APMCG-1 attenuates ischemic stroke injury by reducing oxidative stress and apoptosis and promoting angiogenesis via activating PI3K/AKT pathway

Ischemic stroke (IS) is a major cause of mortality and morbidity worldwide. Beyond thrombolysis, strategies targeting anti-oxidative apoptosis and angiogenesis are considered prospective therapeutic strategies. Nevertheless, existing natural and clinical remedies have limited efficacy in the managem...

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Published inBiomedicine & pharmacotherapy Vol. 180; p. 117506
Main Authors He, Xingyue, Wu, Mingdian, Chen, Likun, Liu, Meijun, Hu, Xuan, Meng, Ying, Yue, Hao, Yang, Xiaoshan, Zheng, Peng, Dai, Yulin
Format Journal Article
LanguageEnglish
Published France Elsevier Masson SAS 01.11.2024
Elsevier
Subjects
Glycopeptide
Ischemic stroke
MCAO models
Mountain-cultivated ginseng
PI3K/AKT
Zebrafish
Mountain-cultivated ginseng
Zebrafish
Ischemic stroke
MCAO models
Glycopeptide
PI3K/AKT
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Abstract Ischemic stroke (IS) is a major cause of mortality and morbidity worldwide. Beyond thrombolysis, strategies targeting anti-oxidative apoptosis and angiogenesis are considered prospective therapeutic strategies. Nevertheless, existing natural and clinical remedies have limited efficacy in the management of IS. Moreover, despite their millennial legacy of IS remediation, natural remedies such as ginseng incur high production costs. The novel glycopeptide APMCG-1, extracted from mountain-cultivated ginseng dregs in our previous study, is a potent therapeutic candidate for IS. This study investigated APMCG-1's remedial mechanisms against IS injury using an H2O2-induced oxidative stress paradigm in human umbilical vein endothelial cells (HUVECs) emulating ischemic endothelial cells, in a ponatinib-induced zebrafish IS model, and in rat middle cerebral artery occlusion (MCAO) prototypes. Cellular assays confirmed the proficiency of APMCG-1 in preventing oxidative stress and cell death, fostering regeneration, and facilitating neovascularization within the H2O2-stressed HUVECs framework. Moreover, APMCG-1 augmented hemodynamic velocity, oxidative stress mitigation, apoptosis reduction, and motor enhancement in a zebrafish model of IS. In MCAO rats, APMCG-1 ameliorated neurological deficits and cerebral injury, as evidenced by increased neurological scores and diminished infarct dimensions. In cells and animal models, APMCG-1 activated the PI3K/AKT signaling pathway, modulating factors such as Nrf2, Bcl-2, Caspase 3, eNOS, and VEGFA, thereby ameliorating cellular oxidative distress and catalyzing angiogenesis. Collectively, these results demonstrate the potential protective effects of APMCG-1 in IS pharmacotherapy and its prospective utility as an herbal-derived IS treatment modality. [Display omitted]
AbstractList Ischemic stroke (IS) is a major cause of mortality and morbidity worldwide. Beyond thrombolysis, strategies targeting anti-oxidative apoptosis and angiogenesis are considered prospective therapeutic strategies. Nevertheless, existing natural and clinical remedies have limited efficacy in the management of IS. Moreover, despite their millennial legacy of IS remediation, natural remedies such as ginseng incur high production costs. The novel glycopeptide APMCG-1, extracted from mountain-cultivated ginseng dregs in our previous study, is a potent therapeutic candidate for IS. This study investigated APMCG-1's remedial mechanisms against IS injury using an H2O2-induced oxidative stress paradigm in human umbilical vein endothelial cells (HUVECs) emulating ischemic endothelial cells, in a ponatinib-induced zebrafish IS model, and in rat middle cerebral artery occlusion (MCAO) prototypes. Cellular assays confirmed the proficiency of APMCG-1 in preventing oxidative stress and cell death, fostering regeneration, and facilitating neovascularization within the H2O2-stressed HUVECs framework. Moreover, APMCG-1 augmented hemodynamic velocity, oxidative stress mitigation, apoptosis reduction, and motor enhancement in a zebrafish model of IS. In MCAO rats, APMCG-1 ameliorated neurological deficits and cerebral injury, as evidenced by increased neurological scores and diminished infarct dimensions. In cells and animal models, APMCG-1 activated the PI3K/AKT signaling pathway, modulating factors such as Nrf2, Bcl-2, Caspase 3, eNOS, and VEGFA, thereby ameliorating cellular oxidative distress and catalyzing angiogenesis. Collectively, these results demonstrate the potential protective effects of APMCG-1 in IS pharmacotherapy and its prospective utility as an herbal-derived IS treatment modality.Ischemic stroke (IS) is a major cause of mortality and morbidity worldwide. Beyond thrombolysis, strategies targeting anti-oxidative apoptosis and angiogenesis are considered prospective therapeutic strategies. Nevertheless, existing natural and clinical remedies have limited efficacy in the management of IS. Moreover, despite their millennial legacy of IS remediation, natural remedies such as ginseng incur high production costs. The novel glycopeptide APMCG-1, extracted from mountain-cultivated ginseng dregs in our previous study, is a potent therapeutic candidate for IS. This study investigated APMCG-1's remedial mechanisms against IS injury using an H2O2-induced oxidative stress paradigm in human umbilical vein endothelial cells (HUVECs) emulating ischemic endothelial cells, in a ponatinib-induced zebrafish IS model, and in rat middle cerebral artery occlusion (MCAO) prototypes. Cellular assays confirmed the proficiency of APMCG-1 in preventing oxidative stress and cell death, fostering regeneration, and facilitating neovascularization within the H2O2-stressed HUVECs framework. Moreover, APMCG-1 augmented hemodynamic velocity, oxidative stress mitigation, apoptosis reduction, and motor enhancement in a zebrafish model of IS. In MCAO rats, APMCG-1 ameliorated neurological deficits and cerebral injury, as evidenced by increased neurological scores and diminished infarct dimensions. In cells and animal models, APMCG-1 activated the PI3K/AKT signaling pathway, modulating factors such as Nrf2, Bcl-2, Caspase 3, eNOS, and VEGFA, thereby ameliorating cellular oxidative distress and catalyzing angiogenesis. Collectively, these results demonstrate the potential protective effects of APMCG-1 in IS pharmacotherapy and its prospective utility as an herbal-derived IS treatment modality.
Ischemic stroke (IS) is a major cause of mortality and morbidity worldwide. Beyond thrombolysis, strategies targeting anti-oxidative apoptosis and angiogenesis are considered prospective therapeutic strategies. Nevertheless, existing natural and clinical remedies have limited efficacy in the management of IS. Moreover, despite their millennial legacy of IS remediation, natural remedies such as ginseng incur high production costs. The novel glycopeptide APMCG-1, extracted from mountain-cultivated ginseng dregs in our previous study, is a potent therapeutic candidate for IS. This study investigated APMCG-1's remedial mechanisms against IS injury using an H2O2-induced oxidative stress paradigm in human umbilical vein endothelial cells (HUVECs) emulating ischemic endothelial cells, in a ponatinib-induced zebrafish IS model, and in rat middle cerebral artery occlusion (MCAO) prototypes. Cellular assays confirmed the proficiency of APMCG-1 in preventing oxidative stress and cell death, fostering regeneration, and facilitating neovascularization within the H2O2-stressed HUVECs framework. Moreover, APMCG-1 augmented hemodynamic velocity, oxidative stress mitigation, apoptosis reduction, and motor enhancement in a zebrafish model of IS. In MCAO rats, APMCG-1 ameliorated neurological deficits and cerebral injury, as evidenced by increased neurological scores and diminished infarct dimensions. In cells and animal models, APMCG-1 activated the PI3K/AKT signaling pathway, modulating factors such as Nrf2, Bcl-2, Caspase 3, eNOS, and VEGFA, thereby ameliorating cellular oxidative distress and catalyzing angiogenesis. Collectively, these results demonstrate the potential protective effects of APMCG-1 in IS pharmacotherapy and its prospective utility as an herbal-derived IS treatment modality.
Ischemic stroke (IS) is a major cause of mortality and morbidity worldwide. Beyond thrombolysis, strategies targeting anti-oxidative apoptosis and angiogenesis are considered prospective therapeutic strategies. Nevertheless, existing natural and clinical remedies have limited efficacy in the management of IS. Moreover, despite their millennial legacy of IS remediation, natural remedies such as ginseng incur high production costs. The novel glycopeptide APMCG-1, extracted from mountain-cultivated ginseng dregs in our previous study, is a potent therapeutic candidate for IS. This study investigated APMCG-1's remedial mechanisms against IS injury using an H O -induced oxidative stress paradigm in human umbilical vein endothelial cells (HUVECs) emulating ischemic endothelial cells, in a ponatinib-induced zebrafish IS model, and in rat middle cerebral artery occlusion (MCAO) prototypes. Cellular assays confirmed the proficiency of APMCG-1 in preventing oxidative stress and cell death, fostering regeneration, and facilitating neovascularization within the H O -stressed HUVECs framework. Moreover, APMCG-1 augmented hemodynamic velocity, oxidative stress mitigation, apoptosis reduction, and motor enhancement in a zebrafish model of IS. In MCAO rats, APMCG-1 ameliorated neurological deficits and cerebral injury, as evidenced by increased neurological scores and diminished infarct dimensions. In cells and animal models, APMCG-1 activated the PI3K/AKT signaling pathway, modulating factors such as Nrf2, Bcl-2, Caspase 3, eNOS, and VEGFA, thereby ameliorating cellular oxidative distress and catalyzing angiogenesis. Collectively, these results demonstrate the potential protective effects of APMCG-1 in IS pharmacotherapy and its prospective utility as an herbal-derived IS treatment modality.
Ischemic stroke (IS) is a major cause of mortality and morbidity worldwide. Beyond thrombolysis, strategies targeting anti-oxidative apoptosis and angiogenesis are considered prospective therapeutic strategies. Nevertheless, existing natural and clinical remedies have limited efficacy in the management of IS. Moreover, despite their millennial legacy of IS remediation, natural remedies such as ginseng incur high production costs. The novel glycopeptide APMCG-1, extracted from mountain-cultivated ginseng dregs in our previous study, is a potent therapeutic candidate for IS. This study investigated APMCG-1's remedial mechanisms against IS injury using an H2O2-induced oxidative stress paradigm in human umbilical vein endothelial cells (HUVECs) emulating ischemic endothelial cells, in a ponatinib-induced zebrafish IS model, and in rat middle cerebral artery occlusion (MCAO) prototypes. Cellular assays confirmed the proficiency of APMCG-1 in preventing oxidative stress and cell death, fostering regeneration, and facilitating neovascularization within the H2O2-stressed HUVECs framework. Moreover, APMCG-1 augmented hemodynamic velocity, oxidative stress mitigation, apoptosis reduction, and motor enhancement in a zebrafish model of IS. In MCAO rats, APMCG-1 ameliorated neurological deficits and cerebral injury, as evidenced by increased neurological scores and diminished infarct dimensions. In cells and animal models, APMCG-1 activated the PI3K/AKT signaling pathway, modulating factors such as Nrf2, Bcl-2, Caspase 3, eNOS, and VEGFA, thereby ameliorating cellular oxidative distress and catalyzing angiogenesis. Collectively, these results demonstrate the potential protective effects of APMCG-1 in IS pharmacotherapy and its prospective utility as an herbal-derived IS treatment modality. [Display omitted]
ArticleNumber 117506
Author Dai, Yulin
Liu, Meijun
Meng, Ying
Yang, Xiaoshan
Wu, Mingdian
Hu, Xuan
He, Xingyue
Chen, Likun
Yue, Hao
Zheng, Peng
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Keywords Mountain-cultivated ginseng
Zebrafish
Ischemic stroke
MCAO models
Glycopeptide
PI3K/AKT
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Snippet Ischemic stroke (IS) is a major cause of mortality and morbidity worldwide. Beyond thrombolysis, strategies targeting anti-oxidative apoptosis and angiogenesis...
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SubjectTerms Glycopeptide
Ischemic stroke
MCAO models
Mountain-cultivated ginseng
PI3K/AKT
Zebrafish
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Title APMCG-1 attenuates ischemic stroke injury by reducing oxidative stress and apoptosis and promoting angiogenesis via activating PI3K/AKT pathway
URI https://dx.doi.org/10.1016/j.biopha.2024.117506
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