G-protein coupled receptors and synaptic plasticity in sleep deprivation

Insufficient sleep has been correlated to many physiological and psychoneurological disorders.Over the years,our understanding of the state of sleep has transcended from an inactive period of rest to a more active state involving important cellular and molecular processes.In addition,during sleep,electrophysiological changes also occur in pathways in specific regions of the mammalian central nervous system(CNS).Activity mediated synaptic plasticity in the CNS can lead to long-term and sometimes permanent strengthening and/or weakening synaptic strength affecting neuronal network behaviour.Memory consolidation and learning that take place during sleep cycles,can be affected by changes in synaptic plasticity during sleep disturbances.G-protein coupled receptors(GPCRs),with their versatile structural and functional attributes,can regulate synaptic plasticity in CNS and hence,may be potentially affected in sleep deprived conditions.In this review,we aim to discuss important functional changes that can take place in the CNS during sleep and sleep deprivation and how changes in GPCRs can lead to potential problems with therapeutics with pharmacological interventions.

G protein-coupled estrogen receptor in colon function, immune regulation and carcinogenesis

Estrogens play important roles in the development and progression of multiple tumor types.Accumulating evidence points to the significance of estrogen action not only in tumors of hormonally regulated tissues such as the breast,endometrium and ovary,but also in the development of colorectal cancer(CRC).The effects of estrogens in physiological and pathophysiological conditions are mediated by the nuclear estrogen receptorsαandβ,as well as the membranebound G protein-coupled estrogen receptor(GPER).The roles of GPER in CRC development and progression,however,remain poorly understood.Studies on the functions of GPER in the colon have shown that this estrogen receptor regulates colonic motility as well as immune responses in CRC-associated diseases,such as Crohn’s disease and ulcerative colitis.GPER is also involved in cell cycle regulation,endoplasmic reticulum stress,proliferation,apoptosis,vascularization,cell migration,and the regulation of fatty acid and estrogen metabolism in CRC cells.Thus,multiple lines of evidence suggest that GPER may play an important role in colorectal carcinogenesis.In this review,we present the current state of knowledge regarding the contribution of GPER to colon function and CRC.

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.

New insights into sodium transport regulation in the distal nephron:Role of G-protein coupled receptors

The renal handling of Na^+ balance is a major determinant of the blood pressure(BP) level. The inability of the kidney to excrete the daily load of Na+ represents the primary cause of chronic hypertension. Among the different segments that constitute the nephron, those present in the distal part(i.e., the cortical thick ascending limb, the distal convoluted tubule, the connecting and collecting tubules) play a central role in the fine-tuning of renal Na^+ excretion and are the target of many different regulatory processes that modulate Na^+ retention more or less efficiently. G-protein coupled receptors(GPCRs) are crucially involved in this regulation and could represent efficient pharmacological targets to control BP levels. In this review, we describe both classical and novel GPCR-dependent regulatory systems that have been shown to modulate renal Na^+ absorption in the distal nephron. In addition to the multiplicity of the GPCR that regulate Na^+ excretion, this review also highlights the complexity of these different pathways, and the connections between them.

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.

GPER抑制星形胶质细胞活性减少OIR小鼠视网膜新生血管生成的机制研究

目的探究在氧诱导下的新生小鼠视网膜缺血模型(oxygen-induced retinopathy,OIR)中,G蛋白偶联雌激素受体(G proteincoupled estrogen receptor,GPER)减少OIR小鼠视网膜新生血管生成的机制。方法42只新生小鼠采用随机数字表法分为4组:常氧对照组(n=11)、OIR组(n=11)、G-1(GPER激动剂)组(n=10)和溶剂对照组(n=10)。出生后17 d(P17)时,眼球冰冻切片免疫荧光染色观察常氧对照组小鼠GPER在视网膜分布情况。G-1组和溶剂对照组在P12~P15时分别腹腔注射给予G-1[50μg/(kg·d)]或玉米油溶剂,P17时视网膜铺片免疫荧光染色观察视网膜血管标志物(IB4)、星形胶质细胞标志物胶质纤维酸性蛋白(glia fibrilary acidic protein,GFAP)表达,蛋白免疫印迹法定量检测视网膜血管内皮生长因子A(vascular endothelial growth factor A,VEGFA)、GFAP、炎症因子TNF-α、IGF-1、IL1-β蛋白表达情况。结果GPER存在于小鼠视网膜全层,在视网膜神经节细胞层与星形胶质细胞标志物GFAP共染。与常氧对照组相比,OIR组小鼠视网膜出现新生血管与无血管区,且GPER、VEGFA和GFAP表达增多,差异具有统计学意义(P<0.05);与溶剂对照组相比,G-1组视网膜新生血管生成减少,VEGFA、GFAP、TNF-α、IGF-1、IL1-β蛋白表达下降,差异具有统计学意义(P<0.05)。结论GPER能抑制星形胶质细胞活性,减少VEGFA、炎症因子释放,减少OIR小鼠视网膜新生血管生成。

The Role of GPER in Sepsis-Induced Myocardial Cell Damage and 28-Day Mortality Risk

Purpose: The role of GPER in sepsis-induced myocardial cell injury and its potential impact on the risk of death within 28 days in sepsis. Methods: An in vitro experiment was conducted to establish a sepsis-induced myocardial cell model. H9C2 myocardial cells were treated with 10 μg/ml lipopolysaccharide (LPS) for 24 hours. The effects of different concentrations of the GPER agonist G1 (1, 3, and 10 μmol/L) on cell viability, expression of inflammatory markers, cell apoptosis, and the NF-κB pathway were evaluated. A Mendelian randomization analysis was conducted using Single Nucleotide Polymorphism (SNPs) related to the GPER gene as instrumental variables to investigate the causal relationship between the GPER gene variations and sepsis (28-day death). Results: The results indicate that the group treated with LPS showed a significant decrease in myocardial cell viability, an increase in concentrations of tumor necrosis factor-alpha (TNF-α) and interleukin-6 (IL-6), higher apoptosis rates, and increased phosphorylation levels of NF-κB p65 (p-P65/P65) and IκB-α (p-IκB-α/IκB-α) compared to the control group (P κB pathway. However, genetic evidence did not show a causal relationship between GPER gene variations and sepsis (28-day death) (P κB pathway. However, genetic evidence did not show a causal relationship between GPER gene variations and sepsis (28-day death).

Association of hepatocyte-derived growth factor receptor/caudal type homeobox 2 co-expression with mucosal regeneration in active ulcerative colitis

AIM:To characterize the regeneration-associated stem cell-related phenotype of hepatocyte-derived growth factor receptor(HGFR)-expressing cells in active ulcerative colitis(UC).METHODS:On the whole 38 peripheral blood samples and 38 colonic biopsy samples from 18 patients with histologically proven active UC and 20 healthy control subjects were collected.After preparing tissue microarrays and blood smears HGFR,caudal type homeobox 2(CDX2),prominin-1(CD133) and Musashi-1conventional and double fluorescent immunolabelings were performed.Immunostained samples were digitalized using high-resolution Mirax Desk instrument,and analyzed with the Mirax TMA Module software.For semiquantitative counting of immunopositive lamina propria(LP) cells 5 fields of view were counted at magnification x 200 in each sample core,then mean ± SD were determined.In case of peripheral blood smears,30 fields of view with 100 μm diameter were evaluated in every sample and the number of immunopositive cells(mean ± SD) was determined.Using 337 nm UVA Laser MicroDissection system at least 5000 subepithelial cells from the lamina propria were collected.Gene expression analysis of HGFR,CDX2,CD133,leucine-rich repeat-containing G-protein coupled receptor 5(Lgr5),Musashi-1 and cytokeratin20(CK20) were performed in both laser-microdisscted samples and blood samples by using real time reverse transcription polymerase chain reaction(RT-PCR).RESULTS:By performing conventional and double fluorescent immunolabelings confirmed by RT-PCR,higher number of HGFR(blood:6.7 ± 1.22 vs 38.5 ±3.18;LP:2.25 ± 0.85 vs 9.22 ± 0.65;P < 0.05),CDX2(blood:0 vs 0.94 ± 0.64;LP:0.75 ± 0.55 vs 2.11± 0.75;P < 0.05),CD133(blood:1.1 ± 0.72 vs 8.3± 1.08;LP:11.1 ± 0.85 vs 26.28 ± 1.71;P < 0.05)and Musashi-1(blood and LP:0 vs scattered) positive cells were detected in blood and lamina propria of UC samples as compared to controls.HGFR/CDX2(blood:0 vs 1± 0.59;LP:0.8 ± 0.69 vs 2.06 ± 0.72,P < 0.05)and Musashi-1/CDX2(blood and LP:0 vs scattered) coexpressions were found in blood and lamina propria of UC samples.HGFR/CD133 and CD133/CDX2 coexpressions appeared only in UC lamina propria samples.CDX2,Lgr5 and Musashi-1 expressions in UC blood samples were not accompanied by CK20 mRNA expression.CONCLUSION:In active UC,a portion of circulating HGFR-expressing cells are committed to the epithelial lineage,and may participate in mucosal regeneration by undergoing mesenchymal-to-epithelial transition.

Identification of a key G-protein coupled receptor in mediating appressorium formation and fungal virulence against insects

Fungal G-protein coupled receptors(GPCRs)play essential roles in sensing environmental cues including host signals.The study of GPCR in mediating fungus-insect interactions is still limited.Here we report the evolution of GPCR genes encoded in the entomopathogenic Metarhizium species and found the expansion of Pth11-like GPCRs in the generalist species with a wide host range.By deletion of ten candidate genes MrGpr1–MrGpr10 selected from the six obtained subfamilies in the generalist M.robertsii,we found that each of them played a varied level of roles in mediating appressorium formation.In particular,deletion of MrGpr8 resulted in the failure of appressorium formation on different substrates and the loss of virulence during topical infection of insects but not during injection assays when compared with the wild-type(WT)strain.Further analysis revealed that disruption of MrGpr8 substantially impaired the nucleus translocation of the mitogen-activated protein kinase(MAPK)Mero-Fus3 but not the MAPK Mero-Slt2 during appressorium formation.We also found that the defect ofΔMrGpr8 could not be rescued with the addition of cyclic AMP for appressorium formation.Relative to the WT,differential expression of the selected genes have also been detected inΔMrGpr8.The results of this study may benefit the understanding of fungus-interactions mediated by GPCRs.

The complexity of G-protein coupled receptor-ligand interactions

The G-protein coupled receptors(GPCRs)play fundamental roles in the human biololgy and drug discovery.GPCRs function as signalling molecules that transduce extracellular signals into cells.The signalling transduction is generally triggered by interacting with ligands,including photons,ions,small organic compounds,peptides,proteins and lipids.In this review,we focus on interactions with diffusible ligands such as hormones and neurotransmitters.We discuss three aspects of the complexity of the GPCR-ligand interactions:functional selectivity of ligands,receptor subtype selectivity of ligands and orphan GPCRs.

Role of opioid receptor heterodimerization in pain modulation and tolerance development

Protein to protein interactions leading to homo/heteromerization of receptor is well documented in literature. These interactions leading to dimeric/oligomers formation of receptors are known to modulate their function, particularly in case of G-protein coupled receptors. The opioid receptor heteromers having changed pharmacological properties than the constituent protomers provides preferences for novel drug targets that could lead to potential analgesicactivity devoid of tolerance and physical dependence. Heterodimerization of opioid receptors appears to generate novel binding properties with improved specificity and lack of side effects. Further the molecules which can interact simultaneously to both the protomers of the heteromer, or to both the binding sites(orthosteric and allosteric) of a receptor protein could be potential therapeutic molecules. This review highlights the recent advancements in exploring the plausible role of heteromerization of opioid receptors in induction of tolerance free antinociception.

血清可溶性神经调节蛋白-1、G蛋白偶联雌激素受体-1在急性胰腺炎患者病情及预后评估中临床价值研究

目的探讨血清可溶性神经调节蛋白-1(sNRG-1)、G蛋白偶联雌激素受体-1(GPER-1)在急性胰腺炎(AP)患者病情及预后评估中的临床价值。方法选取自2019年6月至2022年6月邯郸市第一医院收治的106例AP患者为研究对象,根据AP病情严重程度分为轻症组(n=49)、中重症组(n=36)及重症组(n=21);根据预后生存情况分为存活组(n=83)与死亡组(n=23)。采用酶联免疫吸附法检测血清sNRG-1、GPER-1水平。采用受试者工作特性(ROC)曲线评估血清sNRG-1、GPER-1及两者联合检测对AP患者预后的评估价值。采用多因素Logistic回归分析探讨AP患者预后影响因素。结果中重症组、重症组患者血清sNRG-1水平低于轻症组,且重症组低于中重症组;中重症组、重症组患者血清GPER-1水平高于轻症组,且重症组高于中重症组,差异均有统计学意义(P<0.05)。存活组与死亡组病情严重程度、入院急性生理与慢性健康评分(APACHEⅡ)、白细胞计数、C反应蛋白、血肌酐、乳酸脱氢酶、血淀粉酶、血脂肪酶、sNRG-1、GPER-1比较,差异有统计学意义(P<0.05)。APACHEⅡ评分≥12分、sNRG-1≤17.74 pg/ml、GPER-1≥4.82 pg/ml是影响AP患者预后的独立危险因素(P<0.05)。血清sNRG-1、GPER-1预测AP患者预后的ROC曲线下面积分别为0.846、0.753。两者联合预测AP患者预后的ROC曲线下面积为0.917,特异度为86.75%,灵敏度为86.96%。结论血清sNRG-1低表达、GPER-1高表达与AP患者的病情严重程度及预后有关,有望作为评估AP患者预后的生物学指标。

GPER调控缺血性脑卒中相关分子机制的研究进展

脑卒中又称中风,是一种发病突然的脑血液循环障碍性疾病,可分为缺血性脑卒中和出血性脑卒中,其中缺血性脑卒中发病率占87%,主要是由于局部脑组织血液供应障碍造成细胞缺血缺氧,引起组织坏死的一类具有破坏性的脑血管疾病[1]。缺血性脑卒中为全球第二大死因,其高发病率。

甘加型藏羊血浆E_2动态变化及其受体GPR30在HPO轴的表达及定位研究

[目的]旨在探讨雌二醇(E_(2))与其膜受体(GPR30)对甘加型藏羊(Ovis arise)生殖活动的调控作用,以期为甘加型藏羊生殖生理活动规律提供研究依据。[方法]以甘加型藏羊为试验材料,采用酶联免疫吸附法、实时荧光定量PCR法、免疫印迹法和免疫组织化学染色法分别检测甘加型藏羊繁殖季节不同发情阶段(发情前期、发情期、发情后期和间情期)与非繁殖季节的乏情期血浆中E_2含量的动态变化、GPR30 mRNA及其蛋白在HPO轴的表达水平和分布情况。[结果]繁殖季节不同发情阶段与非繁殖季节乏情期血浆中E_(2)浓度呈波动式变化,波峰出现在发情后10,24,36 h和发情前期的第16天早晨,波谷出现在发情后22,39,60 h、第5天早晨和发情前期的第14天早晨,E_(2)平均浓度在发情期最高[(73.269±0.241) pg/mL],间情期最低[(57.919±0.547) pg/mL],除发情后期外,且与其他各时期差异显著(P<0.05);下丘脑和卵巢中GPR30 mRNA和蛋白的最高表达量均出现在其发情后期(P<0.05),但垂体中GPR30 mRNA表达量在间情期最高,蛋白表达量在发情前期最高(P<0.05);GPR30免疫阳性细胞主要在下丘脑大神经元胞体、胞核及轴突、神经胶质细胞胞浆,垂体嗜酸性和嗜碱性细胞胞浆以及卵巢卵泡颗粒层细胞、卵泡膜细胞和黄体细胞胞浆上表达。[结论]甘加型藏羊发情周期血浆E_(2)浓度在发情期最高,间情期最低;发情周期各时期GPR30 mRNA、GPR30蛋白及其免疫阳性细胞在下丘脑、垂体和卵巢中均有差异性表达,其中下丘脑和卵巢中GPR30 mRNA和蛋白的表达呈正相关,垂体中呈负相关,表明E_(2)通过与分布在HPO轴上的GPR30受体结合,调节甘加型藏羊周期性发情和生殖器官功能活动。

G蛋白偶联雌激素受体1在骨代谢中作用的研究进展

G蛋白偶联雌激素受体1(G protein-coupled estrogen receptor 1,GPER1)是一种雌激素的膜受体,其通过快速的细胞多效应作用引发下游反应,对成骨细胞的增殖分化产生影响。因此,GPER1在雌激素介导的骨代谢中有着重要作用。本文对GPER1在骨代谢中的作用作了简要总结,包括GPER1在青春期参与骨生长的过程,在机体不同雌激素水平下的骨代谢中体现出的不同功能,以及其与其他受体共同作用参与了骨代谢。

老年脑梗死后认知功能障碍患者血清骨钙素、G蛋白耦联雌激素受体30水平变化及其与预后的相关性研究

目的研究老年脑梗死后认知功能障碍患者血清骨钙素、G蛋白耦联雌激素受体30(GPER 30)水平变化及其与预后的相关性,为评估患者预后提供参考。方法选取2021年1月至2022年10月平顶山市第二人民医院收治的115例老年脑梗死患者为研究对象,于脑梗死后第3天采用蒙特利尔认知评估量表(MoCA)评估患者的认知功能,根据有无认知功能障碍分为障碍组(54例,MOCA评分≤26分)和无障碍组(61例,MOCA评分>26分),比较两组患者的一般资料及血清骨钙素、GPER 30水平,同时比较不同认知障碍程度患者及障碍组中预后良好组和预后不良组患者的骨钙素、GPER 30蛋白相对灰度值、GPER 30 mRNA相对表达量,采用多因素Logistic回归分析老年脑梗死后认知功能障碍的影响因素,采用Spearman分析障碍组血清骨钙素、GPER 30水平与认知障碍程度及预后的相关性。结果两组患者的年龄、神经功能缺损(NIHSS)评分、骨钙素、GPER 30蛋白相对灰度值、GPER30 mRNA相对表达量比较,差异均有统计学意义(P<0.05);经Logistic回归分析结果显示,年龄、NIHSS评分、骨钙素、GPER 30蛋白相对灰度值、GPER 30 mRNA相对表达量均是老年脑梗死患者认知功能障碍发生的影响因素(P<0.05);不同认知障碍程度患者的骨钙素、GPER 30蛋白相对灰度值、GPER 30 mRNA相对表达量比较,轻度>中度>重度,差异均有统计学意义(P<0.05);经Spearman分析结果显示,血清骨钙素、GPER 30蛋白相对灰度值、GPER 30mRNA相对表达量与老年脑梗死后认知障碍程度呈正相关(r=0.784、0.715、0.673;P<0.05);障碍组预后良好患者血清骨钙素、GPER 30蛋白相对灰度值、GPER 30 mRNA相对表达量水平明显高于预后不良组,差异均有统计学意义(P<0.05);经Spearman分析结果显示,血清骨钙素、GPER 30蛋白相对灰度值、GPER 30 mRNA相对表达量与老年脑梗死后认知障碍预后呈负相关(r=-0.675、-0.663、-0.584;P<0.05)。结论骨钙素、GPER 30蛋白相对灰度值、GPER 30 mRNA相对表达量是老年脑梗死患者认知功能障碍发生的影响因素,其水平变化与认知障碍严重程度及预后均存在相关性。

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。

特异性激活G蛋白偶联雌激素受体通过活性氧途径调控结直肠癌细胞迁移

目的:探讨特异性激活G蛋白偶联雌激素受体(GPER)对结直肠癌(CRC)细胞迁移的作用及其可能的机制。方法:体外培养CRC细胞RKO和SW480,使用0.5或1.0μmol/L的GPER特异性激活剂(G-1)处理CRC细胞,采用CCK-8法、划痕实验和Transwell实验分别检测G-1对CRC细胞增殖、迁移的影响。用q PCR和WB法分别检测G-1及G-1+活性氧(ROS)清除剂N-乙酰半胱氨酸(NAC)处理对RKO细胞E-钙黏素(E-Cad)、纤连蛋白(FN)m RNA和蛋白表达的影响,用流式细胞术检测RKO细胞中ROS的水平。结果:经G-1处理后RKO和SW480细胞的迁移能力均明显减弱(均P<0.05),能显著上调细胞中E-cad m RNA及蛋白表达、下调FN m RNA及蛋白表达(均P<0.05)。G-1处理能刺激RKO细胞ROS水平上升,在NAC的作用下,由G-1引起的E-cad、FN蛋白表达变化被部分逆转。结论:特异性激活GPER通过上调ROS水平抑制EMT进程,进而抑制CRC细胞的迁移。

G protein-coupled receptors in energy homeostasis

G-protein coupled receptors(GPCRs)compromise the largest membrane protein superfamily which play vital roles in physiological and pathophysiological processes including energy homeostasis.Moreover,they also represent the up-to-date most successful drug target.The gut hormone GPCRs,such as glucagon receptor and GLP-1 receptor,have been intensively studied for their roles in metabolism and respective drugs have developed for the treatment of metabolic diseases such as type 2 diabetes(T2D).Along with the advances of biomedical research,more GPCRs have been found to play important roles in the regulation of energy homeostasis from nutrient sensing,appetite control to glucose and fatty acid metabolism with various mechanisms.The investigation of their biological functions will not only improve our understanding of how our body keeps the balance of energy intake and expenditure,but also highlight the possible drug targets for the treatment of metabolic diseases.The present review summarizes GPCRs involved in the energy control with special emphasis on their pathophysiological roles in metabolic diseases and hopefully triggers more intensive and systematic investigations in the field so that a comprehensive network control of energy homeostasis will be revealed,and better drugs will be developed in the foreseeable future.

Molecular mechanism of endocrine-disruptive effects induced by Bisphenol A:The role of transmembrane G-protein estrogen receptor 1 and integrin αvβ3

Bisphenol A(BPA) is one of the highest volume industrial products worldwide and has been widely used to make various products as the intermediates of polycarbonate plastics and epoxy resins.Inevitably, general population has been widely exposed to BPA due to extensive use of BPAcontaining products. BPA has similar chemical structure with the natural estrogen and has been shown to induce a variety of estrogen-like endocrine effects on organism in vivo or in vitro. High doses of BPA tend to act as antagonist of estrogen receptors(ERs) by directly regulating the genomic transcription. However, BPA at environmentally relevant low-dose always disrupt the biological function via a non-genomic manner mediated by membrane receptors, rather than ERs. Although some studies had investigated the non-genomic effects of low-dose BPA, the exact molecular mechanism still remains unclear. Recently, we found that membrane G protein-coupled estrogen receptor 1 and integrin αvβ3 and its relative signal pathways participate in the induction of male germ cell proliferation and thyroid transcription disruption by the low-dose BPA. A profound understanding for the mechanism of action of the environmentally relevant BPA exposure not only contributes to objectively evaluate and predict the potential influence to human health, but also provides theoretical basis and methodological support for assessing health effects trigged by other estrogen-like environmental endocrine disruptors. Based mainly on our recent findings, this review outlines the research progress of molecular mechanism on endocrine disrupting effects of environmental low-dose BPA, existing problems and some consideration for future studies.