The Role of Lactate Metabolism in Prostate Cancer Progression and Metastases Revealed by Dual-Agent Hyperpolarized (13)C MRSI

This study applied a dual-agent, (13)C-pyruvate and (13)C-urea, hyperpolarized (13)C magnetic resonance spectroscopic imaging (MRSI) and multi-parametric (mp) (1)H magnetic resonance imaging (MRI) approach in the transgenic adenocarcinoma of mouse prostate (TRAMP) model to investigate changes in tum...

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Autores principales: Bok, Robert, Lee, Jessie, Sriram, Renuka, Keshari, Kayvan, Sukumar, Subramaniam, Daneshmandi, Saeed, Korenchan, David E., Flavell, Robert R., Vigneron, Daniel B., Kurhanewicz, John, Seth, Pankaj
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2019
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Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6406929/
https://www.ncbi.nlm.nih.gov/pubmed/30813322
http://dx.doi.org/10.3390/cancers11020257
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author Bok, Robert
Lee, Jessie
Sriram, Renuka
Keshari, Kayvan
Sukumar, Subramaniam
Daneshmandi, Saeed
Korenchan, David E.
Flavell, Robert R.
Vigneron, Daniel B.
Kurhanewicz, John
Seth, Pankaj
author_facet Bok, Robert
Lee, Jessie
Sriram, Renuka
Keshari, Kayvan
Sukumar, Subramaniam
Daneshmandi, Saeed
Korenchan, David E.
Flavell, Robert R.
Vigneron, Daniel B.
Kurhanewicz, John
Seth, Pankaj
author_sort Bok, Robert
collection PubMed
description This study applied a dual-agent, (13)C-pyruvate and (13)C-urea, hyperpolarized (13)C magnetic resonance spectroscopic imaging (MRSI) and multi-parametric (mp) (1)H magnetic resonance imaging (MRI) approach in the transgenic adenocarcinoma of mouse prostate (TRAMP) model to investigate changes in tumor perfusion and lactate metabolism during prostate cancer development, progression and metastases, and after lactate dehydrogenase-A (LDHA) knock-out. An increased Warburg effect, as measured by an elevated hyperpolarized (HP) Lactate/Pyruvate (Lac/Pyr) ratio, and associated Ldha expression and LDH activity were significantly higher in high- versus low-grade TRAMP tumors and normal prostates. The hypoxic tumor microenvironment in high-grade tumors, as measured by significantly decreased HP (13)C-urea perfusion and increased PIM staining, played a key role in increasing lactate production through increased Hif1α and then Ldha expression. Increased lactate induced Mct4 expression and an acidic tumor microenvironment that provided a potential mechanism for the observed high rate of lymph node (86%) and liver (33%) metastases. The Ldha knockdown in the triple-transgenic mouse model of prostate cancer resulted in a significant reduction in HP Lac/Pyr, which preceded a reduction in tumor volume or apparent water diffusion coefficient (ADC). The Ldha gene knockdown significantly reduced primary tumor growth and reduced lymph node and visceral metastases. These data suggested a metabolic transformation from low- to high-grade prostate cancer including an increased Warburg effect, decreased perfusion, and increased metastatic potential. Moreover, these data suggested that LDH activity and lactate are required for tumor progression. The lactate metabolism changes during prostate cancer provided the motivation for applying hyperpolarized (13)C MRSI to detect aggressive disease at diagnosis and predict early therapeutic response.
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spelling pubmed-64069292019-03-21 The Role of Lactate Metabolism in Prostate Cancer Progression and Metastases Revealed by Dual-Agent Hyperpolarized (13)C MRSI Bok, Robert Lee, Jessie Sriram, Renuka Keshari, Kayvan Sukumar, Subramaniam Daneshmandi, Saeed Korenchan, David E. Flavell, Robert R. Vigneron, Daniel B. Kurhanewicz, John Seth, Pankaj Cancers (Basel) Article This study applied a dual-agent, (13)C-pyruvate and (13)C-urea, hyperpolarized (13)C magnetic resonance spectroscopic imaging (MRSI) and multi-parametric (mp) (1)H magnetic resonance imaging (MRI) approach in the transgenic adenocarcinoma of mouse prostate (TRAMP) model to investigate changes in tumor perfusion and lactate metabolism during prostate cancer development, progression and metastases, and after lactate dehydrogenase-A (LDHA) knock-out. An increased Warburg effect, as measured by an elevated hyperpolarized (HP) Lactate/Pyruvate (Lac/Pyr) ratio, and associated Ldha expression and LDH activity were significantly higher in high- versus low-grade TRAMP tumors and normal prostates. The hypoxic tumor microenvironment in high-grade tumors, as measured by significantly decreased HP (13)C-urea perfusion and increased PIM staining, played a key role in increasing lactate production through increased Hif1α and then Ldha expression. Increased lactate induced Mct4 expression and an acidic tumor microenvironment that provided a potential mechanism for the observed high rate of lymph node (86%) and liver (33%) metastases. The Ldha knockdown in the triple-transgenic mouse model of prostate cancer resulted in a significant reduction in HP Lac/Pyr, which preceded a reduction in tumor volume or apparent water diffusion coefficient (ADC). The Ldha gene knockdown significantly reduced primary tumor growth and reduced lymph node and visceral metastases. These data suggested a metabolic transformation from low- to high-grade prostate cancer including an increased Warburg effect, decreased perfusion, and increased metastatic potential. Moreover, these data suggested that LDH activity and lactate are required for tumor progression. The lactate metabolism changes during prostate cancer provided the motivation for applying hyperpolarized (13)C MRSI to detect aggressive disease at diagnosis and predict early therapeutic response. MDPI 2019-02-22 /pmc/articles/PMC6406929/ /pubmed/30813322 http://dx.doi.org/10.3390/cancers11020257 Text en © 2019 by the authors. Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (http://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Bok, Robert
Lee, Jessie
Sriram, Renuka
Keshari, Kayvan
Sukumar, Subramaniam
Daneshmandi, Saeed
Korenchan, David E.
Flavell, Robert R.
Vigneron, Daniel B.
Kurhanewicz, John
Seth, Pankaj
The Role of Lactate Metabolism in Prostate Cancer Progression and Metastases Revealed by Dual-Agent Hyperpolarized (13)C MRSI
title The Role of Lactate Metabolism in Prostate Cancer Progression and Metastases Revealed by Dual-Agent Hyperpolarized (13)C MRSI
title_full The Role of Lactate Metabolism in Prostate Cancer Progression and Metastases Revealed by Dual-Agent Hyperpolarized (13)C MRSI
title_fullStr The Role of Lactate Metabolism in Prostate Cancer Progression and Metastases Revealed by Dual-Agent Hyperpolarized (13)C MRSI
title_full_unstemmed The Role of Lactate Metabolism in Prostate Cancer Progression and Metastases Revealed by Dual-Agent Hyperpolarized (13)C MRSI
title_short The Role of Lactate Metabolism in Prostate Cancer Progression and Metastases Revealed by Dual-Agent Hyperpolarized (13)C MRSI
title_sort role of lactate metabolism in prostate cancer progression and metastases revealed by dual-agent hyperpolarized (13)c mrsi
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6406929/
https://www.ncbi.nlm.nih.gov/pubmed/30813322
http://dx.doi.org/10.3390/cancers11020257
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