How Reciprocal Interactions Between the Tumor Microenvironment and Ion Transport Proteins Drive Cancer Progression

Research output: Chapter in Book/Report/Conference proceedingBook chapterResearchpeer-review

Standard

How Reciprocal Interactions Between the Tumor Microenvironment and Ion Transport Proteins Drive Cancer Progression. / Elingaard-Larsen, Line O.; Rolver, Michala G.; Sørensen, Ester E.; Pedersen, Stine F.

From Malignant Transformation to Metastasis: Ion Transport in Tumor Biology. ed. / Christian Stock; Luis A. Pardo. Springer, 2022. p. 1-38 (Reviews of Physiology, Biochemistry and Pharmacology, Vol. 182).

Research output: Chapter in Book/Report/Conference proceedingBook chapterResearchpeer-review

Harvard

Elingaard-Larsen, LO, Rolver, MG, Sørensen, EE & Pedersen, SF 2022, How Reciprocal Interactions Between the Tumor Microenvironment and Ion Transport Proteins Drive Cancer Progression. in C Stock & LA Pardo (eds), From Malignant Transformation to Metastasis: Ion Transport in Tumor Biology. Springer, Reviews of Physiology, Biochemistry and Pharmacology, vol. 182, pp. 1-38. https://doi.org/10.1007/112_2020_23

APA

Elingaard-Larsen, L. O., Rolver, M. G., Sørensen, E. E., & Pedersen, S. F. (2022). How Reciprocal Interactions Between the Tumor Microenvironment and Ion Transport Proteins Drive Cancer Progression. In C. Stock, & L. A. Pardo (Eds.), From Malignant Transformation to Metastasis: Ion Transport in Tumor Biology (pp. 1-38). Springer. Reviews of Physiology, Biochemistry and Pharmacology Vol. 182 https://doi.org/10.1007/112_2020_23

Vancouver

Elingaard-Larsen LO, Rolver MG, Sørensen EE, Pedersen SF. How Reciprocal Interactions Between the Tumor Microenvironment and Ion Transport Proteins Drive Cancer Progression. In Stock C, Pardo LA, editors, From Malignant Transformation to Metastasis: Ion Transport in Tumor Biology. Springer. 2022. p. 1-38. (Reviews of Physiology, Biochemistry and Pharmacology, Vol. 182). https://doi.org/10.1007/112_2020_23

Author

Elingaard-Larsen, Line O. ; Rolver, Michala G. ; Sørensen, Ester E. ; Pedersen, Stine F. / How Reciprocal Interactions Between the Tumor Microenvironment and Ion Transport Proteins Drive Cancer Progression. From Malignant Transformation to Metastasis: Ion Transport in Tumor Biology. editor / Christian Stock ; Luis A. Pardo. Springer, 2022. pp. 1-38 (Reviews of Physiology, Biochemistry and Pharmacology, Vol. 182).

Bibtex

@inbook{2e495fb5320248d4a129006200764a33,
title = "How Reciprocal Interactions Between the Tumor Microenvironment and Ion Transport Proteins Drive Cancer Progression",
abstract = "Solid tumors comprise two major components: the cancer cells and the tumor stroma. The stroma is a mixture of cellular and acellular components including fibroblasts, mesenchymal and cancer stem cells, endothelial cells, immune cells, extracellular matrix, and tumor interstitial fluid. The insufficient tumor perfusion and the highly proliferative state and dysregulated metabolism of the cancer cells collectively create a physicochemical microenvironment characterized by altered nutrient concentrations and varying degrees of hypoxia and acidosis. Furthermore, both cancer and stromal cells secrete numerous growth factors, cytokines, and extracellular matrix proteins which further shape the tumor microenvironment (TME), favoring cancer progression. Transport proteins expressed by cancer and stromal cells localize at the interface between the cells and the TME and are in a reciprocal relationship with it, as both sensors and modulators of TME properties. It has been amply demonstrated how acid-base and nutrient transporters of cancer cells enable their growth, presumably by contributing both to the extracellular acidosis and the exchange of metabolic substrates and waste products between cells and TME. However, the TME also impacts other transport proteins important for cancer progression, such as multidrug resistance proteins. In this review, we summarize current knowledge of the cellular and acellular components of solid tumors and their interrelationship with key ion transport proteins. We focus in particular on acid-base transport proteins with known or proposed roles in cancer development, and we discuss their relevance for novel therapeutic strategies.",
keywords = "Acidosis, Hypoxia, Lactate, Monocarboxylate transporters, Na/H exchange, Na/HCO cotransport, pH regulatory transporters, Tumor heterogeneity, Tumor stroma, V-type ATPases",
author = "Elingaard-Larsen, {Line O.} and Rolver, {Michala G.} and S{\o}rensen, {Ester E.} and Pedersen, {Stine F.}",
note = "Publisher Copyright: {\textcopyright} 2020, Springer Nature Switzerland AG.",
year = "2022",
doi = "10.1007/112_2020_23",
language = "English",
isbn = "978-3-030-99799-1",
series = "Reviews of Physiology, Biochemistry and Pharmacology",
publisher = "Springer",
pages = "1--38",
editor = "Christian Stock and Pardo, {Luis A.}",
booktitle = "From Malignant Transformation to Metastasis",
address = "Switzerland",

}

RIS

TY - CHAP

T1 - How Reciprocal Interactions Between the Tumor Microenvironment and Ion Transport Proteins Drive Cancer Progression

AU - Elingaard-Larsen, Line O.

AU - Rolver, Michala G.

AU - Sørensen, Ester E.

AU - Pedersen, Stine F.

N1 - Publisher Copyright: © 2020, Springer Nature Switzerland AG.

PY - 2022

Y1 - 2022

N2 - Solid tumors comprise two major components: the cancer cells and the tumor stroma. The stroma is a mixture of cellular and acellular components including fibroblasts, mesenchymal and cancer stem cells, endothelial cells, immune cells, extracellular matrix, and tumor interstitial fluid. The insufficient tumor perfusion and the highly proliferative state and dysregulated metabolism of the cancer cells collectively create a physicochemical microenvironment characterized by altered nutrient concentrations and varying degrees of hypoxia and acidosis. Furthermore, both cancer and stromal cells secrete numerous growth factors, cytokines, and extracellular matrix proteins which further shape the tumor microenvironment (TME), favoring cancer progression. Transport proteins expressed by cancer and stromal cells localize at the interface between the cells and the TME and are in a reciprocal relationship with it, as both sensors and modulators of TME properties. It has been amply demonstrated how acid-base and nutrient transporters of cancer cells enable their growth, presumably by contributing both to the extracellular acidosis and the exchange of metabolic substrates and waste products between cells and TME. However, the TME also impacts other transport proteins important for cancer progression, such as multidrug resistance proteins. In this review, we summarize current knowledge of the cellular and acellular components of solid tumors and their interrelationship with key ion transport proteins. We focus in particular on acid-base transport proteins with known or proposed roles in cancer development, and we discuss their relevance for novel therapeutic strategies.

AB - Solid tumors comprise two major components: the cancer cells and the tumor stroma. The stroma is a mixture of cellular and acellular components including fibroblasts, mesenchymal and cancer stem cells, endothelial cells, immune cells, extracellular matrix, and tumor interstitial fluid. The insufficient tumor perfusion and the highly proliferative state and dysregulated metabolism of the cancer cells collectively create a physicochemical microenvironment characterized by altered nutrient concentrations and varying degrees of hypoxia and acidosis. Furthermore, both cancer and stromal cells secrete numerous growth factors, cytokines, and extracellular matrix proteins which further shape the tumor microenvironment (TME), favoring cancer progression. Transport proteins expressed by cancer and stromal cells localize at the interface between the cells and the TME and are in a reciprocal relationship with it, as both sensors and modulators of TME properties. It has been amply demonstrated how acid-base and nutrient transporters of cancer cells enable their growth, presumably by contributing both to the extracellular acidosis and the exchange of metabolic substrates and waste products between cells and TME. However, the TME also impacts other transport proteins important for cancer progression, such as multidrug resistance proteins. In this review, we summarize current knowledge of the cellular and acellular components of solid tumors and their interrelationship with key ion transport proteins. We focus in particular on acid-base transport proteins with known or proposed roles in cancer development, and we discuss their relevance for novel therapeutic strategies.

KW - Acidosis

KW - Hypoxia

KW - Lactate

KW - Monocarboxylate transporters

KW - Na/H exchange

KW - Na/HCO cotransport

KW - pH regulatory transporters

KW - Tumor heterogeneity

KW - Tumor stroma

KW - V-type ATPases

U2 - 10.1007/112_2020_23

DO - 10.1007/112_2020_23

M3 - Book chapter

C2 - 32737753

AN - SCOPUS:85129168408

SN - 978-3-030-99799-1

T3 - Reviews of Physiology, Biochemistry and Pharmacology

SP - 1

EP - 38

BT - From Malignant Transformation to Metastasis

A2 - Stock, Christian

A2 - Pardo, Luis A.

PB - Springer

ER -

ID: 310419495