HBx诱发肝脏糖原代谢的昼夜节律性异常  

作　　者：赵新军 李循[3] 王书恒 李九智[3] ZHAO Xin-Jun;LI Xun;WANG Shu-Heng;LI Jiu-Zhi(Xinjiang Laboratory of Phase Transitions and Microstructures of Condensed Matter Physics,Yi Li Normal University,Yining 835000,China;Laboratory of Micro-Nano Electro Biosensors and Bionic Devices,Yili Normal University,Yining 835000,China;Department of Urology,the Xinjiang Uygur Autonomous Region People’s Hospital,Urumqi 830000,China)

机构地区：[1]伊犁师范大学新疆凝聚态相变与微结构实验室,伊宁835000 [2]伊犁师范大学微纳电传感器技术与仿生器械实验室,伊宁835000 [3]新疆维吾尔自治区人民医院泌尿外科,乌鲁木齐830000

出　　处：《原子与分子物理学报》2021年第5期43-50,共8页Journal of Atomic and Molecular Physics

基　　金：国家自然科学基金(21764015);伊犁师范大学博士科研启动基金(2020YSBS008)。

摘　　要：在本文中,基于Hill动力学与Michaelis-Menten方程,建立理论模型研究乙肝病毒x蛋白(HBx)诱发肝脏糖原代谢的昼夜节律性改变.理论模型考虑:HBx、组蛋白脱乙酰基酶1(HDAC1)与乙酰化的p53(p53_(AC))结合形成复合体,并抑制GYS2表达;CLOCK基因通过调控昼夜节律mRNA(Circadian mRNA)和频率蛋白(FRQ)的表达合成,调节GYS2磷酸化/去磷酸化的昼夜节律性.研究发现,在较低HBx浓度条件下,磷酸化的GYS2(pGYS2)和去磷酸化的GYS2(dGYS2)随时间演化,呈现了周期性的振荡特性.GYS2通过磷酸化作用抑制其活性,通过去磷酸化,GYS2被激活,这种磷酸化/去磷酸化转变保持了肝脏糖原代谢的昼夜节律性.在较高HBx浓度条件下,dGYS2随时间演变的周期振荡节律性被改变,并且振荡幅度降低.由此表明,较高浓度的HBx则会在很大程度上改变GYS2去磷酸化的活性,GYS2磷酸化/去磷酸化转变的昼夜节律性会被HBx破坏.另外,HBx与HDAC1、p53_(AC)形成复合体协同抑制GYS2,也会在很大程度上改变GYS2磷酸化/去磷酸化转变的昼夜节律性.糖原代谢昼夜节律性的改变,导致肝脏内糖原代谢紊乱,进而促使肝癌(HCC)的发生发展.理论结果符合实验,并进一步揭示了HBx诱发肝脏糖原代谢紊乱,进而导致HCC的发生发展的一种致癌机理,可为设计阻断HBV向HCC转变通路的治疗方案提供理论依据.In this paper,based on Hill kinetics and Michaelis-Menten equation,we built a theoretical model to study the circadian rhythm changes of hepatic glycogen metabolism induced by hepatitis B virus x protein(HBx).Theoretical model considerations:HBx,histone deacetylase 1(HDAC1)and acetylated p53(p53_(AC))combine to form a complex(HHP)and inhibit GYS2 expression.The CLOCK gene regulates the circadian rhythm of GYS2 phosphorylation/dephosphorylation by regulating the expression and synthesis of circadian mRNA(CmRNA)and frequency protein(FRQ).We found that at low HBx concentration,phosphorylated GYS2(pGYS2)and dephosphorylated GYS2(dGYS2)show periodic oscillation.GYS2 inhibits its activity through phosphorylation,and GYS2 is activated through dephosphorylation.This phosphorylation/dephosphorylation maintains the circadian rhythm of liver glycogen metabolism.At high HBx concentration,the periodic oscillation rhythm of dGYS2 is changed,and the oscillation amplitude is reduced.This indicates that a higher HBx concentration will greatly change the dephosphorylation activity of GYS2.Thus,the circadian rhythm of the phosphorylation/dephosphorylation transition of GYS2 will be disrupted by HBx.In addition,HBx forms a complex with HDAC1 and p53AC to inhibit the GYS2,which will also greatly regulate the circadian rhythm of the phosphorylation/dephosphorylation,and change the circadian rhythm of glycogen metabolism.The changes in the circadian rhythm of glycogen metabolism lead to disorders of glycogen metabolism in the liver,which in turn promotes the occurrence and development of hepatocellular carcinoma(HCC).The theoretical results are consistent with the experiment,and further reveal a carcinogenic mechanism that HBx induces liver glycogen metabolism disorders,which leads to the occurrence and development of HCC.It can provide a theoretical basis for the design of treatment plan that blocks the pathway from hepatitis B to HCC.

关 键 词：乙肝病毒x蛋白(HBx) 糖原代谢 昼夜节律性 

分 类 号：Q492[生物学—生理学]