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本文引用的文献

1
Novel peptide for attenuation of hypoxia-induced pulmonary hypertension via modulation of nitric oxide release and phosphodiesterase -5 activity.新型肽通过调节一氧化氮释放和磷酸二酯酶-5 活性来减轻缺氧性肺动脉高压。
Peptides. 2012 May;35(1):78-85. doi: 10.1016/j.peptides.2012.03.009. Epub 2012 Mar 20.
2
Enhanced phosphorylation of caveolar PKC-α limits peptide internalization in lung endothelial cells.增强的小窝 PKC-α磷酸化限制了肺内皮细胞中肽的内化。
Mol Cell Biochem. 2012 Jan;360(1-2):309-20. doi: 10.1007/s11010-011-1070-4. Epub 2011 Sep 24.
3
Peptide-stimulation enhances compartmentalization and the catalytic activity of lung endothelial NOS.肽刺激增强了肺内皮型一氧化氮合酶的区室化和催化活性。
Cell Physiol Biochem. 2009;24(5-6):471-82. doi: 10.1159/000257487. Epub 2009 Nov 4.
4
Vascular caveolin deficiency supports the angiogenic effects of nitrite, a major end product of nitric oxide metabolism in tumors.血管小窝蛋白缺乏增强了亚硝酸盐的血管生成作用,亚硝酸盐是肿瘤中一氧化氮代谢的主要终产物。
Mol Cancer Res. 2009 Jul;7(7):1056-63. doi: 10.1158/1541-7786.MCR-08-0388. Epub 2009 Jun 30.
5
Protein kinase C alpha promotes angiogenic activity of human endothelial cells via induction of vascular endothelial growth factor.蛋白激酶Cα通过诱导血管内皮生长因子促进人内皮细胞的血管生成活性。
Cardiovasc Res. 2008 May 1;78(2):349-55. doi: 10.1093/cvr/cvm085. Epub 2007 Dec 4.
6
Caveolin-1-deficient mice have increased tumor microvascular permeability, angiogenesis, and growth.小窝蛋白-1缺陷型小鼠的肿瘤微血管通透性、血管生成及生长增加。
Cancer Res. 2007 Mar 15;67(6):2849-56. doi: 10.1158/0008-5472.CAN-06-4082.
7
Caveolin-1 is important for nitric oxide-mediated angiogenesis in fibrin gels with human umbilical vein endothelial cells.在含人脐静脉内皮细胞的纤维蛋白凝胶中,小窝蛋白-1对一氧化氮介导的血管生成很重要。
Acta Pharmacol Sin. 2006 Dec;27(12):1567-74. doi: 10.1111/j.1745-7254.2006.00462.x.
8
Calpain-2 regulation of VEGF-mediated angiogenesis.钙蛋白酶-2对血管内皮生长因子介导的血管生成的调控
FASEB J. 2006 Jul;20(9):1443-51. doi: 10.1096/fj.05-5354com.
9
Plgf-/-eNos-/- mice show defective angiogenesis associated with increased oxidative stress in response to tissue ischemia.Plgf基因敲除/eNos基因敲除小鼠在组织缺血时表现出与氧化应激增加相关的血管生成缺陷。
FASEB J. 2006 May;20(7):970-2. doi: 10.1096/fj.05-4481fje. Epub 2006 Apr 11.
10
Nitric oxide regulates angiogenesis through a functional switch involving thrombospondin-1.一氧化氮通过涉及血小板反应蛋白-1的功能开关调节血管生成。
Proc Natl Acad Sci U S A. 2005 Sep 13;102(37):13147-52. doi: 10.1073/pnas.0502979102. Epub 2005 Sep 2.

肽刺激的血管生成:肺内皮小窝信号传导和一氧化氮的作用。

Peptide-stimulated angiogenesis: Role of lung endothelial caveolar signaling and nitric oxide.

作者信息

Hutchinson Tarun E, Patel Jawaharlal M

机构信息

Department of Medicine, University of Florida College of Medicine, Gainesville, FL 32608-1197, USA.

Department of Medicine, University of Florida College of Medicine, Gainesville, FL 32608-1197, USA; Research Service, North Florida/South Georgia Veterans Health System, Gainesville, FL 32608-1197, USA.

出版信息

Nitric Oxide. 2015 Dec 1;51:43-51. doi: 10.1016/j.niox.2015.10.002. Epub 2015 Nov 8.

DOI:10.1016/j.niox.2015.10.002
PMID:26537637
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4658243/
Abstract

Endothelial nitric oxide (NO) synthase (eNOS)-derived NO plays a critical role in the modulation of angiogenesis in the pulmonary vasculature. We recently reported that an eleven amino acid (SSWRRKRKESS) cell penetrating synthetic peptide (P1) activates caveolar signaling, caveloae/eNOS dissociation, and enhance NO production in lung endothelial cells (EC). This study examines whether P1 promote angiogenesis via modulation of caveolar signaling and the level of NO generation in EC and pulmonary artery (PA) segments. P1-enhanced tube formation and cell sprouting were abolished by caveolae disruptor Filipin (FIL) in EC and PA, respectively. P1 enhanced eNOS activity and angiogenesis were attenuated by inhibition of eNOS as well as PLCγ-1, PKC-α but not PI3K-mediated caveolar signaling in intact EC and/or PA. P1 failed to enhance the catalytic activity of eNOS and angiogenesis in caveolae disrupted EC by FIL. Lower (0.01 mM) concentration of NOC-18 enhanced angiogenesis without inhibition of eNOS activity whereas higher concentration of NOC-18 (1.0 mM) inhibited eNOS activity and angiogenesis in EC. Inhibition of eNOS by l-NAME in the presence of P1 resulted in near total loss of tube formation in EC. Although P1 enhanced angiogenesis mimicked only by lower concentrations of NO generated by NOC-18, this response is independent of caveolar signaling/integrity. These results suggest that P1-enhanced angiogenesis is regulated by dynamic process involving caveolar signaling-mediated increased eNOS/NO activity or by the direct exposure to NOC-18 generating only physiologic range of NO independent of caveolae in lung EC and PA segments.

摘要

内皮型一氧化氮(NO)合酶(eNOS)衍生的NO在调节肺血管系统的血管生成中起关键作用。我们最近报道,一种由11个氨基酸组成(SSWRRKRKESS)的细胞穿透合成肽(P1)可激活小窝信号、小窝/eNOS解离,并增强肺内皮细胞(EC)中的NO生成。本研究探讨P1是否通过调节小窝信号以及EC和肺动脉(PA)段中NO的生成水平来促进血管生成。在EC和PA中,小窝破坏剂制霉菌素(FIL)分别消除了P1增强的管形成和细胞发芽。在完整的EC和/或PA中,抑制eNOS以及PLCγ-1、PKC-α而非PI3K介导的小窝信号,可减弱P1增强的eNOS活性和血管生成。在被FIL破坏小窝的EC中,P1未能增强eNOS的催化活性和血管生成。较低浓度(0.01 mM)的NOC-18可增强血管生成而不抑制eNOS活性,而较高浓度的NOC-18(1.0 mM)则抑制EC中的eNOS活性和血管生成。在P1存在的情况下,l-NAME抑制eNOS导致EC中管形成几乎完全丧失。尽管P1增强的血管生成仅由NOC-18产生的较低浓度NO模拟,但这种反应与小窝信号/完整性无关。这些结果表明,P1增强的血管生成受动态过程调节,该过程涉及小窝信号介导的eNOS/NO活性增加,或直接暴露于仅产生生理范围NO的NOC-18,且不依赖于肺EC和PA段中的小窝。