Your search keyword '"Lamoine, Sylvain"' showing total 4 results

1. Epigenetics Involvement in Oxaliplatin-Induced Potassium Channel Transcriptional Downregulation and Hypersensitivity

Author

Pereira, Vanessa, Lamoine, Sylvain, Cuménal, Mélissa, Lolignier, Stéphane, Aissouni, Youssef, Pizzoccaro, Anne, Prival, Laetitia, Balayssac, David, Eschalier, Alain, Bourinet, Emmanuel, and Busserolles, Jérôme

Published

2021

2. The TREK-1 potassium channel is involved in both the analgesic and anti-proliferative effects of riluzole in bone cancer pain.

Author

Delanne-Cuménal, Mélissa, Lamoine, Sylvain, Meleine, Mathieu, Aissouni, Youssef, Prival, Laetitia, Fereyrolles, Mathilde, Barbier, Julie, Cercy, Christine, Boudieu, Ludivine, Schopp, Julien, Lazdunski, Michel, Eschalier, Alain, Lolignier, Stéphane, and Busserolles, Jérôme

Subjects

*CANCER pain, *POTASSIUM channels, *BONE cancer, *PROSTATE cancer, *RILUZOLE, *BONE remodeling, *HYPERPOLARIZATION (Cytology)

Abstract

The metastasis of tumors into bone tissue typically leads to intractable pain that is both very disabling and particularly difficult to manage. We investigated here whether riluzole could have beneficial effects for the treatment of prostate cancer-induced bone pain and how it could influence the development of bone metastasis. We used a bone pain model induced by intratibial injection of human PC3 prostate cancer cells into male SCID mice treated or not with riluzole administered in drinking water. We also used riluzole in vitro to assess its possible effect on PC3 cell viability and functionality, using patch-clamp. Riluzole had a significant preventive effect on both evoked and spontaneous pain involving the TREK-1 potassium channel. Riluzole did not interfere with PC3-induced bone loss or bone remodeling in vivo. It also significantly decreased PC3 cell viability in vitro. The antiproliferative effect of riluzole is correlated with a TREK-1-dependent membrane hyperpolarization in these cells. The present data suggest that riluzole could be very useful to manage evoked and spontaneous hypersensitivity in cancer-induced bone pain and has no significant adverse effect on cancer progression. [Display omitted] • Riluzole exerts an analgesic effect in a mice model of bone cancer pain. • The TREK-1 channel plays a central role in riluzole-induced analgesic effect. • Riluzole, per se, decreases human prostate cancer cell line viability in vitro. [ABSTRACT FROM AUTHOR]

Published

2024

3. Targeting the TREK-1 potassium channel via riluzole to eliminate the neuropathic and depressive-like effects of oxaliplatin.

Author

Poupon, Laura, Lamoine, Sylvain, Pereira, Vanessa, Barriere, David A., Lolignier, Stéphane, Giraudet, Fabrice, Aissouni, Youssef, Meleine, Mathieu, Prival, Laëtitia, Richard, Damien, Kerckhove, Nicolas, Authier, Nicolas, Balayssac, David, Eschalier, Alain, Lazdunski, Michel, and Busserolles, Jérôme

Subjects

*POTASSIUM channels, *RILUZOLE, *OXALIPLATIN, *DRUG side effects, *COLON cancer treatment, *NEUROTOXICOLOGY

Abstract

Abstract: Neurotoxicity remains the most common adverse effect of oxaliplatin, limiting its clinical use. In the present study, we developed a mouse model of chronic oxaliplatin-induced neuropathy, which mimics both sensory and motor deficits observed in patients, in a clinically relevant time course. Repeated oxaliplatin administration in mice induced both cephalic and extracephalic long lasting mechanical and cold hypersensitivity after the first injection as well as delayed sensorimotor deficits and a depression-like phenotype. Using this model, we report that riluzole prevents both sensory and motor deficits induced by oxaliplatin as well as the depression-like phenotype induced by cumulative chemotherapeutic drug doses. All the beneficial effects are due to riluzole action on the TREK-1 potassium channel, which plays a central role in its therapeutic action. Riluzole has no negative effect on oxaliplatin antiproliferative capacity in human colorectal cancer cells and on its anticancer effect in a mouse model of colorectal cancer. Moreover, riluzole decreases human colorectal cancer cell line viability in vitro and inhibits polyp development in vivo . The present data in mice may support the need to clinically test riluzole in oxaliplatin-treated cancer patients and state for the important role of the TREK-1 channel in pain perception. [ABSTRACT FROM AUTHOR]

Published

2018

4. The Class I HDAC Inhibitor, MS-275, Prevents Oxaliplatin-Induced Chronic Neuropathy and Potentiates Its Antiproliferative Activity in Mice.

Author

Lamoine, Sylvain, Cumenal, Mélissa, Barriere, David A., Pereira, Vanessa, Fereyrolles, Mathilde, Prival, Laëtitia, Barbier, Julie, Boudieu, Ludivine, Brasset, Emilie, Bertin, Benjamin, Renaud, Yoan, Miot-Noirault, Elisabeth, Civiale, Marie-Ange, Balayssac, David, Aissouni, Youssef, Eschalier, Alain, and Busserolles, Jérôme

Subjects

*CELL death, *HISTONE deacetylase inhibitors, *POTASSIUM channels, *HISTONE deacetylase, *ANTINEOPLASTIC agents, *TERMINATION of treatment

Abstract

Oxaliplatin, the first-line chemotherapeutic agent against colorectal cancer (CRC), induces peripheral neuropathies, which can lead to dose limitation and treatment discontinuation. Downregulation of potassium channels, which involves histone deacetylase (HDAC) activity, has been identified as an important tuner of acute oxaliplatin-induced hypersensitivity. MS-275, a class I histone deacetylase inhibitor (HDACi), prevents acute oxaliplatin-induced peripheral neuropathy (OIPN). Moreover, MS-275 exerts anti-tumor activity in several types of cancers, including CRC. We thus hypothesized that MS-275 could exert both a preventive effect against OIPN and potentially a synergistic effect combined with oxaliplatin against CRC development. We first used RNAseq to assess transcriptional changes occurring in DRG neurons from mice treated by repeated injection of oxaliplatin. Moreover, we assessed the effects of MS-275 on chronic oxaliplatin-induced peripheral neuropathy development in vivo on APCMin/+ mice and on cancer progression when combined with oxaliplatin, both in vivo on APCMin/+ mice and in a mouse model of an orthotopic allograft of the CT26 cell line as well as in vitro in T84 and HT29 human CRC cell lines. We found 741 differentially expressed genes (DEGs) between oxaliplatin- and vehicle-treated animals. While acute OIPN is known as a channelopathy involving HDAC activity, chronic OIPN exerts weak ion channel transcriptional changes and no HDAC expression changes in peripheral neurons from OIPN mice. However, MS-275 prevents the development of sensory neuropathic symptoms induced by repeated oxaliplatin administration in APCMin/+ mice. Moreover, combined with oxaliplatin, MS-275 also exerts synergistic antiproliferative and increased survival effects in CT26-bearing mice. Consistently, combined drug associations exert synergic apoptotic and cell death effects in both T84 and HT29 human CRC cell lines. Our results strongly suggest combining oxaliplatin and MS-275 administration in CRC patients in order to potentiate the antiproliferative action of chemotherapy, while preventing its neurotoxic effect. [ABSTRACT FROM AUTHOR]

Published

2022