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Quantitative Analysis of Factors Regulating Angiogenesis for Stem Cell Therapy
by
Yoshida-Noro, Chikako
, Hagikura, Kazuhiro
, Matsumoto, Taro
, Noro, Nobuhiro
, Shimazaki, Takahiro
in
Ang-1
/ Angiogenesis
/ Angiopoietin
/ Antioxidants
/ apigenin
/ Apoptosis
/ Arteriosclerosis
/ Blood vessels
/ Cancer
/ CD31 antigen
/ Cell culture
/ Cell therapy
/ coculture
/ Cyclooxygenase-1
/ Diabetic retinopathy
/ Disease prevention
/ dose response
/ Endothelial cells
/ endothelial nitric oxide synthase
/ Extracellular matrix
/ flavonoid
/ Flavonoids
/ Gene expression
/ genes
/ humans
/ HUVECs
/ Hydrocarbons
/ Hypoxia
/ Ischemia
/ Japan
/ Kinases
/ luteolin
/ Medical treatment
/ Mesenchyme
/ Metastasis
/ mice
/ Molecular modelling
/ Nitric-oxide synthase
/ Oxidative stress
/ Permeability
/ Peroxisome proliferator-activated receptors
/ Physiology
/ Polymerase chain reaction
/ polyphenol
/ Polyphenols
/ Quantitative analysis
/ Quercetin
/ Regenerative medicine
/ Resveratrol
/ Stem cell transplantation
/ Stem cells
/ Therapeutic applications
/ therapeutics
/ Tumors
/ Vascular endothelial growth factor
/ VEGF
2021
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Quantitative Analysis of Factors Regulating Angiogenesis for Stem Cell Therapy
by
Yoshida-Noro, Chikako
, Hagikura, Kazuhiro
, Matsumoto, Taro
, Noro, Nobuhiro
, Shimazaki, Takahiro
in
Ang-1
/ Angiogenesis
/ Angiopoietin
/ Antioxidants
/ apigenin
/ Apoptosis
/ Arteriosclerosis
/ Blood vessels
/ Cancer
/ CD31 antigen
/ Cell culture
/ Cell therapy
/ coculture
/ Cyclooxygenase-1
/ Diabetic retinopathy
/ Disease prevention
/ dose response
/ Endothelial cells
/ endothelial nitric oxide synthase
/ Extracellular matrix
/ flavonoid
/ Flavonoids
/ Gene expression
/ genes
/ humans
/ HUVECs
/ Hydrocarbons
/ Hypoxia
/ Ischemia
/ Japan
/ Kinases
/ luteolin
/ Medical treatment
/ Mesenchyme
/ Metastasis
/ mice
/ Molecular modelling
/ Nitric-oxide synthase
/ Oxidative stress
/ Permeability
/ Peroxisome proliferator-activated receptors
/ Physiology
/ Polymerase chain reaction
/ polyphenol
/ Polyphenols
/ Quantitative analysis
/ Quercetin
/ Regenerative medicine
/ Resveratrol
/ Stem cell transplantation
/ Stem cells
/ Therapeutic applications
/ therapeutics
/ Tumors
/ Vascular endothelial growth factor
/ VEGF
2021
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Quantitative Analysis of Factors Regulating Angiogenesis for Stem Cell Therapy
by
Yoshida-Noro, Chikako
, Hagikura, Kazuhiro
, Matsumoto, Taro
, Noro, Nobuhiro
, Shimazaki, Takahiro
in
Ang-1
/ Angiogenesis
/ Angiopoietin
/ Antioxidants
/ apigenin
/ Apoptosis
/ Arteriosclerosis
/ Blood vessels
/ Cancer
/ CD31 antigen
/ Cell culture
/ Cell therapy
/ coculture
/ Cyclooxygenase-1
/ Diabetic retinopathy
/ Disease prevention
/ dose response
/ Endothelial cells
/ endothelial nitric oxide synthase
/ Extracellular matrix
/ flavonoid
/ Flavonoids
/ Gene expression
/ genes
/ humans
/ HUVECs
/ Hydrocarbons
/ Hypoxia
/ Ischemia
/ Japan
/ Kinases
/ luteolin
/ Medical treatment
/ Mesenchyme
/ Metastasis
/ mice
/ Molecular modelling
/ Nitric-oxide synthase
/ Oxidative stress
/ Permeability
/ Peroxisome proliferator-activated receptors
/ Physiology
/ Polymerase chain reaction
/ polyphenol
/ Polyphenols
/ Quantitative analysis
/ Quercetin
/ Regenerative medicine
/ Resveratrol
/ Stem cell transplantation
/ Stem cells
/ Therapeutic applications
/ therapeutics
/ Tumors
/ Vascular endothelial growth factor
/ VEGF
2021
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Quantitative Analysis of Factors Regulating Angiogenesis for Stem Cell Therapy
Journal Article
Quantitative Analysis of Factors Regulating Angiogenesis for Stem Cell Therapy
2021
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Overview
(1) Background: The control of angiogenesis is essential in disease treatment. We investigated angiogenesis-promoting or -suppressing factors and their molecular mechanisms. (2) Methods: Angiogenesis from HUVECs was quantitatively analyzed using the Angiogenesis Analysis Kit (Kurabo, Osaka, Japan). Human rAng-1-producing 107-35 CHO cells or mouse DFAT-D1 cells were co-cultured with HUVEC. Antioxidant polyphenols were added to the culture. Gene expression was analyzed by RT-PCR. (3) Results: The addition of rAng-1-producing cells, their culture supernatant, or commercially available rAng-1 showed a promoting effect on angiogenesis. The co-culture of DFAT-D1 cells promoted angiogenesis. Polyphenols showed a dose-dependent inhibitory effect on angiogenesis. Luteolin and quercetin showed remarkable anti-angiogenic effects. The expression of vWF, Flk1, and PECAM-1 was increased by adding rAng-1-producing cell culture supernatant. Polyphenols suppressed these genes. Apigenin and luteolin markedly suppressed α-SMA and Flk1. Resveratrol and quercetin enhanced the expression of PPARγ, and luteolin suppressed the expression of COX-1. The expression of endothelial nitric oxide synthase (eNOS), an oxidative stress-related gene, was slightly increased by luteolin. These results suggest that polyphenols induce ROS reduction. (4) Conclusions: We showed the promoting effect of Ang-1 or DFAT and the suppressing effect of polyphenols on angiogenesis and studied their molecular mechanisms. These results help control angiogenesis in regenerative therapy.
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