BMP9经Smad信号通路调控iSCAP成骨/成牙本质分化

目的：研究BMP9是否能够激活 iSCAP细胞中的Smad信号通路,以及Smad信号通路在BMP9诱导iSCAP细胞成骨/成牙本质向分化过程中的作用。方法：首先,采用Western印迹实验检测Ad-BMP9转染iSCAP后Smad1/5/8蛋白的磷酸化水平。随后,利用dnALK1重组腺病毒和BMP9条件培养基作用于iSCAP,Western印迹实验检测Smad1/5/8蛋白磷酸化水平;采用碱性磷酸酶（ALP）活性检测和染色方法分析早期成骨/成牙本质指标变化,茜素红染色法检测钙盐沉积程度;RT-PCR成骨/成牙本质相关基因Runx2、OCN、OPN和DMP1表达的影响。结果：BMP9可上调iSCAP中Smad1/5/8的磷酸化水平;dnALK1抑制BMP9条件培养基作用后,可抑制Smad1/5/8的磷酸化,iSCAP细胞中早期成骨/成牙本质标志物ALP活性和晚期成骨/成牙本质标志钙盐结节减少,重要成骨转录因子Runx2基因表达减少,成骨/成牙本质相关基因OCN、OPN、DMP1的表达也受到了抑制。结论：Smad信号通路在BMP9诱导iSCAP成骨/成牙本质过程中存在并起着重要作用。     

血管平滑肌细胞中ERK通路与TGF-β_1/Smad通路的相互作用

目的:探讨血管平滑肌细胞(VSMC)中TGF-β/Smad与ERK信号转导通路是否存在相互调节关系。方法:原代培养的大鼠胸主动脉平滑肌细胞,分四组:①对照组,②TGF-β1组,③ERK阻断剂(PD98059)组和④TGF-β1+ERK阻断剂(PD98059)组。分别用Western blot法检测VSMC内Smad2/3、ERK1/2蛋白表达及磷酸化Smad2/3、磷酸化ERK1/2蛋白含量,RT-PCR方法测VSMC中Smad2、Smad3mRNA的表达。结果:①与对照组相比,TGF-β1组P-Smad2/3、P-ERK1/2蛋白含量增多(P0.05),ERK阻断剂组P-Smad2/3、P-ERK1/2蛋白含量减少(P0.05),TGF-β1+ERK阻断剂组P-Smad2/3、P-ERK1/2蛋白含量无差异;与TGF-β1组相比,TGF-β1+ERK阻断剂组P-Smad2/3、P-ERK1/2蛋白含量减少(P0.05)。各组间Smad2/3、ERK1/2蛋白表达无差异。②各组的Smad2、Smad3mRNA表达无差异。结论:TGF-β1诱导的Smad2/3蛋白磷酸化依赖ERK通路激活,但ERK通路对Smad2/3蛋白和mRNA表达水平无影响。     

多囊蛋白2对低频脉冲电磁场促进成骨细胞分化成熟的影响北大核心CSCD

已知低频脉冲电磁场(pulsed electromagnetic fields,PEMFs)可以促进体外培养大鼠颅骨成骨细胞(rat calvarial osteoblasts,ROBs)的分化成熟,但ROBs感知PEMFs物理信号并启动成骨性分化的机制至今不明。本研究探究了0.6 mT 50 Hz PEMFs促进ROBs成骨性分化与位于ROBs表面的初级纤毛上的多囊蛋白2(polycystin2,PC2)的关系。首先用免疫荧光染色法研究了PC2是否位于ROBs初级纤毛内,然后通过Western blotting检测了经PEMFs处理不同时间后,ROBs内PC2蛋白表达的变化情况。接着用PC2阻断剂盐酸阿米洛利(amiloride HCl,AMI)预处理ROBs,检测碱性磷酸酶(alkline phosphatase,ALP)活性和PC2蛋白表达受PEMFs处理的影响情况,以及与骨形成相关的Runx-2、Bmp-2、Col-1、Osx的蛋白及基因表达的变化情况。再用RNA干扰法抑制ROBs内PC2的表达后,检测与骨形成相关基因表达情况。结果发现,PC2被定位于ROBs初级纤毛上,PEMFs处理增加了PC2蛋白表达量。PC2被AMI阻断后,PEMFs不再能提高PC2蛋白表达水平及ALP活性,PEMFs对成骨相关蛋白和基因表达的促进作用也被抵消。使用RNA干扰法抑制PC2的表达后,PEMFs也不再能提高骨形成相关基因的表达。结果表明:存在于成骨细胞初级纤毛表面的PC2在感知并传递PEMFs发出的物理信号中扮演着不可或缺的角色,PEMFs促进ROBs成骨性分化依赖于PC2的存在。本研究为阐明低频脉冲电磁场促进骨形成及治疗骨质疏松的机制研究奠定了基础。     

Shh信号参与调控BMP9诱导的间充质干细胞成骨分化

目的：观察sonic hedgehog（Shh）信号通路在骨形态发生蛋白9（BMP9）诱导的小鼠间充质干细胞（MSCs）C3H10T1/2和C2C12成骨分化中的作用,并初步探讨其作用机制。方法：Shh信号通路抑制剂Cyclopamine和激活剂Purmorphamine以及过表达Shh腺病毒分别作用于BMP9处理的C3H10T1/2和C2C12细胞,碱性磷酸酶（ALP）检测早期成骨指标ALP,茜素红S染色检测晚期成骨指标钙盐沉积,RT-PCR检测Shh信号相关基因以及成骨关键转录因子的表达,Western blot检测Shh的表达,荧光素酶报告基因检测Smad1/5/8的转录调控活性。结果：BMP9促进Shh信号相关基因的表达,激活Shh信号可增强BMP9诱导的C3H10T1/2和C2C12细胞早晚期成骨分化并促进了BMP9诱导的Smad荧光素酶活性,抑制Shh信号后作用相反。结论：激活Shh信号通路可促进BMP9诱导的小鼠MSCs成骨分化,抑制其活性后作用相反。     

积雪草对早期糖尿病肾病大鼠TGF-β1表达及相关下游信号的影响

目的：通过研究积雪草（CA）对早期糖尿病肾病大鼠转化生长因子β₁（TGF-β₁）表达及相关下游信号的影响,阐明积雪草防治早期糖尿病肾病（DN）的分子机制。方法：60只雄性SD大鼠,按体重随机分为假手术组（n=10）和造模组（n=50）。造模组大鼠进行右肾切除术,1周后给以腹腔注射链脲佐菌素（STZ）30 mg/kg,连续给3 d;72 h后测血糖,以 ≥ 16.7 mmol/L,尿糖+++以上及尿量大于对照组的50%为DN模型成模标准。假手术组进行右肾被膜损伤,并注射相应量生理盐水。造模组通过灌胃给药,分为：DN模型组（模型组）、DN+福辛普利组（蒙组1.6 mg/kg·d）、DN+积雪草高剂量组（高剂量组16.8 mg/kg·d）、DN+积雪草中剂量组（中剂量组11.2 mg/kg·d）和DN+积雪草低剂量组（低剂量组5.6 mg/kg·d）（n=10）,连续给药16周,每日上午1次灌胃。利用实时荧光定量PCR和Western blot分别检测肾组织中TGF-β₁、TβR1、TβR2、Smad2/3、p-Smad2/3及Smad7 mRNA和蛋白的表达。结果：与假手术组相比,DN组TGF-β₁、TβR1、TβR2、Smad2/3 mRNA和蛋白表达及Smad2/3蛋白的磷酸化水平显著增加（P<0.05）、Smad7 mRNA和蛋白表达明显减少（P<0.05）,而福辛普利和高剂量积雪草能倒转DN引起的TGF-β₁、TβR1、TβR2、Smad2/3 mRNA和蛋白表达增加（P<0.05）及Smad7 mRNA和蛋白表达降低（P<0.05）。结论：积雪草可能通过调控TGF-β₁/Smad信号通路起到防治DN的作用。     

卵巢癌中TGF-β/Smads信号通路的功能研究

为探讨卵巢癌细胞中TGF-β的信号传导情况及TGF-β／Smads信号通路各组分在卵巢癌发生中的作用,采用MTT和活细胞计数方法研究了TGF-β1对卵巢癌细胞系HO-8910、HO-8910PM及SKOV3的生长抑制作用;并应用RT-PCR、荧光免疫组化等方法研究了TGF-β／Smads传导通路中各组分的表达和定位以及TGF-β1刺激前后Smad7和P-Smad2定位及表达的变化。结果显示,TGF-β1对细胞系SKOV3没有生长抑制作用．而SK-OV3细胞表达了TGF-β／Smads信号通路中的所有已知成分。且3种卵巢癌细胞在TGF-β1刺激后Smad7mRNA瞬时表达增加,Smad7蛋白表达亦增加并由胞核转位到胞浆,P-Smad2由胞浆转位到胞核。结果表明TGF-β／Smads信号传导通路在卵巢癌细胞HO-8910、HO-8910PM和SKOV3中是完整的,SKOV3细胞逃逸TGF-β介导的生长抑制作用可能是由于TGF-β／Smads信号通路下游发生异常。     

BMP2诱导MEFs成骨分化中Notch信号的作用及机制研究

该文研究了Notch信号在骨形态发生蛋白2(bone morphogenetic protein 2,BMP2)诱导小鼠胚胎成纤维细胞(mouse embryonic fibroblasts,MEFs)成骨分化中的作用及机制。利用过表达Notch配体之一DLL1的腺病毒(adenovirus-delta-like 1,Ad-DLL1)、显性负性突变型Notch1受体的腺病毒(adenovirus-dominant-negative mutant of Notch1,Ad-dn Notch1)或γ-分泌酶抑制剂{N-[N-(3,5-difluorophena-cetyl-L-alanyl)]-S-phenylglycine t-butyl ester,DAPT}处理MEFs,细胞化学染色和/或活性测定检测碱性磷酸酶(alkaline phosphatase,ALP)表达、钙盐沉积;q RT-PCR、Western blot、荧光素酶分别检测BMP2信号I、II型受体和成骨基因表达、Smad1/5/8蛋白磷酸化水平及Smad结合元件(Smad-binding element,SBE)转录活性。结果显示,DLL1促进BMP2介导MEFs早晚期成骨分化,并上调ALK2等受体的m RNA水平、Smad1/5/8的磷酸化水平及SBE转录活性;与之相对应,dn Notch1和DAPT抑制上述指标。Notch经典靶基因发状分裂相关增强子1(hairy/enhancer-of-split related with YRPW motif 1,Hey1)可促进BMP2诱导成骨分化,并逆转DAPT对BMP2诱导成骨分化的抑制作用。该研究结果提示,Notch信号促进BMP2诱导MEFs成骨分化,可能是通过激活BMP2/Smads通路实现的,这一过程中Hey1发挥了重要作用。     

DLX1对BMP9诱导的间充质干细胞C3H10T1/2成骨分化的影响

目的:分析和确认转录因子DLX1在骨形态发生蛋白9(bone morphogenetic protein 9,BMP9)诱导的间充质干细胞C3H10T1/2成骨分化中的作用。方法:首先,BMP9腺病毒感染C3H10T1/2细胞,RT-PCR和Western blot检测DLX1表达变化;随后,利用重组腺病毒技术分别过表达DLX1和RNA干扰(RNA Intenference,RNAi)抑制DLX1的表达,并利用碱性磷酸酶(Alkaline Phosphatase,ALP)染色、钙盐沉积实验(茜素红染色),免疫细胞化学检测骨钙素(osteocalcin,OCN)表达和裸鼠皮下异位成骨实验分析DLX1对于BMP9诱导的C3H10T1/2细胞成骨分化的影响。荧光素酶报告基因实验和Western blot分析DLX1对于BMP9诱导的C3H10T1/2细胞Smad1/5/8信号途径的影响。结果:BMP9可以促进C3H10T1/2细胞中DLX1基因和蛋白表达水平;过表达DLX1在体外可进一步促进BMP9诱导的C3H10T1/2细胞的ALP活性、钙盐沉积以及OCN的表达,过表达DLX1亦可促进BMP9诱导的裸鼠皮下异位成骨;反之,RNAi抑制DLX1表达后,由BMP9诱导的C3H10T1/2细胞的ALP活性、钙盐沉积、OCN表达和裸鼠皮下异位成骨均相应受到抑制。过表达DLX1可进一步增强BMP9诱导的C3H10T1/2细胞中Smad/1/5/8的转录调控活性,RNAi降低DLX1表达则可抑制BMP9诱导Smad/1/5/8的转录调控活性。但是,无论过表达DLX1和RNAi降低DLX1表达均不会对BMP9诱导的Smad/1/5/8磷酸化造成影响。结论:DLX1可以调节BMP9诱导的间充质干细胞C3H10T1/2细胞成骨分化,其调节作用可能是通过影响Smad1/5/8信号的转录调控活性而实现的。     

Smad4分子在ERK/MAPK信号转导通路中的作用

为了探讨在人永生化支气管上皮细胞BEP2D细胞中,Smad4分子对 ERK/MAPK通路的作用,我们用RNA干扰的方法分别设计了两对Smad4 siRNA,并使BEP2D细胞中Smad4靶向沉默,用Western印迹分析了细胞内ERK激酶和MEK激酶磷酸化水平的变化.结果发现,当Smad4表达沉默后,ERK激酶磷酸化水平未变,MEK激酶磷酸化水平有所降低;再加TGF-β1诱导后ERK激酶和MEK激酶磷酸化水平均显著降低至基础水平以下.结果表明在BEP2D细胞中,Smad4的缺失抑制TGF-β1对ERK/MAPK通路的活化,故提出TGF β活化ERK/MAPK通路需要Smad4存在的假设.     

电磁辐射对大鼠海马Raf／MEK／ERK信号通路的影响

目的：研究电磁辐射后大鼠海马Raf／MEK／ERK通路相关信号分子的表达变化规律。探讨辐射损伤机制。方法：分别采用X波段高功率微波（X-HPM）、S波段高功率微波（S-HPM）及电磁脉冲（EMP）模拟源辐射大鼠,建立电磁辐射动物模型。通过Western blot检测海马Raf-1、磷酸化Raf-1和磷酸化ERK的表达。结果：三种电磁辐射后6h-14d,Raf-1表达均下调,以7d最为显著,至28d基本恢复,辐射组间未见明显差异。辐射后6h和7d,磷酸化Raf-1和磷酸化ERK表达均上调,6h较为明显,磷酸化ERK的变化以两微波组更为显著。S-HPM辐射后6h～14d,磷酸化Raf-1表达持续上调,磷酸化ERK的变化呈波浪状,以6h和3d为高峰。结论：Raf／MEK／ERK信号通路参与了电磁辐射所致海马损伤;ERK通路过度活化导致神经元凋亡与坏死可能是电磁辐射致认知功能障碍的重要机制。     

Sclerostin inhibition of Wnt-3a-induced C3H10T1/2 cell differentiation is indirect and mediated by bone morphogenetic proteins

High bone mass diseases are caused both by activating mutations in the Wnt pathway and by loss of SOST, a bone morphogenetic protein (BMP) antagonist, leading to the activation of BMP signaling. Given the phenotypic similarity between mutations that activate these signaling pathways, it seems likely that BMPs and Wnts operate in parallel or represent components of the same pathway, modulating osteoblast differentiation. In this study, we show that in C3H10T1/2 cells, Wnt-3A and BMP-6 proteins were inducers of osteoblast differentiation, as measured by alkaline phosphatase (ALP) induction. Surprisingly, sclerostin, noggin, and human BMP receptor 1A (BMPR1A)-FC fusion proteins blocked Wnt-3A-induced ALP as well as BMP-6-induced ALP activity. Dkk-1, a Wnt inhibitor, blocked Wnt-induced ALP activity but not BMP-induced ALP activity. Early Wnt-3A signaling as measured by beta-catenin accumulation was not affected by the BMP antagonists but was blocked by Dkk-1. Wnt-3A induced the appearance of BMP-4 mRNA 12 h prior to that of ALP in C3H10T1/2 cells. We propose that sclerostin and other BMP antagonists do not block Wnt signaling directly. Sclerostin blocks Wnt-induced ALP activity by blocking the activity of BMP proteins produced by Wnt treatment. The expression of BMP proteins in this autocrine loop is essential for Wnt-3A-induced osteoblast differentiation.     

The frequency window effect of sinusoidal electromagnetic fields in promoting osteogenic differentiation and bone formation involves extension of osteoblastic primary cilia and activation of protein kinase A

Electromagnetic fields (EMFs) have emerged as a versatile means for osteoporosis treatment and prevention. However, its optimal application parameters are still elusive. Here, we optimized the frequency parameter first by cell culture screening and then by animal experiment validation. Osteoblasts isolated from newborn rats (ROBs) were exposed 90 min/day to 1.8 mT SEMFs at different frequencies (ranging from 10 to 100 Hz, interval of 10 Hz). SEMFs of 1.8 mT inhibited ROB proliferation at 30, 40, 50, 60 Hz, but increased proliferation at 10, 70, 80 Hz. SEMFs of 10, 50, and 70 Hz promoted ROB osteogenic differentiation and mineralization as shown by alkaline phosphatase (ALP) activity, calcium content, and osteogenesis-related molecule expression analyses, with 50 Hz showing greater effects than 10 and 70 Hz. Treatment of young rats with 1.8 mT SEMFs at 10, 50, or 100 Hz for 2 months significantly increased whole-body bone mineral density (BMD) and femur microarchitecture, with the 50 Hz group showing the greatest effect. Furthermore, 1.8 mT SEMFs extended primary cilia lengths of ROBs and increased protein kinase A (PKA) activation also in a frequency-dependent manner, again with 50 Hz SEMFs showing the greatest effect. Pretreatment of ROBs with the PKA inhibitor KT5720 abolished the effects of SEMFs to increase primary cilia length and promote osteogenic differentiation/mineralization. These results indicate that 1.8 mT SEMFs have a frequency window effect in promoting osteogenic differentiation/mineralization in ROBs and bone formation in growing rats, which involve osteoblast primary cilia length extension and PKA activation.     

Involvement of ERK in BMP-2 induced osteoblastic differentiation of mesenchymal progenitor cell line C3H10T1/2

The signaling mechanisms responsible for bone morphogenetic protein (BMP) induced osteoblast differentiation remains poorly understood. Previous research demonstrated that Smad proteins are the substrates and the mediators of BMP bound serine/threonine receptor kinase. In the present study, we examined the possible involvement of extracellular signal-regulated kinase (Erk) in the BMP induced osteoblast differentiation of mesenchymal progenitor cell C3H10T1/2. Our results indicate that BMP-2 inducement increased MAP kinase activity in mesenchymal progenitor cell line C3H10T1/2. Contrary to previous reports, this increased MAP kinase activity showed a latent but sustained pattern. Elevation of Erk1 and Erk2 protein levels was observed simultaneously. RT-PCR results demonstrated that the elevation of Erk protein level in BMP-2 induced cells was from the upregulation of mRNA expression. Furthermore, upregulated Erk proteins present enhanced phosphorylation. By using a dominant-negative Erk2 cell line, we demonstrated that nonfunctional Erk2 partially eliminated BMP-2 induced cell proliferation and ALP activity in the C3H10T1/2 cell. These results indicate that Erk is involved in BMP-2 induced osteoblast differentiation. The results also demonstrate that a latent and sustained signaling pattern exists in BMP induced signaling cascade.     

在CHO细胞中表达具有高效成骨活性的BMP-2/7异源二聚体

PCR扩增BMP-2与BMP-7的编码基因, 利用重叠PCR以柔性肽(Gly4Ser)5编码序列将二者串连并克隆到质粒pIRESneo3上, 转染CHO-K1细胞得到混合稳定克隆。ELISA检测培养液中BMP-2/7异源二聚体蛋白的表达水平为230.75±13.34 ng/mL, 以此为条件培养基处理成骨细胞株MC3T3, 对照组为分别含有CHO-K1细胞及大肠杆菌表达的BMP-2同源二聚体以及PBS的条件培养基。结果发现碱性磷酸酶染色与茜素红染色差异明显, 定量RT-PCR显示分子指标OC、ALP、Runx2与Osx的转录水平明显增高(P<0.05), Luciferase报告基因检测BMP/Smad通路活性较对照组升高明显(P<0.05)。首次设计构建了BMP-2/7异源二聚体蛋白, 其成骨活性显著高于BMP-2同源二聚体。     

Sonic hedgehog is involved in osteoblast differentiation by cooperating with BMP-2

The roles of Sonic hedgehog (Shh) and Bone morphogenetic protein-2 (Bmp-2) in osteoblast differentiation were investigated using in vitro cell systems. Recombinant amino-terminal portion of SHH (rSHH-N) dose dependently stimulated ALP activity in C3H10T1/2 and MC3T3-E1 cells. rSHH-N induced expression of Osteocalcin mRNA in C3H10T1/2 cells. A soluble form of the receptor for type IA BMP receptor antagonized rSHH-N-induced ALP activity in C3H10T1/2 and MC3T3-E1 cells, indicating that BMPs are involved in SHH-induced osteoblast differentiation. Simultaneous supplement with rSHH-N and BMP-2 synergistically induced ALP activity and expression of Osteocalcin mRNA in C3H10T1/2 cells. Pretreatment with rSHH-N for 6 h enhanced the response to BMP-2 by increasing ALP activity in C3H10T1/2 and MC3T3-E1 cells. Stimulatory effects of rSHH-N and additive effects with rSHH-N and BMP-2 on ALP activity were also observed in mouse primary osteoblastic cells. Transplantation of BMP-2 (1 microg) into muscle of mice induced formation of ectopic bone, whereas transplantation of r-SHH-N (1-5 microg) failed to generate it. These results indicate that Shh plays important roles in osteoblast differentiation by cooperating with BMP.