Protein kinase small molecule inhibitors for rheumatoid arthritis: Medicinal chemistry/clinical perspectives

Medicinal chemistry strategies have contributed to the development, experimental study of and clinical trials assessment of the first type of protein kinase small molecule inhibitor to target the Janus kinase/Signal Transducers and Activators of Transcription(JAK/STAT) signaling pathway. The orally administered small molecule inhibitor, tofacitinib, is the first drug to target the JAK/STAT pathway for entry into the armamentarium of the medical therapy of rheumatoid arthritis. The introduction of tofacitinib into general rheumatologic practice coupled with increasing understanding that additional cellular signal transduction pathways including the mitogen-activated protein kinase and phosphatidylinositide-3-kinase/Akt/mammalian target of rapa-mycin pathways as well as spleen tyrosine kinase also contribute to immune-mediated inflammatory in rheumatoid arthritis makes it likely that further development of orally administered protein kinase small molecule inhibitors for rheumatoid arthritis will occur in the near future.

Telencephalin protects PAJU cells from amyloid beta protein-induced apoptosis by activating the ezrin/radixin/moesin protein family/phosphatidylinositol-3-kinase/protein kinase B pathway

Telencephalin is a neural glycoprotein that reduces apoptosis induced by amyloid beta protein in the human neural tumor cell line PAJU. In this study, we examined the role of the ezrin/radixin/moesin protein family/phosphatidylinositol-3-kinase/protein kinase B pathway in this process. Western blot analysis demonstrated that telencephalin, phosphorylated ezrin/radixin/moesin and phosphatidylinositol-3-kinase/protein kinase B were not expressed in PAJU cells transfected with empty plasmid, while they were expressed in PAJU cells transfected with a telencephalin expression plasmid. After treatment with 1.0 nM amyloid beta protein 42, expression of telencephalin and phosphorylated phosphatidylinositol-3-kinase/protein kinase B in the transfected cells gradually diminished, while levels of phosphorylated ezrin/radixin/moesin increased. In addition, the high levels of telencephalin, phosphorylated ezrin/radixin/moesin and phosphatidylinositol-3-kinase/protein kinase B expression in PAJU cells transfected with a telencephalin expression plasmid could be suppressed by the phosphatidylinositol-3-kinase inhibitor LY294002. These findings indicate that telencephalin activates the ezrin/radixin/moesin family/phosphatidylinositol-3-kinase/protein kinase B pathway and protects PAJU cells from amyloid beta protein-induced apoptosis.

Stress-activated kinases as therapeutic targets in pancreatic cancer

Pancreatic cancer is a dismal disease with high incidence and poor survival rates.With the aim to improve overall survival of pancreatic cancer patients,new therapeutic approaches are urgently needed.Protein kinases are key regulatory players in basically all stages of development,maintaining physiologic functions but also being involved in pathogenic processes.c-Jun N-terminal kinases(JNK)and p38 kinases,representatives of the mitogen-activated protein kinases,as well as the casein kinase 1(CK1)family of protein kinases are important mediators of adequate response to cellular stress following inflammatory and metabolic stressors,DNA damage,and others.In their physiologic roles,they are responsible for the regulation of cell cycle progression,cell proliferation and differentiation,and apoptosis.Dysregulation of the underlying pathways consequently has been identified in various cancer types,including pancreatic cancer.Pharmacological targeting of those pathways has been the field of interest for several years.While success in earlier studies was limited due to lacking specificity and off-target effects,more recent improvements in small molecule inhibitor design against stress-activated protein kinases and their use in combination therapies have shown promising in vitro results.Consequently,targeting of JNK,p38,and CK1 protein kinase family members may actually be of particular interest in the field of precision medicine in patients with highly deregulated kinase pathways related to these kinases.However,further studies are warranted,especially involving in vivo investigation and clinical trials,in order to advance inhibition of stress-activated kinases to the field of translational medicine.

基于VEGF/PI3K/Akt通路基因表达探讨骨坏死康复丸对激素性股骨头坏死大鼠血管新生的影响

【目的】观察骨坏死康复丸对激素性股骨头坏死(SONFH)大鼠的治疗作用及机制。【方法】将60只大鼠随机分为空白组,模型组,仙灵骨葆胶囊组及骨坏死康复丸低、中、高剂量组,每组10只。除空白组,其他各组大鼠采用脂多糖联合糖皮质激素诱导法建立SONFH模型。干预结束后,分别进行股骨头的血管造影观察骨髓内微血管变化、苏木素-伊红(HE)染色并计算空骨陷窝率、Micro-CT扫描分析、压缩实验,采用实时定量聚合酶链反应(RT-qPCR)法检测全血磷脂酰肌醇3-激酶(PI3K)、蛋白激酶B(Akt)1、血管内皮生长因子(VEGF)、血小板内皮细胞黏附分子1(CD31)基因表达。【结果】与空白组比较,模型组股骨头髓腔内血供差,空骨陷窝率增加(P<0.05),骨密度、骨体积分数显著降低(P<0.05),股骨头最大载荷及弹性模量降低(P<0.05),全血Akt1、PI3K、VEGF、CD31 mRNA表达水平降低(P<0.05);与模型组比较,骨坏死康复丸高剂量组和仙灵骨葆胶囊组股骨头髓腔内血供较好,空骨陷窝率减少(P<0.05),骨密度、骨体积分数、骨小梁数量、骨小梁厚度显著升高(P<0.05)及骨小梁分离度显著减小(P<0.05),股骨头最大载荷及弹性模量升高(P<0.05),全血Akt1、PI3K、VEGF、CD31 mRNA表达水平升高(P<0.05);骨坏死康复丸高剂量组上述各指标与仙灵骨葆胶囊组比较,差异均无统计学意义(P>0.05)。【结论】骨坏死康复丸可改善大鼠激素性股骨头坏死,其机制与促进VEGF/PI3K/Akt通路基因表达,进而促进血管新生有关。

吉法酯通过调控P38MAPK信号通路对NSAIDs小肠损伤防治作用的实验研究

目的观察胃黏膜保护药吉法酯对非甾体类抗炎药(non-steroidal anti-inflammatory drugs,NSAIDs)相关小肠损伤的防治作用,并探讨其可能机制。方法24只SD大鼠随机分为对照组、双氯芬酸模型组和吉法酯干预组,每组8只;对照组和模型组分别给予生理盐水10ml/(kg·d)和双氯芬酸7.8mg/(kg·d)灌胃,吉法酯干预组在造模前1d给予吉法酯31.25mg/(kg·d)灌胃,造模当日起,先予吉法酯31.25mg/(kg·d)灌胃,1h后再予双氯芬酸7.8mg/(kg·d)灌胃,连续造模5d后处死所有大鼠,比较各组大鼠小肠黏膜大体及病理损伤情况并评分。免疫印迹法检测小肠组织中磷酸化P38丝裂原活化蛋白激酶(p-P38 mitogen-activated protein kinase,p-P38MAPK)蛋白的表达,免疫组化法检测小肠组织中细胞间黏附分子-1(intercellular adhesion molecule-1,ICAM-1)的表达。结果模型组大鼠小肠黏膜均出现不同程度的充血水肿、糜烂及溃疡,镜下可见小肠上皮结构破坏,绒毛坏死脱落,毛细血管充血,淋巴管扩张及大量炎症细胞浸润,大体和病理损伤评分均较对照组显著升高(P<0.01),而吉法酯干预组小肠黏膜的损伤程度较模型组明显减轻(P<0.05)。免疫印迹法结果显示,模型组小肠组织中p-P38MAPK蛋白的表达显著高于对照组(P<0.01),吉法酯干预组较模型组显著降低(P<0.01)。免疫组化结果显示,ICAM-1在模型组中的表达显著高于对照组(P<0.01),而在吉法酯干预组中的表达较模型组显著下降(P<0.05)。结论吉法酯对NSAIDs小肠黏膜损伤具有一定的防治作用,可有效减轻小肠黏膜损伤,其机制可能与抑制P38MAPK信号通路、下调ICAM-1的表达有关。

以癫痫发作为首要症状的可逆性胼胝体压部病变综合征患儿临床特征及预后影响因素分析

目的 探讨以癫痫发作为首要症状的可逆性胼胝体压部病变综合征(RESLES)患儿临床特征及预后影响因素。方法 选取2016年1月—2021年12月收治的以癫痫发作为首要症状的RESLES患儿143例,统计分析其临床特征和预后情况,根据预后情况将其分为预后不良组(35例)和预后良好组(108例),探讨其预后影响因素,构建Nomogram预测模型,并采用受试者工作特征(ROC)曲线和决策曲线(DCA)验证该模型对以癫痫发作为首要症状RESLES患儿预后不良的预测价值和临床效用。结果 143例中表现为惊厥发作者占86.71%(124/143);有前驱感染症状者占89.51%(128/143);头颅MRI检查T1WI低或稍低信号者占91.61%(131/143),DWI高或稍高、FLAIR高或稍高、T2WI高或稍高者均达100.00%(143/143),孤立胼胝体压部病变者占81.82%(117/143),病变形状斑片形占51.05%(73/143)。合并胼胝体其他部位病变、意识障碍、心肌型肌酸激酶同工酶(CK-MB)、胶质纤维酸性蛋白(GFAP)、β-肌动蛋白(β-actin)、细胞间黏附分子-1(ICAM-1)是以癫痫发作为首要症状RESLES患儿预后不良的危险因素(P<0.01)。ROC曲线分析显示Nomogram预测模型预测以癫痫发作为首要症状的RESLES患儿预后不良的曲线下面积为0.909,95%CI 0.849,0.951,DAC显示该模型具有良好的临床效用。结论 以癫痫发作为首要症状的RESLES患儿以惊厥发作及前驱感染症状为主要表现,头颅MRI检查T1WI呈低或稍低信号,DWI、FLAIR、T2WI呈高或稍高信号,合并胼胝体其他部位病变、意识障碍、CK-MB、GFAP、β-actin、ICAM-1是其预后不良影响因素,构建Nomogram预测模型有助于筛选其预后不良高危人群。

某院113例小分子蛋白激酶抑制剂不良反应分析

目的了解小分子蛋白激酶抑制剂药品不良反应(ADR)的发生特点。方法回顾性分析医院2018年1月至2021年12月上报国家药品不良反应监测中心的有关小分子蛋白激酶抑制剂的ADR报告,对患者性别、年龄、原患疾病、药品品种、上报主体,以及ADR发生时间、累及系统/器官、临床表现、治疗及转归等进行统计与分析,根据《药品不良反应报告和监测管理办法》对ADR的关联性和严重程度分级进行评价。结果共收集到113份ADR报告,涉及患者113例,发生ADR 121例次。其中,男女性别比为1.26∶1,年龄≥61岁83例(73.45%);报告主体为医师93例(82.30%);使用9种小分子蛋白激酶抑制剂,阿帕替尼致ADR 59例(52.21%);ADR发生在用药后1个月内91例(80.53%);主要累及皮肤及其附件33例次(27.27%)和消化系统29例次(23.97%);关联性评价为可能33份(29.20%),很可能73份(64.60%),肯定7份(6.19%);停药或对症处理后痊愈或好转93例(82.30%);新的及严重ADR表现为流泪异常、皮疹各1例(0.88%),Ⅳ级血小板减少2例(1.77%)。结论临床使用小分子蛋白激酶抑制剂时,应注意患者皮肤及其附件损害、消化系统损害等的发生;同时,临床药师应加强宣教,早识别、早干预,提高患者治疗的依从性和有效性。

Axonal growth inhibitors and their receptors in spinal cord injury:from biology to clinical translation

Axonal growth inhibitors are released during traumatic injuries to the adult mammalian central nervous system, including after spinal cord injury. These molecules accumulate at the injury site and form a highly inhibitory environment for axonal regeneration. Among these inhibitory molecules, myelinassociated inhibitors, including neurite outgrowth inhibitor A, oligodendrocyte myelin glycoprotein, myelin-associated glycoprotein, chondroitin sulfate proteoglycans and repulsive guidance molecule A are of particular importance. Due to their inhibitory nature, they represent exciting molecular targets to study axonal inhibition and regeneration after central injuries. These molecules are mainly produced by neurons, oligodendrocytes, and astrocytes within the scar and in its immediate vicinity. They exert their effects by binding to specific receptors, localized in the membranes of neurons. Receptors for these inhibitory cues include Nogo receptor 1, leucine-rich repeat, and Ig domain containing 1 and p75 neurotrophin receptor/tumor necrosis factor receptor superfamily member 19(that form a receptor complex that binds all myelin-associated inhibitors), and also paired immunoglobulin-like receptor B. Chondroitin sulfate proteoglycans and repulsive guidance molecule A bind to Nogo receptor 1, Nogo receptor 3, receptor protein tyrosine phosphatase σ and leucocyte common antigen related phosphatase, and neogenin, respectively. Once activated, these receptors initiate downstream signaling pathways, the most common amongst them being the Rho A/ROCK signaling pathway. These signaling cascades result in actin depolymerization, neurite outgrowth inhibition, and failure to regenerate after spinal cord injury. Currently, there are no approved pharmacological treatments to overcome spinal cord injuries other than physical rehabilitation and management of the array of symptoms brought on by spinal cord injuries. However, several novel therapies aiming to modulate these inhibitory proteins and/or their receptors are under investigation in ongoing clinical trials. Investigation has also been demonstrating that combinatorial therapies of growth inhibitors with other therapies, such as growth factors or stem-cell therapies, produce stronger results and their potential application in the clinics opens new venues in spinal cord injury treatment.

Metformin inhibits nuclear factor-κB activation and inflammatory cytokines expression induced by high glucose via adenosine monophosphate-activated protein kinase activation in rat glomerular mesangial cells in vitro

Background The renoprotective mechanisms of adenosine monophosphate （AMP）-activated protein kinase （AMPK） agonist-metformin have not been stated clearly.We hypothesized that metformin may ameliorate inflammation via AMPK interaction with critical inflammatory cytokines The aim of this study was to observe the effects of metformin on expression of nuclear factor-κB （NF-κB）,monocyte chemoattractant protein-1 （MCP-1）,intercellular adhesion molecule-1 （ICAM-1） and transforming growth factor-beta 1 （TGF-β1） induced by high glucose （HG） in cultured rat glomerular mesangial cells （MCs）.Methods MCs were cultured in the medium with normal concentration glucose （group NG,5.6 mmol/L）,high concentration glucose （group HG,25 mmol/L） and different concentrations of metformin （group M1,M2,M3）.After 48-hour exposure,the supernatants and MCs were collected.The expression of NF-κB,MCP-1,ICAM-1,and TGF-β1 mRNA was analyzed by real time polymerase chain reaction.Westem blotting was used to detect the expression of AMPK,phospho-Thr-172 AMPK （p-AMPK）,NF-κB p65,MCP-1,ICAM-1,and TGF-β1 protein.Results After stimulated by HG,the expression of NF-κB,MCP-1,ICAM-1,TGF-β1 mRNA and protein of MCs in group HG increased significantly compared with group NG （P ＜0.05）.Both genes and protein expression of NF-κB,MCP-1,ICAM-1,TGF-β1 of MCs induced by high glucose were markedly reduced after metformin treatment in a dose-dependent manner （P ＜0.05）.The expression of p-AMPK increased with the rising of metformin concentration,presenting the opposite trend,while the level of total-AMPK protein was unchanged with exposure to HG or metformin.Conlusion Metformin can suppress the expression of NF-κB,MCP-1,ICAM-1 and TGF-β1 of glomerular MCs induced by high glucose via AMPK activation,which may partlv contribute to its reno-protection.

蛋白激酶C活性变化影响内皮-单核细胞黏附

目的探讨蛋白激酶C(PKC)激动剂佛波酯(PMA)和抑制剂钙磷酸结合蛋白(Calphostin C)对荷脂ECV304内皮细胞黏附能力影响的机制。方法采用体外培养和直接计数法观察内皮细胞黏附能力变化;PepTag Non-Radioactive Assay法定性定量细胞膜上PKC活性状态;RT-PCR和Western blot检测黏附相关指标细胞间黏附分子-1(ICAM-1)、I-κBα和ezrin表达的变化。结果100nmol/L PMA在激活细胞膜PKC活性的同时,可以与氧化型低密度脂蛋白(ox-LDL)协同增强ICAM-1和ezrin表达,但下调I-κBα的表达,并使内皮-单核细胞的黏附能力增强;300nmol/L Calphostin C基本上可以逆转50μg/ml ox-LDL诱导的酶活化和对ICAM-1、I-κBα和ezrin表达的调节,即PKC活性减弱,ICAM-1和ezrin表达下调,I-κBα表达上调,内皮细胞黏附能力明显降低。结论PMA、Calphostin C→PKC→NF-κB/I-κB→ICAM-1→Adhesion可能是黏附信息传递整合的一条重要途径,而黏附分子→ezrin→细胞骨架途径则可能起到加强内皮-单核细胞间黏附能力的作用。

氟伐他汀对醛固酮诱导的系膜细胞SGK1及CTGF表达的影响

目的:观察氟伐他汀对醛固酮(Ald)诱导的大鼠肾小球系膜细胞(HBZY-1)血清与糖皮质激素诱导蛋白激酶1(SGK1)和结缔组织生长因子(CTGF)表达的影响。方法:以大鼠系膜细胞为实验对象,分为:(1)对照组;(2)不同浓度及时间Ald组;(3)Ald(10-7mol/L)+SPI(安体舒通10-9mol/L)组;(4)Ald(10-7mol/L)+LY294002(PI3K抑制剂20μmol/L)组;(5)Ald(10-7mol/L)+SB203580(P38MAPK抑制剂20μmol/L);(6)Ald(10-7mol/L)+F(氟伐他汀10-7、10-6、10-5mol/L)组;(7)Ald(10-7mol/L)+F(氟伐他汀10-5mol/L)+MVA(甲羟戊酸10-4mol/L)组;(8)Ald(10-7mol/L)+F(氟伐他汀10-5mol/L)+FPP(法尼酯焦磷酸10-5mol/L)组;(9)Ald(10-7mol/L)+F(氟伐他汀10-5mol/L)+GGPP(焦磷酸牛儿基牛儿酯10-5mol/L)组。Western印迹方法检测SGK1、CTGF蛋白表达水平。酶联免疫吸附实验(ELISA)检测细胞培养液中细胞外基质成分纤维连接蛋白(FN)、单核细胞趋化因子(MCP-1)和细胞间黏附分子-1(ICAM-1)蛋白含量。结果:Ald呈剂量依赖性上调SGK1和CTGF蛋白表达(P<0.05)。醛固酮刺激6h即可增加SGK1蛋白表达(P<0.05),12h达高峰,CTGF蛋白水平呈时间依赖性增加。安体舒通和PI3K特异性抑制剂LY294002可阻断Ald对SGK1的激活作用(P<0.01)。氟伐他汀可呈剂量依赖性下调Ald诱导的系膜细胞内SGK1和CTGF蛋白表达,以及其下游趋化因子MCP-1和ICAM-1表达(P<0.05)。甲羟戊酸和GGPP可逆转氟伐他汀的作用(P<0.05)。结论:醛固酮可通过抑制盐皮质激素受体(MR)和PI3K信号转导通路诱导大鼠系膜细胞内SGK1和CTGF蛋白的表达,氟伐他汀可通过SGK1信号转导通路缓解Ald的致纤维化作用。甲羟戊酸可部分逆转氟伐他汀的作用,可能与甲羟戊酸通路中的Rho蛋白活化有关。

细胞间黏附分子-1在ARDS小鼠肺微血管内皮细胞内的表达变化

目的细胞间黏附分子-1（intercellular adhesion molecule-1,ICAM-1）在介导中性粒细胞肺部浸润的过程中起到很大作用。在脂多糖（Lipopolysaccharides,LPS）诱导的急性呼吸窘迫综合征小鼠模型中,观察ICAM-1以及丝裂原激活蛋白激酶2（mitogen-activated protein kinase activated protein kinase 2,MK2）和人抗原R（human antigen R,HuR）在小鼠肺微血管内皮细胞（pulmonary microvascular endothelial cell,PMVEC）内表达的变化。方法健康清洁型6~8周雄性C57BL/6小鼠,随机数字表法分为对照组和LPS组,每组5只。LPS组腹腔注射LPS 5 mg/kg（溶于100μL的PBS中）,对照组腹腔注射PBS（5mg/kg）,24 h处死全部小鼠。在LPS诱导的小鼠ARDS模型中,用Real-time PCR方法检测小鼠肺组织分离得到的PMVEC内人抗原R（human antigen R,HuR）、ICAM-1的mRNA表达量,用Western blot法检测总MK2、磷酸化MK2、HuR以及ICAM-1表达量的变化,利用流式细胞仪检测PMVEC表面ICAM-1的表达量及肺部浸润的中性粒细胞数量。结果 LPS组小鼠肺组织W/D较对照组高,差异有统计学意义[（6.16±0.40）vs（3.61±0.28）,P〈0.05]。流式细胞术检测LPS组中性粒细胞浸润率较对照组高[（13.92±3.23）%vs（3.24±1.24）%,P〈0.05]。LPS刺激后小鼠肺组织中ICAM-1的mRNA及蛋白表达较对照组明显增加（P〈0.05）,PMVEC表面ICAM-1表达较对照组也明显增加（P〈0.05）。MK2总量无明显变化,磷酸化MK2较对照组明显增加,HuR mRNA及蛋白总量无明显变化,但存在核质转移。结论特异性阻断或减少微血管内皮细胞中HuR的表达可使ICAM-1表达减少,从而减少中性粒细胞的浸润,减轻ARDS病理生理改变,可为临床治疗ARDS提供一个新靶点。

丝裂原活化蛋白激酶在动脉粥样硬化中的作用研究进展

动脉粥样硬化（AS）是一类主要累及大中动脉血管壁的慢性炎症疾病,主要由血脂紊乱引起,炎症反应参与AS发生、发展的全过程.在AS发生发展过程中,炎症细胞、血管内皮细胞、平滑肌细胞和细胞因子、趋化蛋白、黏附分子等相互作用,相互影响动脉粥样化过程.促炎细胞因子可改变动脉粥样硬化早期血管内皮功能,诱导血管内皮细胞表达趋化因子和黏附分子,促进白细胞、淋巴细胞和单核细胞迁移、募集、黏附到发炎的血管壁中.白细胞在动脉血管内膜中被局部产生的细胞因子永久激活,其可以通过刺激清道夫受体的表达和增强细胞介导的氧化来加速巨噬细胞向泡沫细胞的转化,加剧动脉粥样硬化病变进展.致炎细胞因子发挥生物学功能是通过与细胞膜表面受体相互作用,经过跨膜信号转导活化细胞内的相关信号通路,最终促进靶基因的表达.目前认为,丝裂原活化蛋白激酶（mitogen activated protein kinase,MAPKs）、Janus激酶-信号转导子及转录激活子（Janus kinase sig-nal transduction and activator of transcription,JAK-STAT）和核因子kB（nuclear factor kB,NF-kB）是细胞内3条重要信号通路,在炎症信号转导调控中起重要作用.MAPKs是细胞外刺激信号转导至细胞内及核内并引起生物化学功能如细胞增殖、分化、转化及凋亡等的主要信号转导通路.

阿托伐他汀对内皮细胞微粒诱导的人脐静脉内皮细胞ERK、p38MAPK、NF-κB p65蛋白及ICAM-1 mRNA表达的影响

目的:探讨阿托伐他汀干预对内皮细胞微粒(EMPs)诱导的人脐静脉内皮细胞(HUVEC)ERK/MAPK和NF-κB信号通路及细胞间黏附分子-1(ICAM-1)表达的影响。方法:将体外培养的HUVEC细胞系ECV-304分组培养:①EMPs不同作用时间组用EMPs(终浓度105mL-1)分别刺激细胞0、3、6、12和24h。②EMPs不同作用剂量组分别用终浓度为0、102、103、104及105mL-1的EMPs刺激细胞24h。③抑制剂预处理组在EMPs刺激前,分别用ERK、p38MAPK及NF-κB抑制剂PD98059、SB203580、PDTC进行预处理。④阿托伐他汀预处理组在EMPs刺激前,用阿托伐他汀进行预处理。然后,用实时荧光定量PCR测定细胞中ICAM-1mRNA的表达,Westernblot法测定磷酸化ERK(p-ERK)、p-p38MAPK、NF-κBp65蛋白的表达。结果:随EMPs作用时间的延长和作用剂量的增加,细胞p-ERK、p-p38MAPK、NF-κBp65蛋白及ICAM-1mRNA的表达均逐渐增加(P均<0.001)。用上述抑制剂及阿托伐他汀预处理后,EMPs诱导的细胞ICAM-1mRNA表达均降低(P<0.05)。结论:阿托伐他汀可能通过ERK/MAPK和NF-κB信号通路下调EMPs诱导的内皮细胞ICAM-1的表达。

辛伐他汀抑制P38MAPK信号通路减少大鼠肾小球系膜细胞MCP-1及ICAM-1表达的研究

目的探讨P38促分裂原活化蛋白激酶(P38MAPK)信号通路在糖尿病肾病(DN)中的作用及辛伐他汀(SI)在防治DN中的作用机制。方法分别以高糖、糖基化终产物(AGE)或过氧化氢体外孵育大鼠肾小球系膜细胞(MC),检测P38MAPK和单核细胞趋化蛋白1(MCP-1)及细胞间黏附因子1(ICAM-1)在MC的表达。比较有无P38MAPK特异性抑制剂SB203580(SB)或辛伐他汀(SI)预处理时以上3种因素对P38MAPK和MCP-1及ICAM-1在MC表达的影响。结果高糖、AGE或H2O2均可独立激活P38MAPK,并增加MCP-1及ICAM-1在MC的表达;SB显著抑制MCP-1及ICAM-1的表达;SI抑制P38MAPK的活化并减少MCP-1及ICAM-1的表达。结论P38MAPK是MCP-1及ICAM-1的上游信号分子,表明P38MAPK可能是DN发生的始动信号之一。SI可能通过抑制P38MAPK磷酸化而抑制MCP-1及ICAM-1的表达,有防治DN的作用。

IL-6对肝癌细胞增殖、侵袭和转移的影响

目的观察白细胞介素-6(interleukin-6,IL-6)对肝癌SMMC-7721细胞增殖、侵袭和转移的影响并探究其作用机制。方法体外培养SMMC-7721细胞,分别加入不同浓度IL-6(0、5、10、20、40 ng/ml)和(或)AKT抑制剂LY294002。MTT、细胞划痕实验、Transwell侵袭实验、细胞黏附实验分别检测细胞的增殖、转移和侵袭能力的变化;Western blot方法检测AKT、p-AKT、MMP-9、CD44、Ezrin蛋白的表达量。结果 IL-6组(5、10、20 ng/ml)浓度依赖性促进细胞增殖率、划痕愈合率、侵袭细胞数目和黏附细胞吸光度值增加(P<0.05);IL-6浓度20 ng/ml与40 ng/ml之间差异无统计学意义(P>0.05)。IL-6最佳作用浓度组(20 ng/ml)细胞增殖率(62.76%±6.86%)、划痕愈合率(92.37%±9.38%)、侵袭细胞数目(174.41±15.14)、黏附细胞吸光度值(0.531±0.055),P-AKT、MMP-9、CD44、Ezrin蛋白的表达量均高于对照组和IL-6(20ng/ml)+LY296002(20μmol/L)组(P<0.05)。各组AKT蛋白表达量差异无统计学意义(P>0.05)。结论 IL-6可能通过AKT通路影响MMP-9、CD44、Ezrin蛋白的表达,促进肝癌细胞的增殖、侵袭和转移。

糖尿病视网膜病变的发病机制

糖尿病视网膜病变(diabetic retinopathy,DR)是糖尿病最主要的微血管并发症之一,是成人失明的重要原因。其发病机制复杂,多种生化异常牵涉其中,主要包括:多元醇途径亢进、蛋白激酶C激活、氧化应激增高、终末糖基化产物形成、生长因子和黏附分子表达增加等。本文就DR及其发病机制作一综述。

小分子蛋白酪氨酸激酶抑制剂的研究进展

蛋白酪氨酸激酶是一类具有酪氨酸激酶活性的蛋白质,其异常表达与肿瘤的侵袭、转移以及肿瘤新生血管的生成等密切相关。以蛋白酪氨酸激酶作为靶点的药物研究已取得了突破性进展,目前已有二十余个小分子蛋白酪氨酸激酶抑制剂用于临床肿瘤的治疗,并有大量的抑制剂处于临床前和临床研究阶段。对近年来小分子蛋白酪氨酸激酶抑制剂的研究进展进行了综述。

Neogenin对人滋养细胞RGMa、DAPK、Neogenin mRNA表达及细胞凋亡的影响

目的:观察不同浓度Neogenin对人滋养细胞RGMa、DAPK、Neogenin表达的影响,以阐明Neogenin在滋养细胞凋亡过程中的作用。方法:先用含0,0.5,1,5,10及50ng/ml的Neogenin无血清培养基预处理TEV-1细胞24h,用噻唑蓝(MTT)比色、流式细胞术(FCM)检测细胞增殖指数及凋亡率;用实时定量PCR检测TEV-1细胞RGMa、DAPK、Neogenin mRNA的变化。结果:MTT、FCM检测表明Neogenin能诱导TEV-1凋亡,且呈一定的浓度依赖性,Neogenin对TEV-1细胞增殖无明显影响。TEV-1细胞RGMa mRNA的表达水平依次为空白对照组(0ng/ml Neogenin)的0.62±0.04,0.90±0.04,0.97±0.04,0.90±0.03及0.75±0.03;DAPK mRNA的表达水平依次为空白对照组的0.68±0.02,0.35±0.01,0.74±0.01,0.51±0.01及0.33±0.01;Neogenin mRNA的表达水平依次为空白对照组的1.45±0.03,1.80±0.05,1.22±0.08,1.47±0.00及1.14±0.00。即随着Neogenin浓度增加,TEV-1细胞内DAPK mRNA表达下调,Neogenin mRNA表达上升,RGMa mRNA的表达水平基本不变。结论:Neogenin可促进TEV-1细胞凋亡,这一过程可能是经DAPK途径调控的。

二甲双胍减轻软脂酸诱导的血管内皮细胞损伤机制探讨

目的了解二甲双胍在软脂酸(PA)诱导的血管内皮细胞损伤中的保护作用及机制。方法人脐静脉血管内皮细胞(HUVEC)在空白对照、PA、二甲双胍和PA联合二甲双胍培养液中培养24h。RT-PCR方法测定单核细胞趋化蛋白-1(MCP-1)和细胞间黏附分子-1(ICAM-1)的mRNA表达,Western blot测定24h细胞的ICAM-1、核因子κBp65(NF-κBp65)和磷酸化抑制因子κBα(IκBα)的蛋白表达。结果与对照组相比,PA组的MCP-1和ICAM-1表达显著增加(P<0.05)。加入二甲双胍后,MCP-1和ICAM-1表达显著减少(P<0.05)。二甲双胍降低PA诱导的NF-κBp65和磷酸化IκBα表达增加。结论二甲双胍可能通过激活AMPK,阻断PA对NF-κB的激活,减少MCP-1和ICAM-1表达,从而减轻PA诱导的HUVEC损伤。