The Role of Sodium Hydrogen Exchanger 1 in Dysregulation of Proton Dynamics and Reprogramming of Cancer Metabolism as a Sequela

The Role of Sodium Hydrogen Exchanger 1 in Dysregulation of Proton Dynamics and Reprogramming of Cancer Metabolism as a Sequela

Cancer cells have an unusual regulation of hydrogen ion dynamics that are driven by poor vascularity perfusion, regional hypoxia, and increased glycolysis. All these forces synergize/orchestrate together to create extracellular acidity and intracellular alkalinity. Precisely, they lead to extracellu...

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Main Authors: Rosa Angela Cardone, Khalid Omer Alfarouk, Robert L. Elliott, Saad Saeed Alqahtani, Samrein B. M. Ahmed, Ahmed N. Aljarbou, Maria Raffaella Greco, Stefania Cannone, Stephan Joel Reshkin
Format: Article
Language:English
Published: MDPI AG 2019-07-01
Series:International Journal of Molecular Sciences
Subjects:
pH and cancer
pH and Warburg metabolism
proton transport in cancer
Na<sup>+</sup>/H<sup>+</sup> exchanger
tumor metabolic microenvironment
Online Access:https://www.mdpi.com/1422-0067/20/15/3694
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spelling doaj-f350403057b04ef293f1fc8145b3762d2020-11-24T21:22:11ZengMDPI AGInternational Journal of Molecular Sciences1422-00672019-07-012015369410.3390/ijms20153694ijms20153694The Role of Sodium Hydrogen Exchanger 1 in Dysregulation of Proton Dynamics and Reprogramming of Cancer Metabolism as a SequelaRosa Angela Cardone0Khalid Omer Alfarouk1Robert L. Elliott2Saad Saeed Alqahtani3Samrein B. M. Ahmed4Ahmed N. Aljarbou5Maria Raffaella Greco6Stefania Cannone7Stephan Joel Reshkin8Department of Bioscience, Biotechnology, and Biopharmaceutics, University of Bari, 90126 Bari, ItalyAlfarouk Biomedical Research LLC, Tampa, FL 33617, USAThe Sallie A. Burdine Breast Foundation, Baton Rouge, LA 70806, USAClinical Pharmacy Department, College of Pharmacy, Jazan University, Jazan 45142, Saudi ArabiaCollege of Medicine, University of Sharjah, Sharjah, UAECollege of Pharmacy, Qassim University, Buraydah 51452, Saudi ArabiaDepartment of Bioscience, Biotechnology, and Biopharmaceutics, University of Bari, 90126 Bari, ItalyDepartment of Bioscience, Biotechnology, and Biopharmaceutics, University of Bari, 90126 Bari, ItalyDepartment of Bioscience, Biotechnology, and Biopharmaceutics, University of Bari, 90126 Bari, ItalyCancer cells have an unusual regulation of hydrogen ion dynamics that are driven by poor vascularity perfusion, regional hypoxia, and increased glycolysis. All these forces synergize/orchestrate together to create extracellular acidity and intracellular alkalinity. Precisely, they lead to extracellular pH (pH<sub>e</sub>) values as low as 6.2 and intracellular pH values as high as 8. This unique pH gradient (∆pH<sub>i</sub> to ∆pH<sub>e</sub>) across the cell membrane increases as the tumor progresses, and is markedly displaced from the electrochemical equilibrium of protons. These unusual pH dynamics influence cancer cell biology, including proliferation, metastasis, and metabolic adaptation. Warburg metabolism with increased glycolysis, even in the presence of Oxygen with the subsequent reduction in Krebs’ cycle, is a common feature of most cancers. This metabolic reprogramming confers evolutionary advantages to cancer cells by enhancing their resistance to hypoxia, to chemotherapy or radiotherapy, allowing rapid production of biological building blocks that support cellular proliferation, and shielding against damaging mitochondrial free radicals. In this article, we highlight the interconnected roles of dysregulated pH dynamics in cancer initiation, progression, adaptation, and in determining the programming and re-programming of tumor cell metabolism.https://www.mdpi.com/1422-0067/20/15/3694pH and cancerpH and Warburg metabolismproton transport in cancerNa<sup>+</sup>/H<sup>+</sup> exchangertumor metabolic microenvironment
collection DOAJ
language English
format Article
sources DOAJ
author Rosa Angela Cardone
Khalid Omer Alfarouk
Robert L. Elliott
Saad Saeed Alqahtani
Samrein B. M. Ahmed
Ahmed N. Aljarbou
Maria Raffaella Greco
Stefania Cannone
Stephan Joel Reshkin
spellingShingle Rosa Angela Cardone
Khalid Omer Alfarouk
Robert L. Elliott
Saad Saeed Alqahtani
Samrein B. M. Ahmed
Ahmed N. Aljarbou
Maria Raffaella Greco
Stefania Cannone
Stephan Joel Reshkin
The Role of Sodium Hydrogen Exchanger 1 in Dysregulation of Proton Dynamics and Reprogramming of Cancer Metabolism as a Sequela
International Journal of Molecular Sciences
pH and cancer
pH and Warburg metabolism
proton transport in cancer
Na<sup>+</sup>/H<sup>+</sup> exchanger
tumor metabolic microenvironment
author_facet Rosa Angela Cardone
Khalid Omer Alfarouk
Robert L. Elliott
Saad Saeed Alqahtani
Samrein B. M. Ahmed
Ahmed N. Aljarbou
Maria Raffaella Greco
Stefania Cannone
Stephan Joel Reshkin
author_sort Rosa Angela Cardone
title The Role of Sodium Hydrogen Exchanger 1 in Dysregulation of Proton Dynamics and Reprogramming of Cancer Metabolism as a Sequela
title_short The Role of Sodium Hydrogen Exchanger 1 in Dysregulation of Proton Dynamics and Reprogramming of Cancer Metabolism as a Sequela
title_full The Role of Sodium Hydrogen Exchanger 1 in Dysregulation of Proton Dynamics and Reprogramming of Cancer Metabolism as a Sequela
title_fullStr The Role of Sodium Hydrogen Exchanger 1 in Dysregulation of Proton Dynamics and Reprogramming of Cancer Metabolism as a Sequela
title_full_unstemmed The Role of Sodium Hydrogen Exchanger 1 in Dysregulation of Proton Dynamics and Reprogramming of Cancer Metabolism as a Sequela
title_sort role of sodium hydrogen exchanger 1 in dysregulation of proton dynamics and reprogramming of cancer metabolism as a sequela
publisher MDPI AG
series International Journal of Molecular Sciences
issn 1422-0067
publishDate 2019-07-01
description Cancer cells have an unusual regulation of hydrogen ion dynamics that are driven by poor vascularity perfusion, regional hypoxia, and increased glycolysis. All these forces synergize/orchestrate together to create extracellular acidity and intracellular alkalinity. Precisely, they lead to extracellular pH (pH<sub>e</sub>) values as low as 6.2 and intracellular pH values as high as 8. This unique pH gradient (∆pH<sub>i</sub> to ∆pH<sub>e</sub>) across the cell membrane increases as the tumor progresses, and is markedly displaced from the electrochemical equilibrium of protons. These unusual pH dynamics influence cancer cell biology, including proliferation, metastasis, and metabolic adaptation. Warburg metabolism with increased glycolysis, even in the presence of Oxygen with the subsequent reduction in Krebs’ cycle, is a common feature of most cancers. This metabolic reprogramming confers evolutionary advantages to cancer cells by enhancing their resistance to hypoxia, to chemotherapy or radiotherapy, allowing rapid production of biological building blocks that support cellular proliferation, and shielding against damaging mitochondrial free radicals. In this article, we highlight the interconnected roles of dysregulated pH dynamics in cancer initiation, progression, adaptation, and in determining the programming and re-programming of tumor cell metabolism.
topic pH and cancer
pH and Warburg metabolism
proton transport in cancer
Na<sup>+</sup>/H<sup>+</sup> exchanger
tumor metabolic microenvironment
url https://www.mdpi.com/1422-0067/20/15/3694
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