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12 results on '"Gonthier, Kevin"'

1. The estrogen signaling pathway reprograms prostate cancer cell metabolism and supports proliferation and disease progression

Author

Lafront, Camille, Germain, Lucas, Campolina-Silva, Gabriel H., Weidmann, Cindy, Berthiaume, Line, Hovington, Helene, Brisson, Herve, Jobin, Cynthia, Fregeau-Proulx, Lilianne, Cotau, Raul, Gonthier, Kevin, Lacouture, Aurelie, Caron, Patrick, Menard, Claire, Atallah, Chantal, Riopel, Julie, Latulippe, Eva, Bergeron, Alain, Toren, Paul, Guillemette, Chantal, Pelletier, Martin, Fradet, Yves, Belleannee, Clemence, Pouliot, Frederic, Lacombe, Louis, Levesque, Eric, and Audet-Walsh, Etienne

Subjects
Estrogen -- Receptors, Prostate cancer -- Diagnosis -- Risk factors -- Development and progression, Health care industry
Abstract

Just like the androgen receptor (AR), the estrogen receptor [alpha] (ER[alpha]) is expressed in the prostate and is thought to influence prostate cancer (PCa) biology. Yet the incomplete understanding of ER[alpha] functions in PCa hinders our ability to fully comprehend its clinical relevance and restricts the repurposing of estrogen- targeted therapies for the treatment of this disease. Using 2 human PCa tissue microarray cohorts, we first demonstrate that nuclear ER[alpha] expression was heterogeneous among patients, being detected in only half of the tumors. Positive nuclear ER[alpha] levels were correlated with disease recurrence, progression to metastatic PCa, and patient survival. Using in vitro and in vivo models of the normal prostate and PCa, bulk and single-cell RNA-Seq analyses revealed that estrogens partially mimicked the androgen transcriptional response and activated specific biological pathways linked to proliferation and metabolism. Bioenergetic flux assays and metabolomics confirmed the regulation of cancer metabolism by estrogens, supporting proliferation. Using cancer cell lines and patient- derived organoids, selective estrogen receptor modulators, a pure anti-estrogen, and genetic approaches impaired cancer cell proliferation and growth in an ER[alpha]-dependent manner. Overall, our study revealed that, when expressed, ER[alpha] functionally reprogrammed PCa metabolism, was associated with disease progression, and could be targeted for therapeutic purposes., Introduction Prostate cancer (PCa) is the most common cancer for men in 112 countries (1). This disease is highly dependent on the androgen receptor (AR), a transcription factor that modulates [...]

Published
2024
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2. Multiple metabolic pathways fuel the truncated tricarboxylic acid cycle of the prostate to sustain constant citrate production and secretion

Author

Frégeau-Proulx, Lilianne, Lacouture, Aurélie, Berthiaume, Line, Weidmann, Cindy, Harvey, Mario, Gonthier, Kevin, Pelletier, Jean-François, Neveu, Bertrand, Jobin, Cynthia, Bastien, Dominic, Bergeron, Alain, Fradet, Yves, Lacombe, Louis, Laverdière, Isabelle, Atallah, Chantal, Pouliot, Frédéric, and Audet-Walsh, Étienne

Published
2022
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3. Isocitrate dehydrogenase 1 sustains a hybrid cytoplasmic–mitochondrial tricarboxylic acid cycle that can be targeted for therapeutic purposes in prostate cancer

Author

Gonthier, Kevin, primary, Weidmann, Cindy, additional, Berthiaume, Line, additional, Jobin, Cynthia, additional, Lacouture, Aurélie, additional, Lafront, Camille, additional, Harvey, Mario, additional, Neveu, Bertrand, additional, Loehr, Jérémy, additional, Bergeron, Alain, additional, Fradet, Yves, additional, Lacombe, Louis, additional, Riopel, Julie, additional, Latulippe, Éva, additional, Atallah, Chantal, additional, Shum, Michael, additional, Lambert, Jean‐Philippe, additional, Pouliot, Frédéric, additional, Pelletier, Martin, additional, and Audet‐Walsh, Étienne, additional

Published
2023
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4. Abstract 3700: Isocitrate dehydrogenase 1 sustains a hybrid cytoplasmic-mitochondrial tricarboxylic acid cycle in prostate cancer

Author

Gonthier, Kevin, primary, Weidmann, Cindy, additional, Berthiaume, Line, additional, Jobin, Cynthia, additional, Lacouture, Aurélie, additional, Lafront, Camille, additional, Harvey, Mario, additional, Neveu, Bertrand, additional, Loehr, Jérémy, additional, Bergeron, Alain, additional, Fradet, Yves, additional, Lacombe, Louis, additional, Riopel, Julie, additional, Latulippe, Éva, additional, Atallah, Chantal, additional, Shum, Michael, additional, Lambert, Jean-Philippe, additional, Pouliot, Frédéric, additional, Pelletier, Martin, additional, and Audet-Walsh, Étienne, additional

Published
2023
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12. Abundance and vertical distributions of zooplankton along the east-west gradient of phytoplankton biomass in the North Water (Arctic Ocean)

Author

Gonthier, Kevin

Subjects
North Water Polynya, Arctic Ocean, Fine-scale vertical distribution, Optical underwater imaging, Lightframe On-sight Keyspecies Investigation) LOKI, Copepods, Automatic Species identification
Abstract

In the Arctic Ocean copepods transfer energy produced by autotrophs to higher trophic levels. Net tows have long been used as the main zooplankton sampling tool but can hardly indicate the abundance and distribution of these animals on a fine-scale level. The LOKI (Lightframe On-sight Keyspecies Investigation) is an in-situ optical underwater imaging device capable of recording the vertical distribution of zooplankton at a scale of ~30-60 cm. Using this device, the fine-scale distribution of the key herbivorous copepods Calanus glacialis and C. hyperboreus as well as that of the omnivore Metridia longa was analyzed. It was investigated how the fine-scale vertical distribution of copepods was coupled to fluorescence of microalgae during the phytoplankton bloom and how that pattern differed between eastern and western North Water Polynya. Eastern and western NOW showed substantial differences in the fluorescence of microalgae which seemed to influence the fine-scale copepod distribution. Whereas copepod abundance and fluorescence seemed almost vertically separated on the Canadian side of the polynya, the abundance of the same taxa showed a strong vertical coupling with fluorescence on the Greenland side. The results suggest a strong influence of physical parameters in the NOW (e.g. temperature and upwelling), likely governed by the West Greenland Current and Baffin Island Current, on microalgae and hence fine-scale zooplankton distribution.

Published
2016
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