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Traditional Chinese Medicine extracts exert angiogenic and protective effects towards human endothelial progenitor cells: from cellular function to molecular pathwayTang, Yubo 02 July 2014 (has links) (PDF)
Despite intense research efforts, the repair of large bone defects is still not satisfactory and remains a major challenge in Orthopaedic Surgery. In this context bone tissue engineering has emerged as a promising strategy. However, one of the fundamental principles underlying tissue engineering approaches is that newly formed tissue must maintain sufficient vascularization to support its growth. Thus an active blood vessel network is an essential pre-requisite for scaffold constructs to integrate within existing host tissue. Currently, great efforts are made to address this problem employing transplantation of vascular cells and loading of appropriate biological factors.
Endothelial progenitor cells (EPCs) are a heterogeneous subpopulation of bone marrow mononuclear progenitor cells with potential for differentiation to the endothelial lineage and thus vasculogenic capacity. However, clinical studies reported that with the increase of age, increased susceptibility to apoptosis and accelerated senescence may contribute to the numerical and functional impairments observed in EPCs, which may lead to a reduced angiogenic capacity and an increased risk of vascular disease. Hence attention has increasingly been paid to enhance mobilization and differentiation of EPCs for therapeutic purposes.
A large body of evidence indicates that in Traditional Chinese Medicine (TCM) a plethora of herbs and herbal extracts are effective in the treatment of vascular diseases such as chronic wounds, diabetic retinopathy and rheumatoid arthritis. Thus, it seems rational to explore these medicinal plants as potential sources of novel angiomodulatory factors.
In this thesis we demonstrated that treatment with TCM herbal extracts promote cell growth, cell migration, cell-matrix and capillary-like tube formation of BM-EPCs. Among these TCM extracts, Salidroside (SAL) and Icariin (ICAR) incubation increased VEGF and nitric oxide secretion, which in turn mediated the enhancement of angiogenic differentiation of BM-EPCs. A mechanic evaluation provided evidence that SAL stimulates the phosphorylation of Akt, mammalian target of rapamycin (mTOR) and ribosomal protein S6 kinase (p70S6K), as well as phosphorylated ERK1/2, which is associated with the cell migration and tube formation. Furthermore, a pilot in vivo study showed that SAL has the potential to enhance bone formation in a murine femoral critical-size bone defects model.
Another new finding of the present study is that hydrogen peroxide (H2O2)-induced cytotoxicity is counteracted by TCM extracts. We found that SAL, Salvianolic acid B (SalB) and ICAR significantly abrogated H2O2-induced cell apoptosis, reduced the intracellular level of reactive oxygen species (ROS) and nicotinamide adenine dinucleotide phosphate-oxidase (NADPH) expression, and restored the mitochondrial membrane potential of BM-EPCs. Our data suggest that this protective effect of SalB is mediated by the activation of mTOR, p70S6K, 4EBP1, and by the suppression of MKK3/6-p38 MAPK-ATF2 and ERK1/2 signaling pathways after H2O2 stress. In addition, the investigation also demonstrates that ICAR owns the ability to inhibit apoptotic and autophagic programmed cell death via restoring the loss of mTOR and attenuation of ATF2 activity upon oxidative stress.
Based on the outcomes of the present work, we propose SAL, SalB and ICAR as novel proanigiogenic and cytoprotective therapeutic agents with potential applications in the fields of systemic and site-specific tissue regeneration including ischaemic disease and extended musculoskeletal tissue defects.
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Continuous Endothelial Cell Activation Increases Angiogenesis: Evidence for the Direct Role of Endothelium Linking Angiogenesis and InflammationRajashekhar, Gangaraju, Willuweit, Antje, Patterson, Carolyn E., Sun, Peichuan, Hilbig, Andreas, Breier, Georg, Helisch, Armin, Clauss, Matthias 27 February 2014 (has links) (PDF)
There is increasing evidence that chronic inflammation is tightly linked to diseases associated with endothelial dysfunction, including the induction of aberrant angiogenesis. While leukocytes have been described as mediators of inflammation-associated angiogenesis, the effects of direct chronic endothelial activation have not been addressed in this context. Using an uncleavable mutant of the transmembrane form of tumor necrosis factor-α (TNF-α), we have established models of stable TNF-α expression in endothelial cells in vitro and in transgenic mice in vivo. In the in vitro model, continuous endothelial activation leads to increased leukocyte cellular adhesion molecule expression and intracellular reactive oxygen species, hallmarks of a proinflammatory and dysfunctional endothelium. In addition, stable expression of TNF-α in endothelial cells increased angiogenic sprout formation in the presence but also in the absence of angiogenic growth factors. The partial neutralization of this effect by TNF-α antibodies and the inability of conditioned media from stable TNF-α-expressing endothelial cells to induce angiogenic activities in control endothelial cells suggest that this effect does not require expression of additional autocrine factors, but is an autonomous effect of the transmembrane TNF on the endothelial cells. Furthermore, using the Matrigel plug assay in vivo, increased angiogenesis was observed in endothelial TNF-α-expressing transgenic versus control mice. In conclusion, chronic inflammatory changes mediated by TNF-α can induce angiogenesis in vitro and in vivo, suggesting endothelial cell activation as a direct link between inflammation and angiogenesis. / Dieser Beitrag ist mit Zustimmung des Rechteinhabers aufgrund einer (DFG-geförderten) Allianz- bzw. Nationallizenz frei zugänglich.
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Continuous Endothelial Cell Activation Increases Angiogenesis: Evidence for the Direct Role of Endothelium Linking Angiogenesis and InflammationRajashekhar, Gangaraju, Willuweit, Antje, Patterson, Carolyn E., Sun, Peichuan, Hilbig, Andreas, Breier, Georg, Helisch, Armin, Clauss, Matthias January 2006 (has links)
There is increasing evidence that chronic inflammation is tightly linked to diseases associated with endothelial dysfunction, including the induction of aberrant angiogenesis. While leukocytes have been described as mediators of inflammation-associated angiogenesis, the effects of direct chronic endothelial activation have not been addressed in this context. Using an uncleavable mutant of the transmembrane form of tumor necrosis factor-α (TNF-α), we have established models of stable TNF-α expression in endothelial cells in vitro and in transgenic mice in vivo. In the in vitro model, continuous endothelial activation leads to increased leukocyte cellular adhesion molecule expression and intracellular reactive oxygen species, hallmarks of a proinflammatory and dysfunctional endothelium. In addition, stable expression of TNF-α in endothelial cells increased angiogenic sprout formation in the presence but also in the absence of angiogenic growth factors. The partial neutralization of this effect by TNF-α antibodies and the inability of conditioned media from stable TNF-α-expressing endothelial cells to induce angiogenic activities in control endothelial cells suggest that this effect does not require expression of additional autocrine factors, but is an autonomous effect of the transmembrane TNF on the endothelial cells. Furthermore, using the Matrigel plug assay in vivo, increased angiogenesis was observed in endothelial TNF-α-expressing transgenic versus control mice. In conclusion, chronic inflammatory changes mediated by TNF-α can induce angiogenesis in vitro and in vivo, suggesting endothelial cell activation as a direct link between inflammation and angiogenesis. / Dieser Beitrag ist mit Zustimmung des Rechteinhabers aufgrund einer (DFG-geförderten) Allianz- bzw. Nationallizenz frei zugänglich.
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Traditional Chinese Medicine extracts exert angiogenic and protective effects towards human endothelial progenitor cells: from cellular function to molecular pathwayTang, Yubo 26 May 2014 (has links)
Despite intense research efforts, the repair of large bone defects is still not satisfactory and remains a major challenge in Orthopaedic Surgery. In this context bone tissue engineering has emerged as a promising strategy. However, one of the fundamental principles underlying tissue engineering approaches is that newly formed tissue must maintain sufficient vascularization to support its growth. Thus an active blood vessel network is an essential pre-requisite for scaffold constructs to integrate within existing host tissue. Currently, great efforts are made to address this problem employing transplantation of vascular cells and loading of appropriate biological factors.
Endothelial progenitor cells (EPCs) are a heterogeneous subpopulation of bone marrow mononuclear progenitor cells with potential for differentiation to the endothelial lineage and thus vasculogenic capacity. However, clinical studies reported that with the increase of age, increased susceptibility to apoptosis and accelerated senescence may contribute to the numerical and functional impairments observed in EPCs, which may lead to a reduced angiogenic capacity and an increased risk of vascular disease. Hence attention has increasingly been paid to enhance mobilization and differentiation of EPCs for therapeutic purposes.
A large body of evidence indicates that in Traditional Chinese Medicine (TCM) a plethora of herbs and herbal extracts are effective in the treatment of vascular diseases such as chronic wounds, diabetic retinopathy and rheumatoid arthritis. Thus, it seems rational to explore these medicinal plants as potential sources of novel angiomodulatory factors.
In this thesis we demonstrated that treatment with TCM herbal extracts promote cell growth, cell migration, cell-matrix and capillary-like tube formation of BM-EPCs. Among these TCM extracts, Salidroside (SAL) and Icariin (ICAR) incubation increased VEGF and nitric oxide secretion, which in turn mediated the enhancement of angiogenic differentiation of BM-EPCs. A mechanic evaluation provided evidence that SAL stimulates the phosphorylation of Akt, mammalian target of rapamycin (mTOR) and ribosomal protein S6 kinase (p70S6K), as well as phosphorylated ERK1/2, which is associated with the cell migration and tube formation. Furthermore, a pilot in vivo study showed that SAL has the potential to enhance bone formation in a murine femoral critical-size bone defects model.
Another new finding of the present study is that hydrogen peroxide (H2O2)-induced cytotoxicity is counteracted by TCM extracts. We found that SAL, Salvianolic acid B (SalB) and ICAR significantly abrogated H2O2-induced cell apoptosis, reduced the intracellular level of reactive oxygen species (ROS) and nicotinamide adenine dinucleotide phosphate-oxidase (NADPH) expression, and restored the mitochondrial membrane potential of BM-EPCs. Our data suggest that this protective effect of SalB is mediated by the activation of mTOR, p70S6K, 4EBP1, and by the suppression of MKK3/6-p38 MAPK-ATF2 and ERK1/2 signaling pathways after H2O2 stress. In addition, the investigation also demonstrates that ICAR owns the ability to inhibit apoptotic and autophagic programmed cell death via restoring the loss of mTOR and attenuation of ATF2 activity upon oxidative stress.
Based on the outcomes of the present work, we propose SAL, SalB and ICAR as novel proanigiogenic and cytoprotective therapeutic agents with potential applications in the fields of systemic and site-specific tissue regeneration including ischaemic disease and extended musculoskeletal tissue defects.
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Methionine-associated peptide α-amidation is directed both to the N- and the C-terminal amino acidsSajapin, Johann, Kulas, Annemarie, Hellwig, Michael 22 May 2024 (has links)
Peptide-bound methionine may transfer oxidative damage from the thioether side chain to the peptide backbone, catalyzing decomposition in general and α-amidation in particular. In the present study, we focused on the reactivity and reaction pathways of peptides. We synthesized model peptides comprising methionine or not and investigated their overall tendency towards decomposition and formation of specific products under conditions mimicking the cooking process at 100°C in buffered solution (pH 6.0) in the presence of redox-active substances such as transition metal ions and reductones. Peptides containing methionine were more susceptible to α-amidation under all oxidative conditions, and the products of N-terminus-directed α-amidation were quantified. Exemplarily, after incubation in the presence of cupric sulfate, about 2.0 mol-% of the overall decomposition of Z-glycylmethionylglycine accounted for the formation of Z-glycinamide, whereas it was below 0.1 mol-% for Z-glycylalanylglycine. Surprisingly and different from previous observations, C-terminus-directed α-amidation was observed for the first time. From Z-glycylmethionylglycine, the respective products were formed in higher amounts than the N-terminus-directed α-amidation product Z-glycinamide under all applied oxidation conditions. The preference of electron transfer from the amino nitrogen bound in the peptide bond directed to the C-terminus may be ascribed to a sterically less demanding hexagonal 3-electron-2-center intermediate during methionine-catalyzed α-amidation.
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Die Bedeutung der Ca2+/Calmodulin-abhängigen Proteinkinase IIδ für die zytosolische Natrium- und Kalziumüberladung sowie Arrhythmogenese in Herzmuskelzellen / The significance of the Ca2+/Calmodulin-dependent protein kinase IIδ in oxygen mediated cellular sodium and calcium overload as well as arrhythmogenesis in cardiomyocytes.Bellmann, Sarah 04 February 2013 (has links)
No description available.
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