Ninna C. S. Voss scite author profile

The acidic tumor microenvironment modifies malignant cell behavior. Here, we study consequences of the microenvironment in breast carcinomas. Beginning at carcinogen-based breast cancer induction, we supply either regular or NaHCO3-containing drinking water to female C57BL/6j mice. We evaluate urine and blood acid-base status, tumor metabolism (microdialysis sampling), and tumor pH (pH-sensitive microelectrodes) in vivo. Based on freshly isolated epithelial organoids from breast carcinomas and normal breast tissue, we assess protein expression (immunoblotting, mass spectrometry), intracellular pH (fluorescence microscopy), and cell proliferation (bromodeoxyuridine incorporation). Oral NaHCO3 therapy increases breast tumor pH in vivo from 6.68 ± 0.04 to 7.04 ± 0.09 and intracellular pH in breast epithelial organoids by ~0.15. Breast tumors develop with median latency of 85.5 ± 8.2 days in NaHCO3-treated mice vs. 82 ± 7.5 days in control mice. Oral NaHCO3 therapy does not affect tumor growth, histopathology or glycolytic metabolism. The capacity for cellular net acid extrusion is increased in NaHCO3-treated mice and correlates negatively with breast tumor latency. Oral NaHCO3 therapy elevates proliferative activity in organoids from breast carcinomas. Changes in protein expression patterns—observed by high-throughput proteomics analyses—between cancer and normal breast tissue and in response to oral NaHCO3 therapy reveal complex influences on metabolism, cytoskeleton, cell-cell and cell-matrix interaction, and cell signaling pathways. We conclude that oral NaHCO3 therapy neutralizes the microenvironment of breast carcinomas, elevates the cellular net acid extrusion capacity, and accelerates proliferation without net effect on breast cancer development or tumor growth. We demonstrate unexpected pro-neoplastic consequences of oral NaHCO3 therapy that in breast tissue cancel out previously reported anti-neoplastic effects.

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Upregulated Na⁺/H⁺-Exchange Protects Human Colon Cancer Tissue against Intracellular Acidification

Voss

Kold-Petersen

Henningsen

et al. 2019

BioMed Research International

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Increased metabolism accelerates local acid production in cancer tissue. The mechanisms eliminating acidic waste products from human colon cancer tissue represent promising therapeutic targets for pharmacological manipulation in order to improve prognosis for the increasing number of patients with colon cancer. We sampled biopsies of human colonic adenocarcinomas and matched normal colon tissue from patients undergoing colon cancer surgery. We measured steady-state intracellular pH and rates of net acid extrusion in freshly isolated human colonic crypts based on fluorescence microscopy. Net acid extrusion was almost entirely (>95%) Na+-dependent. The capacity for net acid extrusion was increased and steady-state intracellular pH elevated around 0.5 in crypts from colon cancer tissue compared with normal colon tissue irrespective of whether they were investigated in the presence or absence of CO2/HCO3–. The accelerated net acid extrusion from the human colon cancer tissue was sensitive to the Na+/H+-exchange inhibitor cariporide. We conclude that enhanced net acid extrusion via Na+/H+-exchange elevates intracellular pH in human colon cancer tissue.

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Enhanced nitric oxide signaling amplifies vasorelaxation of human colon cancer feed arteries

Voss

Kold-Petersen

Boedtkjer

2019

American Journal of Physiology-Heart and Circulatory Physiology

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Inadequate perfusion of solid cancer tissue results in low local nutrient and oxygen levels and accumulation of acidic waste products. Previous investigations have focused primarily on tumor blood vessel architecture, and we lack information concerning functional differences between arteries that deliver blood to solid cancer tissue versus normal tissue. Here, we use isometric myography to study resistance-sized arteries from human primary colon adenocarcinomas and matched normal colon tissue. Vasocontraction of colon cancer feed arteries in response to endothelin-1 and thromboxane stimulation is attenuated compared with normal colon arteries despite similar wall dimensions and comparable contractions to arginine vasopressin and K+-induced depolarization. Acetylcholine-induced vasorelaxation and endothelial NO synthase expression are increased in colon cancer feed arteries compared with normal colon arteries, whereas vasorelaxation to exogenous NO donors is unaffected. In congruence, the differences in vasorelaxant and vasocontractile function between colon cancer feed arteries and normal colon arteries decrease after NO synthase inhibition. Rhythmic oscillations in vascular tone, known as vasomotion, are of lower amplitude but similar frequency in colon cancer feed arteries compared with normal colon arteries. In conclusion, higher NO synthase expression and elevated NO signaling amplify vasorelaxation and attenuate vasocontraction of human colon cancer feed arteries. We propose that enhanced endothelial function augments tumor perfusion and represents a potential therapeutic target. NEW & NOTEWORTHY Local vascular resistance influences tumor perfusion. Arteries supplying human colonic adenocarcinomas show enhanced vasorelaxation and reduced vasocontraction mainly due to elevated nitric oxide-mediated signaling. Rhythmic oscillations in tone, known as vasomotion, are attenuated in colon cancer feed arteries.

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Ninna C. S. Voss

Targeting the Acidic Tumor Microenvironment: Unexpected Pro-Neoplastic Effects of Oral NaHCO3 Therapy in Murine Breast Tissue

Upregulated Na⁺/H⁺-Exchange Protects Human Colon Cancer Tissue against Intracellular Acidification

Enhanced nitric oxide signaling amplifies vasorelaxation of human colon cancer feed arteries

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Ninna C. S. Voss

Targeting the Acidic Tumor Microenvironment: Unexpected Pro-Neoplastic Effects of Oral NaHCO3 Therapy in Murine Breast Tissue

Upregulated Na+/H+-Exchange Protects Human Colon Cancer Tissue against Intracellular Acidification

Enhanced nitric oxide signaling amplifies vasorelaxation of human colon cancer feed arteries

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Product

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Upregulated Na⁺/H⁺-Exchange Protects Human Colon Cancer Tissue against Intracellular Acidification