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Circulating Progenitor Cell (circulating + progenitor_cell)

Distribution by Scientific Domains
Medical Sciences50%
Life Sciences50%

Selected Abstracts

The role of the fibrocyte in intimal hyperplasia

JOURNAL OF THROMBOSIS AND HAEMOSTASIS, Issue 5 2006
R. L. VARCOE
Summary.,Background: Experimental animal studies have shown that the intimal hyperplasia (IH) responsible for occlusion after successful revascularization procedures may be partially caused by a bone marrow-derived cell that migrates to the site of vascular injury. Concurrent studies have demonstrated an extensive role in wound healing for the circulating fibrocyte. Objectives: We aimed to trace the path of the circulating cell that contributes to IH and determine if it is the fibrocyte. Methods and results: We established an in vitro model whereby purified monocytes from six healthy human volunteers were cultured into fibrocytes. These cells were morphometrically similar to the vascular smooth muscle cell (VSMC) found in IH and expressed alpha-smooth muscle actin (, -SMA) as well as CD34, CD45 and Collagen I (Col I), markers indicative of the fibrocyte. In an in vivo ovine carotid artery synthetic patch graft model, carboxyfluorescein diacetate, succinimidyl ester (CFSE) labeled circulating leukocytes were observed throughout the graft as well as in the neointima in 18 sheep. These cells were shown to produce collagen and , -SMA at 1, 2 and 4 weeks. These cells then underwent immunohistochemical analysis and were found to express a set of markers unique to the fibrocyte (CD34, CD45, Vimentin and , -SMA) and also to double stain for CD34 and , -SMA. Conclusions: IH in an ovine carotid artery patch graft model is partially derived from a hematopoietic circulating progenitor cell that acquires mesenchymal features as it matures at the site of injury. [source]

Reduced endothelial progenitor cells and brachial artery flow-mediated dilation as evidence of endothelial dysfunction in ocular hypertension and primary open-angle glaucoma

ACTA OPHTHALMOLOGICA, Issue 1 2010
Gian Paolo Fadini
Abstract. Purpose:, This study aimed to assess vascular endothelial function in patients with ocular hypertension (OHT) or primary open-angle glaucoma (POAG) by measuring: (a) endothelium-dependent flow-mediated vasodilation (FMD) of the brachial artery, and (b) circulating endothelial progenitor cells, which are believed to support the integrity of the vascular endothelium. Methods:, We enrolled 25 patients with OHT, 23 with POAG and 26 control subjects, all of whom were aged < 65 years and had no medical history of cardiovascular disease or cardiovascular risk factors. All subjects underwent a complete ophthalmological examination, biochemistry study, assessment of cardiovascular parameters, brachial artery ultrasound assessment of endothelium-dependent FMD, generic circulating progenitor cell (CPC) and circulating endothelial progenitor cell (EPC) count with the use of flow cytometry. Results:, Flow-mediated vasodilation values differed significantly in OHT (4.5 ± 1.1%; p = 0.021) and POAG (4.0 ± 0.9%; p = 0.003) patients compared with controls (7.7 ± 0.8%). The CD34+ KDR+ EPC count was markedly lower in OHT (28.0 ± 5.0; p < 0.001) and POAG (24.3 ± 3.4; p < 0.001) patients compared with controls (73.1 ± 8.1). Neither FMD not EPCs differed significantly between OHT and POAG patients. No significant differences in CPC count or cardiovascular parameters were found among OHT or POAG patients and controls. The levels of CD34+ KDR+ EPCs were directly correlated (p = 0.043) with FMD, and inversely correlated (p = 0.032) with baseline intraocular pressure in OHT and POAG patients. Conclusions:, Both OHT and POAG patients without cardiovascular risk factors have previously unreported severely reduced circulating EPCs and reduced FMD, both of which are indicators of endothelial dysfunction and increased risk of cardiovascular events. [source]

The origin of fibroblasts and mechanism of cardiac fibrosis

JOURNAL OF CELLULAR PHYSIOLOGY, Issue 3 2010
Guido Krenning
Fibroblasts are at the heart of cardiac function and are the principal determinants of cardiac fibrosis. Nevertheless, cardiac fibroblasts remain poorly characterized in molecular terms. Evidence is evolving that the cardiac fibroblast is a highly heterogenic cell population, and that such heterogeneity is caused by the distinct origins of fibroblasts in the heart. Cardiac fibroblasts can derive either from resident fibroblasts, from endothelial cells via an endothelial,mesenchynmal transition or from bone marrow-derived circulating progenitor cells, monocytes and fibrocytes. Here, we review the function and origin of fibroblasts in cardiac fibrosis.NB. The information given is correct. J. Cell. Physiol. 225: 631,637, 2010. © 2010 Wiley-Liss, Inc. [source]

Hypoxic preconditioning protects rat hearts against ischaemia,reperfusion injury: role of erythropoietin on progenitor cell mobilization

THE JOURNAL OF PHYSIOLOGY, Issue 23 2008
Jih-Shyong Lin
Preconditioning, such as by brief hypoxic exposure, has been shown to protect hearts against severe ischaemia. Here we hypothesized that hypoxic preconditioning (HPC) protects injured hearts by mobilizing the circulating progenitor cells. Ischaemia,reperfusion (IR) injury was induced by left coronary ligation and release in rats kept in room air or preconditioned with 10% oxygen for 6 weeks. To study the role of erythropoietin (EPO), another HPC + IR group was given an EPO receptor (EPOR) antibody via a subcutaneous mini-osmotic pump 3 weeks before IR induction. HPC alone gradually increased haematocrit, cardiac and plasma EPO, and cardiac vascular endothelial growth factor (VEGF) only in the first two weeks. HPC improved heart contractility, reduced ischaemic injury, and maintained EPO and EPOR levels in the infarct tissues of IR hearts, but had no significant effect on VEGF. Interestingly, the number of CD34+CXCR4+ cells in the peripheral blood and their expression in HPC-treated hearts was higher than in control. Preconditioning up-regulated cardiac expression of stromal derived factor-1 (SDF-1) and prevented its IR-induced reduction. The EPOR antibody abolished HPC-mediated functional recovery, and reduced SDF-1, CXCR4 and CD34 expression in IR hearts, as well as the number of CD34+CXCR4+ cells in blood. The specificity of neutralizing antibody was confirmed in an H9c2 culture system. In conclusion, exposure of rats to moderate hypoxia leads to an increase in progenitor cells in the heart and circulation. This effect is dependent on EPO, which induces cell homing by increased SDF-1/CXCR4 and reduces the heart susceptibly to IR injury. [source]