陈克明(1968年8月-),理学博士,联勤保障部队第九四Ο医院基础医学实验室主任,主任技师,兰州大学临床医学院教授,享受军队优秀专业技术人才一类岗位津贴。1986年考入兰州老员工物系细胞生物学专业,1993年获得硕士学位后入伍到原兰州军区总医院骨科研究所工作,师从葛宝丰院士从事骨科基础研究。1999年考取兰州老员工命科学学院郑荣梁教授博士研究生,2003年获博士学位,2004年 9月~2006年 9月在原兰州军区总医院全军博士后流动站开展博士后研究。主要研究方向有:骨髓间充质干细胞应用于骨缺损修复的研究、抗骨质疏松中草药有效成分的筛选与新药研发、低频电磁场的骨保护效应与治疗仪研制、骨稳态调控与信号转导机制等。主持国家自然科学基金面上项目、科技部国际合作专项、国家博士后基金、全军后勤科研面上项目和甘肃省科技重大专项等,以第一(或通讯作者)发表论文200余篇,其中发表于《J Bone Mineral Res》(1区、top刊)、《J Biol Chem》(top刊)、《Bone》和《Endocrinology》等SCI论文40余篇,获2018年度甘肃省科技进步一等奖(第一完成人)、甘肃省科技进步二等奖2项、军队科技进步二等奖1项、三等奖3项。现为《中国骨质疏松杂志》和《解放军医药杂志》编委,10余本SCI杂志的审稿专家。作为兰州大学、永利集团、甘肃农业大学、甘肃中医药大学等多所大学的硕士研究生导师,已培养毕业45名研究生。
联系方式:邮箱chenkm@lut.edu.cn 微信wxid_ngs5j8rkws0q22
1. 学术奖励情况:
(1) 2018年度甘肃省科技进步一等奖:甘肃淫羊藿的抗骨质疏松作用机制与转化应用研究. 证书号:2018-J1-007-R1. 主要完成人:陈克明,夏月,马慧萍等.
2. 承担项目情况:
(1) 国家自然科学基金面上项目. 项目名称:初级纤毛通过sAC/cAMP/PKA途径启动低频脉冲电磁场促进骨形成信号级联反应的研究(编号81770879). 主持人:陈克明. 资助金额56万元;起止时间:2018.1~2021.12
(2) 国家自然科学基金面上项目:生物素标记法钓取淫羊藿素受体及其促进骨形成信号转导途径的研究(编号81471090) 主持人:陈克明. 资助金额73万元;起止时间:2015.1~2018.12
(3) 国家自然科学基金面上项目:初级纤毛作为电磁信号感受器调节骨形成的作用与机理研究(编号81270963). 主持人:陈克明. 资助金额:70万元;起止时间:2013.01-2016.12
(4) 国家国际科技合作专项:空间环境下骨质流失机制及应对措施合作研究. (编号2015DFR30940).子项目主持人:陈克明. 资助金额:80万元. 起止时间:2015.04-2018.04
(5) 全军后勤科研计划项目:高原战创伤性骨折的加速愈合研究(编号CLB18J028). 主持人:陈克明. 资助金额:70万元;起止时间:2019.1~2021.12.
(6) 甘肃省科技重大专项:基于变异亥姆霍兹线圈的大型骨质疏松治疗仪的研制(编号092NKDA025). 主持人:陈克明. 资助金额100万元. 起止时间:2009.06~2012.06
3. 发表SCI论文(均为通讯作者):
(1) Yan JL, Zhou J, Ma HP, Ma XN, Gao YH, Shi WG, Fang QQ, Ren Q, Xian CJ, Chen KM. Pulsed electromagnetic fields promote osteoblast mineralization and maturation needing the existence of primary cilia. Mol Cell Endocrinol, 2015, 404: 132–140.
(2) Zhou J, Ma XN, Gao YH, Yan JL, Shi WG, Xian CJ, Chen KM. Sinusoidal electromagnetic fields promote bone formation and inhibit bone resorption in rat femoral tissues in vitro. Electromagn Biol Med, 2016,35(1):75-83.
(3) Xie YF, Shi WG, Zhou J, Gao YH, Li SF, Fang QQ, Wang MG, Ma HP, Wang JF, Xian CJ, Chen KM. Pulsed electromagnetic fields stimulate osteogenic differentiation and maturation of osteoblasts by upregulating the expression of BMPRII localized at the base of primary cilium. Bone, 2016, 93:22-32. doi: 10.1016/j.bone.2016.09.008 4.140
(4) Ma XN, Ma CX, Shi WG, Zhou J, Ma HP, Gao YH, Xian CJ, Chen KM. Primary cilium is required for the stimulating effect of icaritin on osteogenic differentiation and mineralization of osteoblasts in vitro. J Endocrinol Invest, 2017 40(4):357-366. 2.633
(5) Lee AC, Shandala T, Soo PP, Su YW, Tristan J. King TJ, Chen KM, Howe PR, Xian CJ. Effects of resveratrol supplementation on methotrexate chemotherapy-induced bone loss. Nutrients 2017, 9, 255; doi:10.3390/nu9030255
(6) Shi WG,Xie YF, He JP, Zhou J, Gao YH, Wei WJ, Ding N, Ma HP, Xian CJ, Chen KM, Wang JF. Microgravity induces inhibition of osteoblastic differentiation and mineralization through abrogating primary cilia. Sci Rep 2017 May 12;7(1):1866. doi: 10.1038/s41598-017-02049-9 4.259
(7) Su YW, Chen KM, Hassanshahi M, Tang Q, Howe PR, Xian CJ. Childhood cancer chemotherapy-induced bone damage: pathobiology and protective effects of resveratrol and other nutraceuticals. Ann N Y Acad Sci. 2017, 1403(1):109-117. doi: 10.1111/nyas.13380.
(8) Shi WG, Gao YH, Wang YY, Zhou J, Wei ZL, Ma XN, Ma H, Xian CJ, Wang JF, Chen KM. The flavonoid glycoside icariin promotes bone formation in growing rats by activating the cAMP signaling pathway in primary cilia of osteoblasts. J Biol Chem. 2017,292(51):20883-20896. doi:10.1074/jbc.M117. 809517.
(9) Zhu BY, Yang ZD, Chen XR, Zhou J, Gao YH, Xian CJ, Chen KM. Exposure duration is a determinant of the effect of sinusoidal electromagnetic fields on peak bone mass of young rats. Calcified Tissue Int, 2018;103(1):95-106. doi: 10.1007/s00223-018-0396-2.
(10) Xi HR, Ma HP, Yang FF, Gao YH, Zhou J, Wang YY, Li WY, Xian CJ, Chen KM. Total flavonoid extract of Epimedium herb increases the peak bone mass of young rats involving enhanced activation of the AC10/cAMP/PKA/ CREB pathway. J Ethnopharmacol 2018, 223:76-87. doi: 10.1016/j.jep. 2018.05.023.
(11) Li WY, Li XY, Tian YH, ChenXR, Zhou J, Zhu BY, Xi HR, Gao YH, Xian CJ, Chen KM. Pulsed electromagnetic fields prevented the decrease of bone formation in hindlimb-suspended rats by activating sAC/cAMP/PKA/CREB signaling pathway. Bioelectromagnetics,2018, 39(8):569-584.doi:10.1002/bem. 22150.
(12) Wang YY, Pu XY, Shi WG, Fang QQ, Chen XR, Xi HR, Zhou J, Xian CJ, Chen KM. Pulsed electromagnetic fields promote bone formation by activating the sAC-cAMP-PKA-CREB signaling pathway. J Cell Physiol, 2019; 234: 2807– 2821. doi: 10.1002/jcp.27098.
(13) Zhou J, Gao YH, Zhu BY, Shao JL, Ma HP, Xian CJ, Chen KM. Sinusoidal electromagnetic fields increase peak bone mass in rats by activating Wnt10b/β-catenin in primary cilia of osteoblasts. J Bone Miner Res, 2019;34(7):1336-1351. doi: 10.1002/jbmr.3704.
(14) Fang YY, Xue ZY, Zhao LG, Yang XY, Yang YF, Zhou XL, Shilan Feng SL, Chen KM. Calycosin stimulates the osteogenic differentiation of rat calvarial osteoblasts by activating the IGF1R/PI3K/Akt signaling pathway. Cell Biol Int, 2019; 43(3):323-332. doi: 10.1002/cbin.11102.
(15) Hassanshahi M, Su YW, Khabbazi S, Fan CM, Tang Q, Wen X, Fan J, Chen KM, Xian CJ. Icariin attenuates methotrexate chemotherapy‐induced bone marrow microvascular damage and bone loss in rats. J Cell Physiol, 2019, DOI: 10.1002/jcp.28326
(16) Shi WG, Zhang YN, Chen KM, He JP, Feng X, Wei WJ, Hua JR, Wang JF. Primary cilia act as microgravity sensors by depolymerizing microtubules to inhibit osteoblastic difffferentiation and mineralization. Bone, 2020; 136:115346.
(17) Zhou J, Gao YH, Zhu BY, He WF, Wang G, Xian, Cory J, Chen KM. The frequency window effect of sinusoidal electromagnetic fields in promoting osteogenic differentiation and bone formation involves extension of osteoblastic primary cilia and activation of protein kinase A. Cell Biol Int,2021;45(8):1685-1697. doi: 10.1002/cbin.11606.
(18) He WF, Qin R, Gao YH, Zhou J, Wei JJ, Jing Liu, Li XY, Chen KM. The interdependent relationship between the nitric oxide signaling pathway and primary cilia in pulse electromagnetic field-stimulated osteoblastic differentiation. FASEB J. 2022;36(6):e22376. doi: 10.1096/fj.202101577RR.