TGF-β1/Smads通路在哮喘气道重塑中的表达及意义

为了探讨TGF-β1/Smads通路在哮喘气道重塑中的表达及意义,本研究选取清洁级雄性SD大鼠40只,将大鼠随机分为4组,正常对照组,哮喘2周组,哮喘4周组和哮喘8周组,每组10只。其中哮喘2周组、哮喘4周组和哮喘8组大鼠制作哮喘模型,分别在激发哮喘2周、4周和8周后处死,采用HE染色观察各组气道重塑,同时测量气道形态学参数,采用免疫组化染色检测TGF-β1、Smad2和Smad7蛋白表达。结果表明与哮喘2周组和哮喘4周组相比,哮喘8周组气道支气管壁周围有大量细胞浸润,气道平滑肌增厚,管腔狭窄;哮喘各组总管壁面积、内壁面积和平滑肌面积均明显高于正常对照组(p<0.05),其中哮喘8周组总管壁面积、内壁面积和平滑肌面积分别为(42.26±1.61)μm^2、(34.40±1.22)μm^2和(8.22±1.12)μm2,明显高于哮喘2周组和哮喘4周组(p<0.05);哮喘8周组TGF-β1和Smad2蛋白表达分别为1.562±0.122和1.613±0.121,明显高于哮喘2周组和哮喘4周组(p<0.05),而Smad7蛋白表达为0.251±0.081,明显低于哮喘2周组和哮喘4周组(p<0.05)。本研究初步推测TGF-β1/Smads通路在哮喘气道重塑中有重要作用,其中TGF-β1和Smads可能有促进气道重塑的作用,而Smad7可能有抑制气道重塑作用,值得进一步研究。     

消痰化瘀利窍中药组方对改善慢性间歇性低氧大鼠心肌纤维化的作用及其机制*

目的: 探讨转化生长因子-β(TGF-β)信号通路在消痰化瘀利窍中药组方(XC)对改善慢性间歇性低氧(CIH)大鼠心肌纤维化中的作用。方法: 40只SD 大鼠,随机分为常氧组(Normoxia)、常氧+中药干预组(TCMC)、慢性间歇性低氧模型组(CIH)、CIH +中药干预组(TCMC+CIH),每组10只。通过向舱内充入氮气,使舱内氧体积分数在90 s内从21%下降到9%,随后90 s再充氧气使舱内氧体积分数逐渐上升到21%为一循环建立CIH模型。CIH 与 TCMC+CIH 组大鼠置于CIH装置, Normoxia 和TCMC组大鼠置于正常氧舱。此外TCMC+CIH 与 TCMC 组大鼠于每日XC生药(24 g/kg)煎制灌胃,而 CIH 组与 Normoxia 组大鼠给予等体积生理盐水。造模结束后,天狼星红染色观察大鼠心肌间质内胶原沉积情况;Western blot 法检测大鼠心肌间质中 CollagenⅠ、Collagen Ⅲ、Fibronectin、TGF-β、p-Smad2、p-Smad3的蛋白表达水平。采用Q-PCR法检测基质金属蛋白酶2(MMP-2)和基质金属蛋白酶抑制因子 2 (TIMP-2) 的 mRNA表达水平。结果: 与正常组比较,CIH大鼠心肌组织出现明显胶原的沉积,CollagenⅠ、Collagen Ⅲ和Fibronectin蛋白表达明显增多(P均＜0.01),TGF-β、p-Smad2、p-Smad3蛋白表达水平也明显增高(P均＜0.01);CIH大鼠心肌组织TIMP-2 mRNA上调导致MMP-2 mRNA明显减少(P均＜0.01)。给予XC干预后,CIH大鼠心肌组织胶原沉积明显减少,CollagenⅠ、Collagen Ⅲ和Fibronectin蛋白表达明显降低(P＜0.05,P＜ 0.01,P＜0.05);CIH大鼠心肌组织中TGF-β、p-Smad2、p-Smad3蛋白表达水平明显降低(P＜0.01,P＜0.05,P＜ 0.01)。心肌组织中TIMP-2明显基因减少致MMP-2增多(P均＜0.05)。 结论: 消痰化瘀利窍中药组方可抑制CIH大鼠心肌纤维化的形成,进而改善CIH大鼠心肌功能。其机制与该中药组方下调TGF-β/ Smad2/3信号通路及下调TIMP-2mRNA有关。     

肝纤维化中肌成纤维细胞的作用及TGF-β/Smads通路的研究进展

肌成纤维细胞(myofibrobasts)是一种多起源的异质性细胞,在肝纤维化过程和愈伤反应(wound-healing response)中扮演重要角色.TGF-β /Smads通路作为体内重要的信号调节通路,对肝纤维化过程具有关键的调节作用,现已成为国内外近年来的研究热点.对肌成纤维细胞的来源以及影响其分化的因素,TGF-β /Smads通路与调控的研究进展,以及肝纤维化的治疗进行了较为全面的综述,并就肝纤维化今后研究的主要发展方向进行了展望.     

Rapamycin induces the TGFβ1/Smad signaling cascade in renal mesangial cells upstream of mTOR

The mTOR kinase inhibitor rapamycin (sirolimus) is a drug with potent immunosuppressive and antiproliferative properties. We found that rapamycin induces the TGFβ/Smad signaling cascade in rat mesangial cells (MC) as depicted by the nuclear translocation of phospho-Smads 2, -3 and Smad-4, respectively. Concomitantly, rapamycin increases the nuclear DNA binding of receptor (R)- and co-Smad proteins to a cognate Smad-binding element (SBE) which in turn causes an increase in profibrotic gene expression as exemplified by the connective tissue growth factor (CTGF) and plasminogen activator inhibitor 1 (PAI-1). Using small interfering (si)RNA we demonstrate that Smad 2/3 activation by rapamycin depends on its endogenous receptor FK binding protein 12 (FKBP12). Mechanistically, Smad induction by rapamycin is initiated by an increase in active TGFβ₁ as shown by ELISA and by the inhibitory effects of a neutralizing TGFβ antibody. Using an activin receptor-like kinase (ALK)-5 inhibitor and by siRNA against the TGFβ type II receptor (TGFβ-RII) we furthermore demonstrate a functional involvement of both types of TGFβ receptors. However, rapamycin did not compete with TGFβ for TGFβ-receptor binding as found in radioligand-binding assay. Besides SB203580, a specific inhibitor of the p38 MAPK, the reactive oxygen species (ROS) scavenger N-acetyl-cysteine (NAC) and a cell-permeable superoxide dismutase (SOD) mimetic strongly abrogated the stimulatory effects of rapamycin on Smad 2 and 3 phosphorylation. Furthermore, the rapid increase in dichlorofluorescein (DCF) formation implies that rapamycin mainly acts through ROS. In conclusion, activation of the profibrotic TGFβ/Smad signaling cascade accompanies the immunosuppressive and antiproliferative actions of rapamycin.     

BMP Signaling and Podocyte Markers Are Decreased in Human Diabetic Nephropathy in Association With CTGF Overexpression

Diabetic nephropathy is characterized by decreased expression of bone morphogenetic protein-7 (BMP-7) and decreased podocyte number and differentiation. Extracellular antagonists such as connective tissue growth factor (CTGF; CCN-2) and sclerostin domain-containing-1 (SOSTDC1; USAG-1) are important determinants of BMP signaling activity in glomeruli. We studied BMP signaling activity in glomeruli from diabetic patients and non-diabetic individuals and from control and diabetic CTGF^+/+ and CTGF^+/− mice. BMP signaling activity was visualized by phosphorylated Smad1, -5, and -8 (pSmad1/5/8) immunostaining, and related to expression of CTGF, SOSTDC1, and the podocyte differentiation markers WT1, synaptopodin, and nephrin. In control and diabetic glomeruli, pSmad1/5/8 was mainly localized in podocytes, but both number of positive cells and staining intensity were decreased in diabetes. Nephrin and synaptopodin were decreased in diabetic glomeruli. Decrease of pSmad1/5/8 was only partially explained by decrease in podocyte number. SOSTDC1 and CTGF were expressed exclusively in podocytes. In diabetic glomeruli, SOSTDC1 decreased in parallel with podocyte number, whereas CTGF was strongly increased. In diabetic CTGF^+/− mice, pSmad1/5/8 was preserved, compared with diabetic CTGF^+/+ mice. In conclusion, in human diabetic nephropathy, BMP signaling activity is diminished, together with reduction of podocyte markers. This might relate to concomitant overexpression of CTGF but not SOSTDC1. (J Histochem Cytochem 57:623–631, 2009)     

Macromolecular Design,Nucleic Acid Junctions,and Crystal Formation

Abstract

The simplest form of macromolecular design involves the ligation of nucleic acids. Recent results on the concatenation of nucleic acid junctions show that these molecules can act as fairly rigid macromolecular valence clusters on the nanometer scale. These clusters can be joined to form closed stick figures in which each edge is double helical DNA or RNA and each vertex is a nucleic acid junction. The geometrical criteria for forming discrete-closed and periodic structures from these components are established. The helicity of each edge limits the possible structures that can be formed.

The formation of a periodic array from nucleic acid junction building blocks is compared with the crystallization of molecular systems. This comparison leads to a new interpretation of the nature of order in the solid state for molecular crystals. The suggestion is made that the structure of a solid molecular system described by the fewest unique orthogonal (Fourier) components is the one which will be entropically favored, since it contains the least information. This is the crystalline state, with a small number of molecules per asymmetric unit. The free energy from the proposed entropie driving force responsible for this behavior is available, in principle, to correct small deviations from ideality in forming covalent crystals from nucleic acid junction components, as well as in non-bonded molecular systems. Nucleic acid junction periodic arrays provide an appropriate vehicle with which to test this interpretation.     

c-Ski/SnoN与肾间质纤维化

c-Ski／SnoN是由原癌基因c-ski／sno编码的核蛋白,属于Ski家族成员。近年来有研究表明c-Ski／SnoN是TGF-β1／Smad信号通路的重要负性调控因子,通过与Smad蛋白相互作用来抑制TGF-β1靶基因的活化。本文就c-Ski／SnoN对TGF-β1／Smad信号通路的调节作用,以及在肾间质纤维化的发生发展中的作用及机制作一综述。     

Growth inhibition induced by transforming growth factor-β1 in human oral squamous cell carcinoma

Oral squamous cell carcinoma (OSCC) is a world-wide health problem and its incidence accounts for 1.9–3.5% of all malignant tumors. Transforming growth factor beta/Smads (TGF-β/Smads) signaling pathway plays an important role in oncogenesis, but its function and molecular mechanisms in OSCC remain unclear. Expression of transforming growth factor-β receptor type II (TβRII) and Smad4 was studied by immunohistochemistry in 108 OSCC patients and 10 normal controls. Function and molecular mechanisms of TGF-β/Smads signaling pathway was then investigated in two human tongue squamous carcinoma cell lines with high and low metastasis (Tb and Tca8113) by RT-PCR, Western Blot, immunofluorescence, cell growth curve and flow cytometry (FCM), respectively. TβRII and Smad4 were significantly down-regulated in tumor tissues (with or without lymph node metastasis) compared to normal oral epithelium tissues (P < 0.05). TGF-β1 induced arrest of the cell cycle rather than cell death in Tca8113 and Tb cells, and this influence was mediated by the increasing the expression and changing the location of its downstream components of TGF-β1/Smads signaling pathway. TGF-β1 rapidly increased the expression of p15 and p21 in both Tca8113 and Tb cells. TGF-β1 did not increase p27 expression in Tca8113 cells, but p27 expression was increased in Tb cells. These indicated that TGF-β1 induced G₁ arrest of cell cycle through a different regulating pathway in Tb cells compared with Tca8113 cells. Thus, we conclude that TGF-β/Smads signaling pathway play a important role on cell growth and metastasis potential in OSCC. Xiumei Wang, Wenjing Sun, and Jing Bai contributed equally to this paper.