Endothelial upregulation of mechanosensitive channel Piezo1 in pulmonary hypertension

Wang, Ziyi; Chen, Jiyuan; Babicheva, Aleksandra; Jain, Pritesh; Rodriguez, Marisela; Ayon, Ramon J.; Ravellette, Keeley; Wu, Linda; Balistrieri, Francesca; Tang, Haiyang; Wu, Xiaomin; Zhao, Tengteng; Black, Stephen M.; Desai, Ankit A.; Garcia, Joe G.N.; Sun, Xin; Shyy, John Y.‐J.; Valdez‐Jasso, Daniela; Thistlethwaite, Patricia A.; Jian, Wang; Yuan, Jason X.‐J.

doi:10.1152/ajpcell.00147.2021

Cited by 29 publications

(24 citation statements)

References 138 publications

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“… 33 Additionally, membrane stretch-mediated Ca2+ influx through Piezo1 is an important trigger for phosphorylation of AKT mediated upregulation of pulmonary arterial endothelial cells. 34 Thus, in contrast to our results, intracellular Ca2+ may be regulate the AKT pathway in part via Piezo1 in melanoma cells.…”

Section: Discussioncontrasting

confidence: 99%

Mechanically activated ion channel Piezo1 contributes to melanoma malignant progression through AKT/mTOR signaling

Zhang

Cao

Gong

et al. 2022

Cancer Biology & Therapy

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Melanoma is a highly aggressive cancer that can metastasize at early stage. The aim of this study is to clarify the role of Piezo1 and its potential mechanism in regulating the malignant phenotypes of melanoma. In the present study, we first showed that Piezo1 was abnormally expressed in melanoma, which accelerated the malignant progression by activating AKT/mTOR signaling. Firstly, we found that Piezo1 was upregulated in melanoma and associated with poor survival. Additionally, Piezo1 knockdown significantly weakened intracellular calcium signal and viability of melanoma cells. Furthermore, Piezo1 knockdown inhibited the transendothelial migration and invasion in vitro, as well as metastasis in vivo. Mechanistically, we found that Piezo1 activated AKT/mTOR signaling to maintain malignant phenotypes of melanoma. Therefore, Piezo1 acts as an oncogene in melanoma cells and provides a novel candidate for melanoma diagnosis and treatment.

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Section: Discussioncontrasting

confidence: 99%

Mechanically activated ion channel Piezo1 contributes to melanoma malignant progression through AKT/mTOR signaling

Zhang

Cao

Gong

et al. 2022

Cancer Biology & Therapy

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“…Moreover, hypo-osmotic conditions upregulated Piezo1 protein levels in the same cells and promoted the activation of Akt and Erk signalling pathways via Piezo1-induced Ca 2+ entry, as demonstrated by siPiezo1 treatment, with downstream upregulation of Notch ligands [96]. The potential therapeutic effect of Piezo1 blockade in the mouse model with chronic hypoxia-induced PH was assessed by GsMTx4 treatment, which partially reduced the chronic hypoxia-induced PH [96]. These data support the role of Piezo1 in the remodelling of the pulmonary vasculature in PH.…”

Section: Piezo Channelsmentioning

confidence: 81%

“…Human pulmonary arterial endothelial cells showed maximal Piezo1 expression at 6 h hypoxic exposure, with a consequent increase in calpain-1 and calpain-2, both involved in PAH development [96]. Moreover, hypo-osmotic conditions upregulated Piezo1 protein levels in the same cells and promoted the activation of Akt and Erk signalling pathways via Piezo1-induced Ca 2+ entry, as demonstrated by siPiezo1 treatment, with downstream upregulation of Notch ligands [96]. The potential therapeutic effect of Piezo1 blockade in the mouse model with chronic hypoxia-induced PH was assessed by GsMTx4 treatment, which partially reduced the chronic hypoxia-induced PH [96].…”

Section: Piezo Channelsmentioning

confidence: 97%

Section: Piezo Channelsmentioning

confidence: 99%

“…Recent works have shown that Piezo1 is upregulated in pulmonary arterial endothelial cells of patients with pulmonary arterial hypertension (PAH) and in pulmonary artery smooth muscle cells of mice and rats models with experimental chronic hypoxia-induced pulmonary hypertension (PH) [95,96]. Human pulmonary arterial endothelial cells showed maximal Piezo1 expression at 6 h hypoxic exposure, with a consequent increase in calpain-1 and calpain-2, both involved in PAH development [96]. Moreover, hypo-osmotic conditions upregulated Piezo1 protein levels in the same cells and promoted the activation of Akt and Erk signalling pathways via Piezo1-induced Ca 2+ entry, as demonstrated by siPiezo1 treatment, with downstream upregulation of Notch ligands [96].…”

Section: Piezo Channelsmentioning

confidence: 99%

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Ca2+ Signalling and Hypoxia/Acidic Tumour Microenvironment Interplay in Tumour Progression

Audero

Prevarskaya

Fiorio

2022

IJMS

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Solid tumours are characterised by an altered microenvironment (TME) from the physicochemical point of view, displaying a highly hypoxic and acidic interstitial fluid. Hypoxia results from uncontrolled proliferation, aberrant vascularization and altered cancer cell metabolism. Tumour cellular apparatus adapts to hypoxia by altering its metabolism and behaviour, increasing its migratory and metastatic abilities by the acquisition of a mesenchymal phenotype and selection of aggressive tumour cell clones. Extracellular acidosis is considered a cancer hallmark, acting as a driver of cancer aggressiveness by promoting tumour metastasis and chemoresistance via the selection of more aggressive cell phenotypes, although the underlying mechanism is still not clear. In this context, Ca2+ channels represent good target candidates due to their ability to integrate signals from the TME. Ca2+ channels are pH and hypoxia sensors and alterations in Ca2+ homeostasis in cancer progression and vascularization have been extensively reported. In the present review, we present an up—to—date and critical view on Ca2+ permeable ion channels, with a major focus on TRPs, SOCs and PIEZO channels, which are modulated by tumour hypoxia and acidosis, as well as the consequent role of the altered Ca2+ signals on cancer progression hallmarks. We believe that a deeper comprehension of the Ca2+ signalling and acidic pH/hypoxia interplay will break new ground for the discovery of alternative and attractive therapeutic targets.

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Endothelial mechanosensing: A forgotten target to treat vascular remodeling in hypertension?

Tiezzi

Deng

Baeyens

2022

Biochemical Pharmacology

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Endothelial upregulation of mechanosensitive channel Piezo1 in pulmonary hypertension

Cited by 29 publications

References 138 publications

Mechanically activated ion channel Piezo1 contributes to melanoma malignant progression through AKT/mTOR signaling

Mechanically activated ion channel Piezo1 contributes to melanoma malignant progression through AKT/mTOR signaling

Ca2+ Signalling and Hypoxia/Acidic Tumour Microenvironment Interplay in Tumour Progression

Endothelial mechanosensing: A forgotten target to treat vascular remodeling in hypertension?

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