硫氧还蛋白系统在COPD抗氧化中的作用研究进展

硫氧还蛋白系统是由硫氧还蛋白（thioredoxin,Trx）,硫氧还蛋白还原酶（thioredoxinreductase,TrxR）和还原型辅酶Ⅱ（NADPH）组成的多功能小分子蛋白系统,广泛表达的硫氧还蛋白作为蛋白质二硫键的还原酶,它参与很多生理过程,并发挥重要生物学功能,包括调节机体的氧化还原反应、抑制细胞凋亡、调节转录因子DNA结合活性以及免疫应答等,其中一重要作用是参与调节细胞氧化还原状态以对抗氧化应激。因此在一些炎症性疾病如慢性阻塞性肺疾病、急性呼吸窘迫综合征、肺间质疾病、哮喘、肺结节病等的发生发展中扮演重要角色,本文对硫氧还蛋白系统在慢性阻塞性肺疾病中的抗氧化作用作一综述。     

硫氧还蛋白的结构及在生物抗氧化中的功能

硫氧还蛋白(thioredoxin,Trx)是广泛存在于原核与真核生物体内的氧化还原调节蛋白。Trx通过对目标蛋白质进行还原,从而调节机体的氧化还原平衡。Trx与硫氧还蛋白还原酶(thioredoxin reductase,TrxR)及NADPH共同组成硫氧还蛋白系统参与众多生理过程。细胞中的活性氧是导致生物氧化胁迫的一个主要方面。Trx可以通过对细胞内被氧化的二硫键的还原来修复机体的氧化损伤,并通过这种方式防止机体衰老。同时,Trx系统可以与其它氧化还原系统如谷胱甘肽(GSH)系统协调配合,并消除体内过多的活性氧。     

硫氧还蛋白在凋亡途径中的作用机制

硫氧还蛋白（Trx）是体内广泛存在的氧化还原蛋白,其家族中两种重要的硫氧还蛋白：硫氧还蛋白1（thioredoxin1,Trx1）和硫氧还蛋白2（thioredoxin2,Trx2）都含有保守的-Cys-Gly-Pro-Cys-还原序列。由于Trx具有调节细胞生长增殖和抗凋亡的作用,因此Trx在凋亡途径中的作用机制就成为了对抗肿瘤的研究热点。     

TDRS与靶向性新型抗菌策略

硫醇相关的氧化还原系统(thiol-dependent redox system, TDRS)由硫氧还蛋白系统(thioredoxin system, Trx system)和谷胱甘肽系统(glutaredoxin system, GSH system)组成,存在于多种生物体内,共同维持细胞内氧化还原平衡。原核生物细胞Trx系统中的硫氧还蛋白还原酶(thioredoxin reductase, TrxR)在结构和功能上与哺乳动物TrxR存在着天然差异。这些差异导致了细胞在相同药物作用下发生截然相反的氧化还原反应,使其可以成为潜在的抗菌作用靶点。此外,TrxR作为细菌看家基因trxB编码的蛋白,难以发生突变,故不易产生耐药性,是理想的新型抗菌靶标。本文就TDRS特别是Trx系统靶向性的新型抗菌策略作一综述。     

叶绿体硫氧还蛋白系统的调节机制

硫氧还蛋白(Trx)属于巯基-二硫键氧化还原酶家族, 通过作用于底物蛋白侧链2个半胱氨酸残基之间的二硫键(还原、异构和转移)来调控胞内蛋白的结构和功能。叶绿体Trx系统包括Trx及Trx类似蛋白、铁氧还蛋白(Fd)依赖的硫氧还蛋白还原酶(FTR)和还原型烟酰腺嘌呤二核苷磷酸(NADPH)依赖的硫氧还蛋白还原酶C (NTRC)。除了基质蛋白酶类活性变化及叶绿体蛋白的转运受Trx系统调控之外, 在叶绿体中还存在1条跨类囊体膜的还原势传递途径, 把基质Trx的还原势经跨膜转运蛋白介导, 最终传递给类囊体腔蛋白。FTR和NTRC共同作用维持叶绿体的氧化还原平衡。该文对叶绿体硫氧还蛋白系统的调节机制进行了综述, 同时讨论了叶绿体硫氧还蛋白系统对维持植物光合效率的重要意义。     

硫氧还蛋白与心血管疾病

硫氧还蛋白是细胞内最重要的二硫键还原酶,对维持细胞内蛋白质的还原状态并正常发挥功能着重要的作用,此外。硫氧还蛋白、硫氧还蛋白还原酶和硫氧还蛋白过氧化物酶组成了细胞内最重要的抗氧化系统之一,在对抗细胞的氧化应激上起着重要作用。心血管疾病是威胁人类健康的主要疾病,它与炎症反应和氧化应激有着密切的联系。文章将从硫氧还蛋白的抗氧化、抗炎、抗细胞凋亡,调控与炎症基因表达有关的核转录因子的转录活性,以及调节细胞内蛋白质的亚硝基化等诸多方面阐述硫氧还蛋白在防御心血管疾病方面可能具有的生物学功能。     

硫氧还蛋白结合蛋白-2在糖和脂代谢中的作用

硫氧还蛋白结合蛋白-2(thioredoxin binding protein-2,TBP-2)属于硫氧还蛋白结合蛋白家族成员,与还原型硫氧还蛋白结合,抑制其还原活性。在生物体内,TBP-2不但参与细胞内的氧化还原调节,还具有调节细胞生长繁殖和促进细胞凋亡的作用。TBP-2在葡萄糖和脂肪代谢中的作用被广泛研究。TBP-2高表达时,胰岛细胞凋亡,与糖尿病发生相关;而TBP-2缺失,与高脂血症发病有关。本文综述了TBP-2在糖脂代谢中的作用。     

硫氧还蛋白研究进展

硫氧还蛋白(Trx)是一类广泛存在于真核及原核生物体内的小分子多功能蛋白质。Trx具有调节细胞的生长、抑制细胞凋亡及调节基因转录等功能,并且它与硫氧还蛋白还原酶(TrxR)、烟酰腺嘌呤二核苷磷酸(NADPH)共同构成了生物体内重要的硫氧还蛋白系统,对维持体内稳定的氧化还原状态具有重要的作用。以Trx为对象,综述了其结构特点、分类分布及其生物学活性等方面的研究现状,以期为相关研究提供参考。     

地钱,肾蕨和中山柏的NADP硫氧还蛋白系统

硫氧还蛋白(Td)是一类低分子量酸性蛋白,具有二硫键(-s-s-),通过氧化还原互变来参与很多反应(周志民等1986)。Td可被NADP-硫氧还蛋白还原酶(NTR)还原:     

NADPH依赖性硫氧还蛋白还原酶C在植物质体中的作用

硫氧还蛋白的氧化还原调节作用在生物界中普遍存在。它能够还原目标蛋白的二硫键,而自身的活性位点则被氧化。因此,对于新的催化循环,则需要由相应的还原酶将其再次还原成活性形式。硫氧还蛋白对维持高等植物的光合效率同样具有重要意义。叶绿体中的硫氧还蛋白分别由铁氧还蛋白依赖性硫氧还蛋白还原酶和NADPH依赖性硫氧还蛋白还原酶C(NTRC)两种酶还原。NTRC的本质是一种黄素蛋白,除了具有还原酶活性外,还整合了一个硫氧还蛋白结构域,在叶绿体和淀粉体的氧化还原调节中处于核心地位。这种特殊的双功能酶在卡尔文-本森循环、氧化戊糖磷酸途径、抗过氧化、四吡咯代谢、ATP和淀粉合成、生长素和光周期调控中扮演了多重角色。本综述总结了NTRC的生理功能,并讨论了该蛋白质对植物质体氧化还原稳态的调节机制。     

Curcuminoids as inhibitors of thioredoxin reductase: A receptor based pharmacophore study with distance mapping of the active site

Curcumin is the yellow pigment of turmeric that interacts irreversibly forming an adduct with thioredoxin reductase (TrxR), an enzyme responsible for redox control of cell and defence against oxidative stress. Docking at both the active sites of TrxR was performed to compare the potency of three naturally occurring curcuminoids, namely curcumin, demethoxy curcumin and bis-demethoxy curcumin. Results show that active sites of TrxR occur at the junction of E and F chains. Volume and area of both cavities is predicted. It has been concluded by distance mapping of the most active conformations that Se atom of catalytic residue SeCYS498, is at a distance of 3.56 from C13 of demethoxy curcumin at the E chain active site, whereas C13 carbon atom forms adduct with Se atom of SeCys 498. We report that at least one methoxy group in curcuminoids is necessary for interation with catalytic residues of thioredoxin. Pharmacophore of both active sites of the TrxR receptor for curcumin and demethoxy curcumin molecules has been drawn and proposed for design and synthesis of most probable potent antiproliferative synthetic drugs.     

A Unique Protease Cleavage Site Predicted in the Spike Protein of the Novel Pneumonia Coronavirus (2019-nCoV) Potentially Related to Viral Transmissibility

正Dear Editor,In December 2019, a novel human coronavirus caused an epidemic of severe pneumonia(Coronavirus Disease 2019,COVID-19) in Wuhan, Hubei, China(Wu et al. 2020; Zhu et al. 2020). So far, this virus has spread to all areas of China and even to other countries. The epidemic has caused 67,102 confirmed infections with 1526 fatal cases     

Comparative morphology of the carpel in the Liliaceae: Hewardieae, Petrosavieae, and Tricyrteae

The young pistils in the melanthioid tribes, Hewardieae, Petrosavieae and Tricyrteae, are uniformly tricarpellate and syncarpous. They lack raphide idioblasts. All are multiovulate, with bitegmic ovules. The Petrosavieae are marked by the presence of septal glands and incomplete syncarpy. Tepals and stamens adhere to the ovary in the Hewardieae and the Petrosavieae but not in the Tricyrteae. Two vascular bundles occur in the stamens of the Hewartlieae and Tricyrtis latifolia. Ventral bundles in the upper part of the ovary of the Hewardieae are continuous with compound septal bundles and placental bundles in the lower part. Putative ventral bundles occur in the alternate position in the Tricyrteae and putative placental bundles in the opposite. position in the Petrosavieae. The dichtomously branched stigma in each carpel of the Tricyrteae is supplied by a bifurcated dorsal bundle.     

鸡传染性法氏囊病病毒研究进展

传染性法氏囊病(Infection bursal disease, IBD)是由鸡传染性法氏囊病毒(Infectious bursal disease virus, IBDV)引起的鸡和火鸡的一种高度接触性传染病,给世界各国的禽养殖业带来了巨大损失.自IBDV发现至今新的变异株不断出现,分子结构的改变导致病毒致病力的改变及宿主对疫苗应答的改变,使得传统的疫苗已不能控制其流行,因此各国学者对其基因组结构和功能进行了广泛深入的研究,并积极研制新型有效的疫苗以达到防治的目的.     

Development of a Novel Reverse Transcription Loop-Mediated Isothermal Amplification Method for Rapid Detection of SARS-CoV-2

In conclusion, the novel visual RT-LAMP assay is a simple, rapid, and sensitive approach for detection of SARS-CoV-2, and it is ready for application in primary care and community hospitals or health care centers, and even patients' own houses in response to the current SARS-CoV-2 epidemic because the assay does not require sophisticated equipment and skilled personnel. Furthermore, it is also ready to be used in fields for screening samples from wild animals and environments to facilitate the identification of potential intermediate hosts that mediate the cross-species transmission of SARS-CoV-2 from bats to humans.     

Perinatal Vertical Transmission of Chikungunya Virus in Ruili,a Town on the Border between China and Myanmar

正Dear Editor,Chikungunya virus (CHIKV), an arbovirus in the family of Togaviridae, genus Alphavirus, is transmitted by the A.aegyptii or A. albopictus mosquito, and causes disease in humans characterized by fever, rash, and arthralgia (Silva and Dermody 2017; Suhrbier 2019). It was first reported in 1953 in Tanzania, and caused only a few outbreaks and sporadic cases in Africa and Asia in last century. However, in the epidemic in 2004, CHIKV acquired mutations that conferred enhanced transmission by the A. albopictus mosquito(Schuffenecker et al. 2006). Since then, it has successively caused outbreaks in Africa, the Indian Ocean, South East Asia, the South America, and Europe (Zeller et al. 2016).     

Enterovirus 71 3C proteolytically processes the histone H3 N-terminal tail during infection

Highlights
1. The N-terminal tail of histone H3 is specifically cleaved during EV71 infection.
2. Viral protease 3C is identified as a protease responsible for proteolytically processing the N-terminal H3 tail.
3. Our finding reveals a new epigenetic regulatory mechanism for Enterovirus 71 in virus-host interactions.