Lin-Jing Huang1,2, Cong-Cong Zhang1, Mei-Ping Zhao1, Meng-Xiao Zheng1, Lei Ying1, Xi-Wen Chen3, Wan-Tie Wang1. 1. Department of Pathophysiology, Wenzhou Medical University, Wenzhou 325035, China. 2. The Second Affiliated Hospital of Wenzhou Medical University, Wenzhou 325035, China. 3. Experimental Animal Center, Wenzhou Medical University, Wenzhou 325035, China.
Abstract
OBJECTIVE: To explore the relationship between hypoxic pulmonary arterial smooth muscle cells(PASMCs)proliferation, apop-tosis and mitogen-activated protein kinases(MAPK) signal pathway in rats. METHODS: PASMCs were obtained from male SD rats by the enzyme digestion method and primarily cultured; PASMCs were identified through two methods:immunofluorescence staining and light microscopy; the 4~6th generation PASMCs of logarithmic growth state of good growth period were selected, and randomly divided into 7 groups:normoxic con-trol group (N), hypoxia group (H), DMSO group (D), extracellular signal-regulated kinase1/2(ERK1/2) inhibitor-U0126 group (U) and p38MAPK inhibitor-SB203580 group (S), the p38MAPK activator-Anisomycin group (A), the ERK1/2 activator-Staurosporine Aglycone group (SA). When all the models were completed, the all groups joined the CCK-8 to measure cell proliferation; cell apoptosis of each group was detected by TUNEL kit after the modeling. RESULTS: Compared with N group, the expression of OD value in H group was up-regulated (0.990 ±0.041 vs 1.143 ±0.033,P < 0.01). There was no statistical significance on PASMCs apoptosis index(AI) in H group (4.913 ±0.451 vs 5.452 ±0.557, P > 0.05); Compared With H group, there were no statistical significance on the expression of PASMCs OD value and apoptosis index(AI)in D group (1.143 ±0.033 vs 1.142 ±0.049,5.452 ±0.557 vs 5.402 ±0.651,P > 0.05); the expression of OD value in U group was down-regulated, and the expression of AI was up-regulated (1.143 ±0.033 vs 0.985 ±0.078, 5.452 ±0.557 vs 10.145 ±2.545, P < 0.01); the expression of OD value in S group was up-regulated, and the expression of AI was down-regulated (1.143 ±0.033 vs 1.295 ±0.039, 5.452 ±0.557 vs 3.093 ±0.409, P < 0.01); the expression of OD value in A group was down-regulated, and the expres-sion of AI was up-regulated (1.143 ±0.033 vs 0.347 ±0.067, 5.452 ±0.557 vs 25.753 ±1.262, P < 0.01); the expression of OD value in SA group was up-regulated, and the expression of AI was down-regulated (1.143 ±0.033 vs 1.685 ±0.100, 5.452 ±0.557 vs 1.700 ±0.095, P < 0.01). CONCLUSIONS: The regulation of PASMCs' proliferation and apoptosis under hypoxia condition have a relationship with the participation of MAPK signal pathway.
OBJECTIVE: To explore the relationship between hypoxic pulmonary arterial smooth muscle cells(PASMCs)proliferation, apop-tosis and mitogen-activated protein kinases(MAPK) signal pathway in rats. METHODS:PASMCs were obtained from male SD rats by the enzyme digestion method and primarily cultured; PASMCs were identified through two methods:immunofluorescence staining and light microscopy; the 4~6th generation PASMCs of logarithmic growth state of good growth period were selected, and randomly divided into 7 groups:normoxic con-trol group (N), hypoxia group (H), DMSO group (D), extracellular signal-regulated kinase1/2(ERK1/2) inhibitor-U0126 group (U) and p38MAPK inhibitor-SB203580 group (S), the p38MAPK activator-Anisomycin group (A), the ERK1/2 activator-Staurosporine Aglycone group (SA). When all the models were completed, the all groups joined the CCK-8 to measure cell proliferation; cell apoptosis of each group was detected by TUNEL kit after the modeling. RESULTS: Compared with N group, the expression of OD value in H group was up-regulated (0.990 ±0.041 vs 1.143 ±0.033,P < 0.01). There was no statistical significance on PASMCs apoptosis index(AI) in H group (4.913 ±0.451 vs 5.452 ±0.557, P > 0.05); Compared With H group, there were no statistical significance on the expression of PASMCs OD value and apoptosis index(AI)in D group (1.143 ±0.033 vs 1.142 ±0.049,5.452 ±0.557 vs 5.402 ±0.651,P > 0.05); the expression of OD value in U group was down-regulated, and the expression of AI was up-regulated (1.143 ±0.033 vs 0.985 ±0.078, 5.452 ±0.557 vs 10.145 ±2.545, P < 0.01); the expression of OD value in S group was up-regulated, and the expression of AI was down-regulated (1.143 ±0.033 vs 1.295 ±0.039, 5.452 ±0.557 vs 3.093 ±0.409, P < 0.01); the expression of OD value in A group was down-regulated, and the expres-sion of AI was up-regulated (1.143 ±0.033 vs 0.347 ±0.067, 5.452 ±0.557 vs 25.753 ±1.262, P < 0.01); the expression of OD value in SA group was up-regulated, and the expression of AI was down-regulated (1.143 ±0.033 vs 1.685 ±0.100, 5.452 ±0.557 vs 1.700 ±0.095, P < 0.01). CONCLUSIONS: The regulation of PASMCs' proliferation and apoptosis under hypoxia condition have a relationship with the participation of MAPK signal pathway.
Entities:
Keywords:
ERK1/2; PASMCs; apoptosis; hypoxia; p38MAPK; proliferation; rat