LSCs) play an important role on the stability of corneal epithelium and corneal transparency.Rho-associated coiled-coil containing protein kinase (ROCK) inhibitor can promote cell proliferation and reduce apoptosis,such as human embryonic stem cells and karatin epithelial cells.Objective This study was to investigate the improving effect of Y-27632,a ROCK inhibitor,on the activity of rabbit LSCs in corneal preservation medium.Methods Corneal preservation solution was prepared by adding 12.5% chondroitin sulfate,10.0% low molecular dextran,20.0 mg/L dexamethasone,100 mg/L tobramycin sulfate,9.5 g/L Hepes and 0.375 mg/L L-glutamine in MEM.The corneas of New Zealand white rabbits were collected and preserved in the corneal preservation solution with or without Y-27632 for 4,7,14 days,and the density and morphology of corneal endothelial cells were examined by using 0.25% trypan blue staining and 0.2% alizarin red staining.Isolated corneal epithelial cells were seeded on 3T3 feeder layer and cultured for 7-10 days until colonies formation.Colony shape of LSCs was observed under the light microscope,and colony-formation efficiency was analyzed after Giemsa staining by Image J software.Results The morphology and density of corneal endothelial cells were normal in the corneal preservation solution with and without Y-27632 for 4 days.In the seventh day after preservation,the cells remained the regular hexagon in shape in the preservation solution with Y-27632,however,the cellular membrane was slightly shrinking with the positive staining for alizarin red in the preservation solution without Y-27632.The density of corneal endothelial cells in the corneal preservation solution without Y-27632 was (2 262-± 75) cells /mm2,while in the preservation solution with Y-27632 was (2 425 ±95) cells/mm2(P<0.001).The cloning spheres of LSCs were similar in preservation solution both with and without Y-27632 in the freshly isolated cornea or preserved corneas and exhibited more cells inside.But in 7 days and 14 days after preservation,the cloning spheres were much smaller in the preservation solution without Y-27632 group than those in the preservation with Y-27632 group.No significant differences were found in the cloning-formation rate and survival rate of corneal epithelial cells in corneas freshly isolated or preserved for 4 days in both groups (all at P>0.05).In 7 days and 14 days after preservation,the active rates of corneal epitheli.al cells were (73.00±2.12)% and (56.00±0.71)% in the preservation solution with Y27632,which were significantly higher than (66.00 ± 4.00) % and (49.00 ± 0.71) % in the preservation solution without Y-27632,showing statistically significant differences between them (t =3.098,P =0.018;t =9.798,P =0.000).In addition,the cloning-formation rates of LSCs were (11.05±0.21)% and (3.10±1.97)% in the preservation solution with Y-27632 in 7 days and 14 days after preservation,revealing significantly elevation in comparison with (2.05 ± 1.20) % and (0.40 ±0.14) % in the preservation solution without Y-27632 (t =18.107,P =0.000;t=3.184,P=0.017).Conclusions Y-27632 promotes the vitality and cloning-formation ability of LSCs in corneal preservation medium,suggesting its potential use during storage of cornea.
3.Cytotoxicity research of three non-steroidal anti-inflammatory eye drops in human corneal epithelial cells
Mingli, QU ; Haoyun, DUAN ; Yao, WANG ; Qian, WANG ; Qingjun, ZHOU
Chinese Journal of Experimental Ophthalmology 2015;33(7):627-632
Background Diclofenac sodium eye drops,pranoprofen eye drops and bromfenac sodium hydrate eye drops are three clinical commonly used nonsteroidal anti-inflammatory drugs(NSAIDs).The variation of cytoxicity among these drugs and whether the cytoxicity is related to the supplements are also unknown.Objective This study was to compare the cytotoxicity of three non-steroidal anti-inflammatory eye drops and their active components with cultured human corneal epithelial cells (HCECs) in vitro,and to discuss toxic origins of these drugs.Methods HCECs were cultured in different drugs with the final concentration of 0.10%,0.05%,0.02% and 0.01%.Cell proliferation was evaluated by MTT assay.Then,0.002% eye drops (1∶50) was added,and the migration and damage of the cells were deceted by transwell migration assay and lactate dehydrogenase (LDH) assay.Results The cytotoxicity of three nonsteroidal anti-inflammatory eye drops on HCECs was concentration-dependent (all at P=0.00).Diclofenac sodium eye drops showed the most dominant effects on the proliferation,migration and damage of HCECs among the three eye drops,while bromfenac sodium eye drops showed the least effect on the cell damage (proliferation:Fdrug =20.25,P=0.00;migration:F =103.43,P =0.00;damage:Fdrug =164.16,P =0.00).Compared with the eye drops,their active components showed less cytoxicity.Pranoprofen appeared the least effects on the proliferation,migration and damage of HCECs (proliferation:Fdrug =332.27,P =0.00;migration:F =332.27,P =0.00;damage:Fdrug=154.83,P=0.00).Conclusions The cytotoxicity ofdiclofenac sodium eye drops is more obvious than that of pranoprofen eye drops or bromfenac sodium hydrate eye drops.The cytotoxicity of the three eye drops originates from their supplements or the interaction between the supplements and active components.
4.Promoting effect of nicotinamide on generation of neural crest stem cells derived from human embryonic stem cells
Haoyun DUAN ; Wenjing LI ; Yanni JIA ; Can ZHAO ; Qingjun ZHOU ; Zongyi LI
Chinese Journal of Experimental Ophthalmology 2022;40(12):1141-1148
Objective:To investigate the role of nicotinamide (NIC) in the differentiation of neural crest cells from human embryonic stem cells (hESCs), and lay the foundation for the induction of hESC-derived corneal endothelial cells.Methods:hESCs line H1 cultured for 5-7 days was used for induction.According to the different components of the neural crest induction medium, cells were assigned into different groups for 7-days induction, including group treated without NIC cultured in induction medium only, group treated with NIC cultured in induction medium containing 10 mmol/L NIC, NIC+ resveratrol (Res) group cultured in induction medium containing 10 mmol/L NIC and 10 μmol/L Res and Sirtinol group cultured in induction medium containing 10 μmol/L Sirtinol.Res and Sirtinol were used as SIRT1 activity agonist and inhibitor, respectively.The relative mRNA expression levels of hESCs and neural crest cell markers were detected by real-time fluorescence quantitative PCR at 1, 3, 5 and 7 days during the induction.The expression of neural crest cells markers after 7 days of induction was assayed by immunofluorescence staining.The induction efficiency of NIC and the effect of SIRT1 regulation on human natural killer 1 (HNK-1) positive cells expression were evaluated through flow cytometry analysis of percentages of nerve growth factor receptor (P75) and HNK-1 + cells. Results:Compared with the group treated without NIC, the mRNA expressions of totipotent genes octamer transcription factor 4 (OCT4) and homeodomain proteins (NANOG) were significantly decreased, and the mRNA expression levels of neural crest cell markers P75, HNK-1, SRY-related HMG box (SOX) 9 and SOX10 were significantly increased in the group treated with NIC after 5 days of induction (all at P<0.05). In the group treated without NIC, P75 was weakly expressed, and HNK-1 was sporadically expressed, and transcription factor AP-2β (AP-2β) and paired-like homeodomain transcription factor 2 (PITX2) were not detected.In the group treated with NIC, P75, HNK-1, AP-2β and PITX2 were strongly expressed.The proportion of P75 + HNK-1 + cells and P75 + cells were both significantly higher in the group treated with NIC than without NIC ( t=8.481, P=0.001; t=2.987, P=0.041). The percentage of HNK-1 + cells in groups treated without and with NIC, NIC+ Res group and Sirtinol group were (34.267±12.522)%, (89.633±1.358)%, (64.667±6.429)% and (86.300±3.460)%, respectively, with a statistically significant overall difference ( F=36.799, P<0.001). The proportion of HNK-1 + cells in NIC+ Res group was significantly lower than that in the groups treated with NIC and Sirtinol (all at P<0.05). Conclusions:NIC promotes the differentiation of hESCs-derived neural crest cells by inhibiting the activity of SIRT1 to enhance the expression of HNK-1.NIC treatment may provide a new strategy for source of seed cells in the treatment of neural crest cell-related diseases, such as corneal endothelial transplantation.