Insights into the structural biology of G-protein coupled receptors impacts drug design for central nervous system neurodegenerative processes

In the last few years, there have been important new insights into the structural biology of G-protein coupled receptors. It is now known that allosteric binding sites are involved in the affinity and selec- tivity of ligands for G-protein coupled receptors, and that signaling by these receptors involves both G-protein dependent and independent pathways. The present review outlines the physiological and pharmacological implications of this perspective for the design of new drugs to treat disorders of the central nervous system. Specifically, new possibilities are explored in relation to allosteric and or- thosteric binding sites on dopamine receptors for the treatment of Parkinson＇s disease, and on muscarinic receptors for Alzheimer＇s disease. Future research can seek to identify ligands that can bind to more than one site on the same receptor, or simultaneously bind to two receptors and form a dimer. For example, the design of bivalent drugs that can reach homo/hetero-dimers of D2 dopa- mine receptor holds promise as a relevant therapeutic strategy for Parkinson＇s disease. Regarding the treatment of Alzheimer＇s disease, the design of dualsteric ligands for mono-oligomeric mus- carinic receptors could increase therapeutic effectiveness by generating potent compounds that could activate more than one signaling pathway.

植物异三聚体G蛋白研究进展

植物细胞中的异三聚体G蛋白信号转导系统包括异三聚体G蛋白、G蛋白偶联受体、类受体激酶、G蛋白信号调节因子等,这些信号转导组分在感受物理及化学刺激、启动细胞内信号级联反应、调控细胞内代谢和基因表达过程中发挥重要作用.异三聚体G蛋白参与调控植物生长发育(如胚胎形成、营养器官生长、有性生殖等)、植物对生物及非生物胁迫的响应、根瘤形成等过程.因此,异三聚体G蛋白信号系统组分参与调控多种农作物的农艺性状,并最终影响农产品的产量和品质.对植物异三聚体G蛋白的结构、活化机制和生理功能等方面近年来取得的研究进展进行了回顾和总结.

Roles of G protein-coupled receptors in inflammatory bowel disease

Inflammatory bowel disease(IBD)is a complex disease with multiple pathogenic factors.Although the pathogenesis of IBD is still unclear,a current hypothesis suggests that genetic susceptibility,environmental factors,a dysfunctional immune system,the microbiome,and the interactions of these factors substantially contribute to the occurrence and development of IBD.Although existing and emerging drugs have been proven to be effective in treating IBD,none can cure IBD permanently.G protein-coupled receptors(GPCRs)are critical signaling molecules implicated in the immune response,cell proliferation,inflammation regulation and intestinal barrier maintenance.Breakthroughs in the understanding of the structures and functions of GPCRs have provided a driving force for exploring the roles of GPCRs in the pathogenesis of diseases,thereby leading to the development of GPCR-targeted medication.To date,a number of GPCRs have been shown to be associated with IBD,significantly advancing the drug discovery process for IBD.The associations between GPCRs and disease activity,disease severity,and disease phenotypes have also paved new avenues for the precise management of patients with IBD.In this review,we mainly focus on the roles of the most studied proton-sensing GPCRs,cannabinoid receptors,and estrogen-related GPCRs in the pathogenesis of IBD and their potential clinical values in IBD and some other diseases.

G蛋白偶联受体(GPCR)腺苷酸环化酶(AcyA)途径介导赭曲霉群体感应现象的机制

赭曲霉(Aspergillus ochraceus)是一种代表性的产毒模式真菌,存在密度依赖性转化的高、低群体密度阈值和携带这种密度信息的群体感应(QS)信号分子--氧脂素。本研究首先基于代表高、低群体密度条件的野生型赭曲霉转录组差异,分析群体密度这一环境条件对赭曲霉行为的影响,结果发现,除了氧脂素代表的细胞通信外,还具有种内对资源的竞争现象,体现在碳代谢。进一步,基于前期实验筛选到负责响应密度信息的膜受体GprC和主要的胞内效应器腺苷酸环化酶(AcyA),构建了基因缺陷型赭曲霉(ΔgprC和ΔacyA)。对比野生型与缺陷型赭曲霉的基因表达及行为差异后发现,GprC-AcyA途径缺陷后不仅中断了密度信息的传递,还直接影响赭曲霉的生命周期。本文研究结果表明,GprC和AcyA作为G蛋白网络的重要枢纽,具有广泛的调控作用,涉及生物过程、细胞组分、分子功能中大部分行为。本研究结果对利用生物手段进行真菌毒素污染的高效、绿色防治具有指导意义。

Variations on conserved signaling pathways in biocontrol and development: G protein and MAPK genes of Trichoderma. atroviride and T. virens

Filamentous fungi employ conserved eukaryotic signaling pathway to detect and respond to environmental signals, including the presence of the host. Genetic experiment in which a particular signaling protein is lost, or its activity enhanced, have defined some of the function of heterotrimeric G proteins and MAP kinases in development and virulence. A hallmark of these studies is that orthologs in different species may have different functions. Antagonistic fungal-fungal interactions form the basis for biological control of plant disease. These interactions may employ novel modes of regulation by conserved signaling elements. Tag1, a G protein α subunit of Trichoderma. atroviride belonging to fungal Gi class, is involved in repression of sporulation and hyphal coiling(1). Deletion of ortholog of this gene, TgaA, in Trichoderma (Gliocladium) virens, however, did not affect sporulation and growth, yet tgaA mutants are unable to parasitize S. rolfsii sclerotia(2). Mutation of a second G α subunit gene is now under study. TmkA, a MAPK gene of T. virens, is involved in biocontrol properties and repression of conidiation(3). Using suppression-subtraction hybridization and other approaches, we are beginning to identify additional elements of the signaling cascades and their downsteam targets. The role of G protein and MAPK genes are sometimes specific to a particular host fungus or to parasitism of mycelia or sclerotia(2,3). Also of relevance to biocontrol, signal transduction pathway provide a means to alter the balance between sporulation, mycelial growth and hyphal coiling.

GPR30对大鼠椎间盘退行性病变的作用及其机制研究

目的探讨G蛋白偶联受体30(GPR30)通过Nrf2/ARE信号通路抑制白细胞介素1β(IL-1β)诱导的大鼠椎间盘髓核细胞的凋亡、炎症反应和氧化应激。方法使用IL-1β处理大鼠椎间盘髓核细胞复制体外椎间盘退变模型,将椎间盘髓核细胞分为空白对照(Control)组、IL-1β组、IL-1β+过表达GPR30阴性对照质粒(oe-NC)组、IL-1β+过表达GPR30质粒(oe-GPR30)组、IL-1β+oe-GPR30+干扰Nrf2表达阴性对照质粒(si-NC)组、IL-1β+oe-GPR30+干扰Nrf2表达质粒(si-Nrf2)组,IL-1β的处理浓度为10 ng/mL。实时荧光定量聚合酶链反应检测GPR30 mRNA表达;Western boltting检测GPR30、抗重组与合成蛋白(Nrf2)和抗醌NADH脱氢酶(NQO1)和抗血红素加氧酶1(HO-1)蛋白表达;流式细胞术检测细胞凋亡情况;酶联免疫吸附试验检测肿瘤坏死因子-α(TNF-α)和IL-6水平;使用ELISA法检测活性氧(ROS)、分光光度法检测超氧化物歧化酶(SOD)水平,比色法检测丙二醛(MDA)水平。结果IL-1β组髓核细胞GRP30 mRNA、蛋白相对表达量较Control组降低(P<0.05),IL-1β+oe-GPR30组较IL-1β+oe-NC组升高(P<0.05)。IL-1β组髓核细胞核中Nrf2蛋白相对表达量较Control组升高(P<0.05),IL-1β+oe-GPR30组较IL-1β+oe-NC组升高(P<0.05)。IL-1β组Nrf2、HO-1及NQO1蛋白相对表达量较Control组降低(P<0.05),IL-1β+oe-GPR30组较IL-1β+oe-NC组升高(P<0.05)。IL-1β组髓核细胞Nrf2蛋白相对表达量较Control组降低(P<0.05),IL-1β+oe-GPR30组较IL-1β+oe-NC组升高(P<0.05),IL-1β+oe-GPR30+si-Nrf2组较IL-1β+oe-GPR30+si-NC组降低(P<0.05)。IL-1β组髓核细胞凋亡率较Control组升高(P<0.05),IL-1β+oe-GPR30组较IL-1β+oe-NC组降低(P<0.05),IL-1β+oeGPR30+si-Nrf2组较IL-1β+oe-GPR30+si-NC组升高(P<0.05)。IL-1β组TNF-α、IL-6水平较Control组升高(P<0.05),IL-1β+oe-GPR30组较IL-1β+oe-NC组降低(P<0.05),IL-1β+oe-GPR30+si-Nrf2组较IL-1β+oe-GPR30+si-NC组升高(P<0.05)。IL-1β组ROS、MDA水平较Control组升高(P<0.05),SOD水平较Control组降低(P<0.05),IL-1β+oe-GPR30组ROS、MDA水平较IL-1β+oe-NC组降低,SOD水平较IL-1β+oe-NC组升高(P<0.05),IL-1β+oe-GPR30+si-Nrf2组ROS、MDA水平较IL-1β+oe-GPR30+si-NC组升高,SOD水平较IL-1β+oe-GPR30+si-NC组降低(P<0.05)。结论上调GPR30表达激活Nrf2/ARE信号通路,能抑制IL-1β诱导的髓核细胞凋亡、炎症和氧化应激反应。

Isoleucine, an Essential Amino Acid, Induces the Expression of Human <i>β</i>Defensin 2 through the Activation of the G-Protein Coupled Receptor-ERK Pathway in the Intestinal Epithelia

Anti-microbial peptides are essential for the intestinal innate immunity that protects the intestinal epithelia from attacks by foreign pathogens. Human β-defensin (HBD) is one of the pivotal anti-microbial peptides that are expressed in the colonic epithelia. This study investigated the effect and the signaling mechanism of inducible β-defensin HBD2 by an essential amino acid, isoleucine (Ile) in colonic epithelial cells. Here we examined the expression level of HBD2 on induction of Ile in epithelial cells, and checked this pathway. HBD2 mRNA was induced by co-incubation with IL-1α and Ile in Caco2 cells, but not by Ile alone. An inhibitor of either ERK or Gi, a subunit of G-proteins, reduced the induction of HBD2 mRNA by Ile. The treatment with Ile also increased the intracellular calcium ion concentration, thus suggesting that the GPCR and ERK signaling pathway mediate the effects of Ile. These results indicate that an essential amino acid, Ile, enhances the expression of an inducible β-defensin, namely HBD2, by IL-1α through the activation of GPCRs and ERK signaling pathway. The administration of Ile may therefore represent a possible option to safely treat intestinal inflammation.

G protein signalling involved in host recognition and mycoparasitism-related chitinase expression in Trichoderma atroviride

Mycoparasitic species of Trichoderma are commercially applied as biological control agents against various fungal pathogens. The mycoparasitic interaction is host specific and includes recognition, attack and subsequent penetration and killing of the host. Investigations on the underlying events revealed that Trichoderma responds to multiple signals from the host (e.g. lectins or other ligands such as low molecular weight components released from the host’s cell wall) and host attack is accompanied by morphological changes and the secretion of hydrolytic enzymes and antibiotics. Degradation of the cell wall of the host fungus is-besides glucanases and proteases-mainly achieved by chitinases. In vivo studies showed that the ech42 gene (encoding endochitinase 42) is expressed before physical contact of Trichoderma with its host, probably representing one of the earliest events in mycoparasitism, whereas Nag1 (N-acetylglucosaminidase) plays a key role in the general induction of the chitinolytic enzyme system of T. atroviride . Investigations on the responsible signal transduction pathways of T. atroviride led to the isolation of several genes encoding key components of the cAMP and MAP kinase signaling pathways, as alpha and β subunits of heterotrimeric G proteins, the regulatory subunit of cAMP-dependent protein kinase, adenylate cyclase, and three MAP kinases. Analysis of knockout mutants, generated by Agrobacterium-mediated transformation, revealed that at least two alpha-subunits of heterotrimeric G proteins are participating in mycoparasitism-related signal transduction. The Tga1 G alpha subunit was shown to be involved in mycoparasitism-related processes such as chitinase expression and overproduction of toxic secondary metabolites, whereas Tga3 was found to be completely avirulent showing defects in chitinase formation and host recognition.

Physiological and pharmacological functions of G protein coupled receptor 124:A review

G protein-coupled receptors(GPCRs)are the largest protein superfamily in the body,expressed in various tissues and organs,and are currently one of the most important clinical drug targets.Recently,a class of GPCRs without endogenous ligands(orphan GPCRs)have been discovered.They exhibit different physiological functions in the body and act extensively on the cardiovascular and cerebrovascular systems.Among them,G protein-coupled receptor 124(GPR124)is an orphaned member of the G protein coupled receptor adhesion family that has attracted much attention.It plays a key role in promoting cerebral angiogenesis and maintaining the stability of the blood-brain barrier.It also associated with cardiovascular and cerebrovascular diseases such as cerebral ischemia and atherosclerosis.However,the role of GPR124 in these diseases,the associated signaling pathways,and possible drug intervention targets are still unclear.This article summarizes the physiological effects,pharmacological effects and related signal pathways of GPR124 published in the field of cardiovascular and cerebrovascular diseases published in recent years,in order to provide a reference for the study of the role of GPR124 in the occurrence and development of diseases.

Pathogenicity Assay for <i>Cochliobolus heterostrophus</i>G-Protein and MAPK Signaling Deficiency Strains

Cochliobolus heterostrophus is an agriculturally important and emerging model pathogen for studying the signaling hierarchies' role during the maize host colonization. In particular, G-protein and MAPK-linked pathways are playing a major role during pathogenesis. Although gene disruption studies are an efficient way of identifying the role of these cascades, differentiating between the mutant strains’ virulence ability may become an intricate task. For example, in C. heterostrophus, mutants in a G-protein α subunit gene, cga1, are defective in mating and appressorium formation, but unlike mutants in homologous genes in other fungal pathogens, the cga1 mutants remained highly virulent to corn under some host physiological conditions. Here, we used the cga1 strain as a model for developing an in vivo sensitive and accurate pathogenicity assay. A detailed and well controlled analysis of wild type (WT) and cga1 pathogenic behavior revealed that detached leaves are significantly more vulnerable to the disease than intact ones. In intact leaves, cga1 mutants were less infective of maize under most conditions. This difference was maximized when the first seedling leaf was chosen for inoculation and when the infected leaves, with spores or mycelia fragments droplets, were incubated for a period of four days. This optimal condition set enabled us to classify the C. heterostrophus G-protein signaling mutants deficient in α, β or both subunits in order of decreasing virulence: WT > cga1> cgb1> cga1 cgb1. The method presented proved to be accurate and sensitive enough to identify even slight variations in virulence. Moreover, it could be modified for use in studies of other foliar phytoparasitic fungi.

Gene Expression Modulation of Two Biosynthesis Pathways via Signal Transduction in <i>Cochliobolus heterostrophus</i>

G-protein-linked pathways have evolved to allow responses to extracellular agonists (hormones, neurotransmitters, odors, chemoattractants, light and nutrients) in eukaryotic cells, ranging from simpler systems, including yeasts, filamentous fungi and slime molds, to more complex organisms, such as mammals. Although the role of G-protein and mitogen-activated protein kinase (MAPK) in filamentous fungi has been studied for over a decade, downstream elements are less known, and the study of target genes has evolved mainly in recent years. Here, we examined the involvement of G-protein subunits and MAPK in controlling the expression of two distinct target genes. These genes were selected from an array database according to their unique expression profile and the role of closely related genes found in other Ascomycetes. One of these genes is BPH, which encodes the enzyme responsible for cytochrome P450-dependent benzoate hydroxylation in microsomes. The other gene is CIPA, which encodes isoflavone reductase (IfR), an enzyme involved in the synthesis of phytoalexin, which catalyzes an intermediate step in pisatin biosynthesis. The expression profile of these two genes was determined in a series of signaling deficiency mutants that were grown on different media using a DNA microarray. Comparison of the expression profile in the two wild type strains and mutants deficient in the G-protein α or β subunits or in MAPK, revealed a unique control mechanism for the BPH and CIPA genes. The two genes are highly expressed during the infection of the host plant leaves and may associate with the fungal response to the host. Signaling via G-protein or MAPK was shown to be related to cascades that altered the expression of these genes in response to the growth condition. This work demonstrates that signal transduction pathways are controlling genes that, although sharing an environmental dependent response, participate in distinct biosynthesis pathways. Moreover, the transcriptional profile may point to distinct and shared roles of the signaling components.

IGHG1对人急性髓系白血病THP-1细胞增殖、凋亡的影响

目的:探讨免疫球蛋白G1重链恒定区(IGHG1)对急性髓系白血病(AML)细胞系THP-1细胞增殖、凋亡的影响及其可能的作用机制。方法:体外培养人AML THP-1细胞,分为对照(正常培养的THP-1细胞)、pcDNA3.1[转染IGHG1过表达(pcDNA3.1-IGHG1)阴性对照质粒的THP-1细胞]、pcDNA3.1-IGHG1(转染pcDNA3.1-IGHG1的THP-1细胞)、LY364947[转化生长因子-β(TGF-β)/信号转导蛋白(Smad)抑制剂LY36494720μmol/L处理THP-1细胞)]、si-NC[转染IGHG1小干扰RNA(IGHG1-siRNA)阴性对照的THP-1细胞]、si-IGHG1(转染IGHG1-siRNA的THP-1细胞)和si-IGHG1+LY364947(IGHG1-siRNA和LY364947共同处理THP-1细胞)共7组。荧光定量PCR法检测各组THP-1细胞中IGHG1和免疫球蛋白G(IgG)mRNA的表达;CCK-8法检测各组THP-1细胞增殖活力;流式细胞术检测各组THP-1细胞凋亡率和细胞周期变化;蛋白印迹法检测各组THP-1细胞增殖、凋亡及TGF-β/Smad信号通路相关蛋白的表达。结果:与对照组相比,过表达IGHG1后THP-1细胞中IGHG1和IgG mRNA表达、细胞增殖活力、S期的细胞比例、细胞周期蛋白D1(Cyclin D1)、B细胞淋巴瘤-2(Bcl-2)、IgG、TGF-β1、磷酸化Smad3(p-Smad3)/Smad3蛋白表达均显著升高(P<0.05),细胞凋亡率、G_(0)/G_(1)期的细胞比例、p21、Bcl-2相关X蛋白(Bax)、半胱氨酸天冬氨酸蛋白酶-3(Caspase-3)蛋白表达均显著降低(P<0.05)。抑制TGF-β/Smad信号通路或沉默IGHG1后THP-1细胞中IGHG1和IgG mRNA表达、细胞增殖活力、S期的细胞比例、Cyclin D1、Bcl-2、IgG、TGF-β1、p-Smad3/Smad3蛋白表达均显著降低(P<0.05),细胞凋亡率、G_(0)/G_(1)期的细胞比例、p21、Bax、Caspase-3蛋白表达均显著升高(P<0.05);且与沉默IGHG1相比,IGHG1基因沉默和TGF-β/Smad通路抑制共同处理的THP-1细胞中IGHG1和IgG mRNA表达、细胞增殖活力、S期的细胞比例、Cyclin D1、Bcl-2、IgG、TGF-β1、p-Smad3/Smad3蛋白表达均显著降低(P<0.05),细胞凋亡率、G_(0)/G_(1)期的细胞比例、p21、Bax、Caspase-3蛋白表达均显著升高(P<0.05)。结论:沉默IGHG1基因可下调IgG的表达,抑制人AML THP-1细胞增殖,阻滞细胞周期进程,并诱导细胞凋亡;其作用机制可能与抑制TGF-β/Smad通路的激活有关。

Involvement of aputativeG-protein-coupled receptor and a branching pathway in argipresin(4-8)signal transduction in rat hippocampus

目的：研究精加压素片段（４－８）在大鼠海马中的信号跨膜转导．方法：比较大鼠海马切片在药物刺激后的ＭＡＰＫ活性（ＭＫ）和ＣａＭＫⅡ自身磷酸化水平（ＫⅡ）的变化．结果：（４－８）的拮抗剂ＺＤＣ（Ｃ）ＰＲ及ＧＰＣＲ的抑制剂ＰＴＸ分别都能阻断（４－８）引起的（ＭＫ）和（ＫⅡ）的增高，但都不影响ＡＶＰ诱导的（ＭＫ）变化；ＰＭＢ抑制（４－８）诱导的（ＭＫ）增高而对（ＫⅡ）无影响；ＴＰＡ单独可以刺激（ＭＫ）增高达（４－８）的（ＭＫ）水平，同时使（ＫⅡ）停留在对照水平；（ＭＫ）的增高不被ＫＮ６２阻断；与ＡＶＰ不同，（４－８）不影响ｃＡＭＰ水平．结论：精加压素片段（４－８）通过未知ＧＰＣＲ和Ｇ０介导一分支信号途径．

G蛋白耦联雌激素受体在癌症相关成纤维细胞中的活化对乳腺癌转移的作用及其中药干预研究

乳腺癌的转移是其临床治疗面临的重点和难点,其侵袭性的高低受周围基质的影响很大。癌症相关成纤维细胞(CAFs)是肿瘤基质的重要成分,同时也是新型膜雌激素受体——G蛋白耦联雌激素受体(GPER)阳性细胞。研究表明,GPER可能是作用于癌细胞与肿瘤微环境(TM)的多种重要传导因子之间的关键交叉点,GPER在CAFs中活化对乳腺癌发生、发展和转移过程中发挥着重要的作用。多种中药单体的抗乳腺癌作用也与其靶向激活CAFs中的GPER通路是相关的。现就GPER在CAFs中的活化机制及其对乳腺癌转移的作用、中药单体对该过程的干预研究进行综述,以期为寻找乳腺癌治疗的新靶点、拓展乳腺癌症治疗策略提供思路。

The action of ethanol on G protein. <i>In silico</i>and cellular/molecular evidences

Ethanol (EtOH) enhances glycinergic currents in the central nervous system (CNS). Because evidence for an interaction between the α1 subunit of the glycine receptor (α1GlyR) and the G protein Gβγ subunit exists in vitro and because cAMP levels are known to increase in response to EtOH, we wanted to investigate the interaction between Gβγ and α1GlyR in response to EtOH treatment in HEK293 cells and to explore the possible sites of interaction between EtOH and the Gαs subunit. His pull-down assays in GlyR-His6-transfected HEK293 cells incubated with ethanol or propofol revealed that only EtOH treatment increased the binding of Gβγ heterodimers to α1GlyR. Using molecular modelling (protein structure prediction), was modelled the hGαs protein for the first time and validated this model by site-directed mutagenesis. By molecular docking, we identified some potential regions of interaction between hGαs and EtOH that are located on the SIII and SI regions of the Gαs. Therefore, we conclude that ethanol increases the interaction between α1GlyR and Gβγ in HEK293 cells, an effect that might be attributed to the interaction between EtOH and hGαs, which consequently stimulates hGαs.

G蛋白偶联胆汁酸受体1调控机体炎症信号通路的研究进展

G蛋白偶联胆汁酸受体1(GPBAR1)与胆汁酸(BAs)及其衍生物结合后,激活下游通路传导,调控动物的多种代谢过程。GPBAR1通过核转录因子κB(NF-κB)、信号转导和转录激活因子3(STAT3)、NOD样受体蛋白3(NLRP3)炎症小体信号转导通路,调节动物体炎症反应。因此,本文重点阐述GPBAR1对动物炎症通路的调控进展,为BAs及其衍生物成为治疗炎症性疾病的潜在药物提供参考。

Arrestin-mediated signaling: Is there a controversy?

The activation of the mitogen-activated protein(MAP) kinases extracellular signal-regulated kinase(ERK)1/2 was traditionally used as a readout of signaling of G protein-coupled receptors(GPCRs) via arrestins, as opposed to conventional GPCR signaling via G proteins. Several recent studies using HEK293 cells where all G proteins were genetically ablated or inactivated, or both non-visual arrestins were knocked out, demonstrated that ERK1/2 phosphorylation requires G protein activity, but does not necessarily require the presence of non-visual arrestins. This appears to contradict the prevailing paradigm. Here we discuss these results along with the recent data on gene edited cells and arrestinmediated signaling. We suggest that there is no real controversy. G proteins might be involved in the activation of the upstream-most MAP3Ks, although in vivo most MAP3K activation is independent of heterotrimeric G proteins, being initiated by receptor tyrosine kinases and/or integrins. As far as MAP kinases are concerned, the best-established role of arrestins is scaffolding of the three-tiered cascades(MAP3K-MAP2 K-MAPK). Thus, it seems likely that arrestins, GPCRbound and free, facilitate the propagation of signals in these cascades, whereas signal initiation via MAP3K activation may be independent of arrestins. Different MAP3Ks are activated by various inputs, some of which are mediated by G proteins, particularly in cell culture, where we artificially prevent signaling by receptor tyrosine kinases and integrins, thereby favoring GPCR-induced signaling. Thus, there is no reason to change the paradigm: Arrestins and G proteins play distinct non-overlapping roles in cell signaling.

GPCRs在恶性肿瘤中的研究进展

G蛋白偶联受体(GPCRs),又称为7-α螺旋跨膜蛋白受体,是目前已知的人类基因组中最大和最多样化的蛋白质家族。GPCRs通过调控下游多种信号通路,参与恶性肿瘤的增殖、凋亡、侵袭和转移等过程。此外,GPCRs的异常甲基化在肿瘤发生中也具有关键作用。近年来,GPCRs被认为是治疗许多恶性肿瘤的潜在药物靶点,然而大部分GPCRs的作用机制仍不清楚。本文就GPCRs在恶性肿瘤中的发病机制进行综述,以期为肿瘤的预防和治疗提供新的诊疗思路。

Effect of G_(αq/11) Protein and ATP-sensitive Potassium Channels on Ischemic Preconditioning in Rat Hearts

Objectives To investigate the effect of Gαq/11 signaling pathway and ATP-sensitive potassium channel ( KATP channel ) on ischemic preconditioning (IPC) protection in rat hearts. Methods Two series of experiments were performed in Wistar rat hearts. In the first series of experiment, ischemic preconditioning was induced by left anterior descending occlusion (three, 5 min episodes separated by 5 min of reperfusion), ischemia-reperfusion injury was induced by 30 min coronary artery occlusion followed by 90 min reperfusion. Hemodynamics, infarct size and scores of ventricular arrhythmias were measured. The expression of Gαq/11 protein in the heart was measured by Western blot analysis in the second series. Results Ischemic preconditioning rats showed decreased infarct size and scores of ventricular arrhythmia vs non-IP control rats. The effect of IPC was significantly attenuated by glibenclamide (1 mg/kg, ip), a nonselective KATP channel inhibitor. IPC caused a significant increase in the expression of Gαq/11 protein. Conclusions Activations of Gαq/11 signal pathway and KATP channel played significant roles in the classical cardioprotection of ischemic precon-ditioning rat heart and might be an important mechanism of signal transduction pathway during the ischemic preconditioning.

G蛋白偶联受体介导游离脂肪酸的信号通路及生理功能

游离脂肪酸(free fatty acid,FFA)是动物一种重要能量来源,同时它还是一种重要的信号分子,其生理功能和作用机制长期以来倍受关注.最近研究表明,细胞膜存在FFA的特定孤儿型G蛋白偶联膜受体家族.中长链游离脂肪酸是GPR40和GPR120的配基,而短链游离脂肪酸则是GPR41和GPR43的配基.该受体家族可以介导游离脂肪酸,通过ERK、PI3K-Akt和MAPK信号通路,在维持机体内的葡萄糖稳态、脂肪形成、白细胞功能和细胞增殖等生理过程中发挥重要作用.本文就游离脂肪酸G蛋白偶联受体的结构、分布、配体选择性、下游信号通路,及其介导FFA生理功能的最新研究进展进行简要综述.