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51.
趋化性是中性粒细胞参与机体对抗病原体的一个基本的细胞反应。中性粒细胞的趋化过程中涉及一系列信号通路来调节其运动性和极性。信号分子磷酸酰肌醇三磷酸及其参与的信号通路在中性粒细胞趋化过程中起着重要的作用,其自身的生成也受到一系列复杂因素的调节。 相似文献
52.
Ueno Y Shinki T Nagai Y Murayama H Fujii K Suda T 《Journal of cellular biochemistry》2003,90(2):267-277
It is known that pharmacological or toxic doses of vitamin D induce bone resorption both in vivo and in vitro, whereas physiological doses of the vitamin have a protective effect on bone in vivo. To investigate the discrepancies of the dose-dependent effect of vitamin D on bone resorption, we examined the in vivo effect of 1,25-dihydroxyvitamin D(3) [1,25(OH)(2)D(3)] on the expression of the receptor activator of nuclear factor-kappaB (NF-kappaB) ligand (RANKL) and osteoprotegerin (OPG) mRNAs in bone of thyroparathyroidectomized (TPTX) rats infused with or without parathyroid hormone (PTH). Continuous infusion of 50 ng/h of PTH greatly increased the expression of RANKL mRNA in bone of TPTX rats. Expression of OPG mRNA was not altered by PTH infusion. When graded doses of 1,25(OH)(2)D(3) was daily administered orally for 14 days to normocalcemic TPTX rats constantly infused with PTH, 0.01 and 0.1 microg/kg of 1,25(OH)(2)D(3) inhibited the PTH-induced RANKL mRNA expression, but 0.5 microg/kg of the vitamin did not inhibit it. Regulator of G protein signaling-2 (RGS-2) gene expression was suppressed by 1,25(OH)(2)D(3) dose-dependently, but PTH/PTHrP receptor mRNA expression was not altered. Bone morphometric analyses revealed that 1,25(OH)(2)D(3) suppressed PTH-induced osteoclast number in vivo. These results suggest that pharmacological or toxic doses of 1,25(OH)(2)D(3) stimulate bone resorption by inducing RANKL, but a certain range of physiological doses of the vitamin inhibit PTH-induced bone resorption, the latter mechanism appeared to be mediated, at least in part, by the suppression of the PTH/PTHrP receptor-mediated signaling. 相似文献
53.
Evidence for Multidrug Resistance-1 P-Glycoprotein-dependent Regulation of Cellular ATP Permeability 总被引:8,自引:0,他引:8
R. M. Roman N. Lomri G. Braunstein A. P. Feranchak L. A. Simeoni A. K. Davison E. Mechetner E. M. Schwiebert J. G. Fitz 《The Journal of membrane biology》2001,183(3):165-173
The mechanisms responsible for regulating epithelial ATP permeability and purinergic signaling are not well defined. Based
on the observations that members of the ATP-binding cassette (ABC)1 family of proteins may contribute to ATP release, the purpose of these studies was to assess whether multidrug resistance-1
(MDR1) proteins are involved in ATP release from HTC hepatoma cells. Using a bioluminescence assay to detect extracellular
ATP, increases in cell volume increased ATP release ∼3-fold. The MDR1 inhibitors cyclosporine A (10 μm) and verapramil (10 μm) inhibited ATP release by 69% and 62%, respectively (p < 0.001). Similarly, in whole-cell patch-clamp recordings, intracellular dialysis with C219 antibodies to inhibit MDR1 decreased
ATP-dependent volume-sensitive Cl− current density from −33.1 ± 12.5 pA/pF to −2.0 ± 0.3 pA/pF (−80 mV, p≤ 0.02). In contrast, overexpression of MDR1 in NIH 3T3 cells increased ATP release rates. Inhibition of ATP release by Gd3+ had no effect on transport of the MDR1 substrate rhodamine-123; and alteration of MDR1-substrate selectivity by mutation
of G185 to V185 had no effect on ATP release. Since the effects of P-glycoproteins on ATP release can be dissociated from
P-glycoprotein substrate transport, MDR1 is not likely to function as an ATP channel, but instead serves as a potent regulator
of other cellular ATP transport pathways.
Received: 20 November 2000/Revised: 25 May 2001 相似文献
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蛋白O-连接岩藻糖基转移酶1 (Pofut1)基因缺失可导致Notch分子无法与配体结合并启动信号传递. 为研究Pofut1基因对哺乳动物胚胎干细胞(ESC)向神经分化的影响,利用Pofut1基因敲除的胚胎干细胞与野生型胚胎干细胞,经体外培养诱导拟胚体(EB)分化为神经细胞,计数分化为神经细胞的比例,采用细胞免疫组化染色和real-time PCR等方法,分析神经细胞特异性标志分子的表达. 结果显示,Pofut1基因缺失后,对EBC生长没有明显影响,分化过程中形成的拟胚体数量明显增多,分化的神经样细胞以及神经标志物分子的表达也明显多于对照组;Notch信号缺失对小鼠胚胎干细胞生长无明显影响,但可以促进ES细胞向神经细胞分化. 相似文献
57.
Jinshan Yang Xiang Luo Xiaojiang Huang Qin Ning Minjie Xie Wei Wang 《Journal of neurochemistry》2014,131(3):383-394
Increasing evidence indicates that the Eph receptors and their ephrin ligands are involved in the regulation of interactions between neurons and astrocytes. Moreover, astrocytic ephrin‐A3 reverse signaling mediated by EphA4 receptors is necessary for controlling the abundance of glial glutamate transporters. However, the role of ephrin‐A3 reverse signaling in astrocytic function and neuronal death under ischemic conditions remains unclear. In the present study, we found that the EphA4 receptor and its ephrin‐A3 ligand, which were distributed in neurons and astrocytes, respectively, in the hippocampus showed a coincident up‐regulation of protein expression in the early stage of ischemia. Application of clustered EphA4 decreased the expressions of astrocytic glutamate transporters together with astrocytic glutamate uptake capacity through activating ephrin‐A3 reverse signaling. In consequence, neuronal loss was aggravated in the CA1 region of the hippocampus accompanied by impaired hippocampus‐dependent spatial memory when clustered EphA4 treatment was administered prior to transient global ischemia. These findings indicate that EphA4‐mediated ephrin‐A3 reverse signaling is a crucial mechanism for astrocytes to control glial glutamate transporters and prevent glutamate excitotoxicity under pathological conditions.
58.
Integrins: Structure and Signaling 总被引:7,自引:0,他引:7
Integrins are cell surface transmembrane glycoproteins that function as adhesion receptors in cell-extracellular matrix interactions and link the matrix proteins to the cytoskeleton. The family of human integrins comprises 24 members, each of which is a heterodimer consisting of 1 of 18 alpha- and 1 of 8 beta-subunits. Integrins play an important role in the cytoskeleton organization and in transduction of intracellular signals, regulating various processes such as proliferation, differentiation, apoptosis, and cell migration. This review summarizes current views on the structure of integrins, integrin associated proteins, and biochemical mechanisms underlying their signaling functions. 相似文献
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胰腺纤维化是慢性胰腺炎(chronic pancreatitis,CP)和胰腺癌主要的病理学特征,活化的胰腺星状细胞(pancreatic stellate cells,PSCs)是公认的致胰腺纤维化的主要效应细胞。PSCs的活化涉及到几个重要的信号转导通路:有丝分裂原活化蛋白激酶(mitogen-activated protein kinases,MAPK)、磷酯酰肌醇3激酶(phosphatidylinositol 3-kinase,PI3K)=、Smad信号转导蛋白、过氧化物酶体增生物激活受体-γ(PPAR-γ)、Rho-ROCK等细胞内信号途径。探讨这些信号通路在胰腺纤维化中所起的作用对慢性胰腺炎、胰腺癌及糖尿病的治疗有重要意义。现就与PSCs激活有关的信号通路的研究结合最新进展作一综述。 相似文献