The enrichment of specific metabolites within the tumor microenvironment is emerging as a driver of tumor progression. Specifically, in prostate cancer (PCa), increased abundance of lactate is associated with primary-to-metastasis tumor spreading by supporting cancer cell invasiveness. Here, we highlight that the endocannabinoid receptor GPR55 is able to sense lactate and consequently trigger PCa cell amoeboid-like invasiveness, through the activation of the pro-migratory RhoA/MLC2 signaling pathway. These findings uncover a new role for GPR55 in sustaining lactate-driven PCa cell motility.
GPR55 senses lactate to sustain motility in prostate cancer cells / Sgrignani, Giovanna; Iozzo, Marta; Di Leonardo, Lara; Pardella, Elisa; Pranzini, Erica; Gangarossa, Giulia; Comito, Giuseppina; Ippolito, Luigi; Giannoni, Elisa; Chiarugi, Paola. - In: MOLECULAR AND CELLULAR BIOCHEMISTRY. - ISSN 1573-4919. - ELETTRONICO. - 480:(2025), pp. 5197-5204. [10.1007/s11010-025-05312-0]
GPR55 senses lactate to sustain motility in prostate cancer cells
Sgrignani, Giovanna;Iozzo, Marta;Di Leonardo, Lara;Pardella, Elisa;Pranzini, Erica;Gangarossa, Giulia;Comito, Giuseppina;Ippolito, Luigi
;Giannoni, Elisa;Chiarugi, Paola
2025
Abstract
The enrichment of specific metabolites within the tumor microenvironment is emerging as a driver of tumor progression. Specifically, in prostate cancer (PCa), increased abundance of lactate is associated with primary-to-metastasis tumor spreading by supporting cancer cell invasiveness. Here, we highlight that the endocannabinoid receptor GPR55 is able to sense lactate and consequently trigger PCa cell amoeboid-like invasiveness, through the activation of the pro-migratory RhoA/MLC2 signaling pathway. These findings uncover a new role for GPR55 in sustaining lactate-driven PCa cell motility.
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Descrizione: GPR55 senses lactate to sustain motility in prostate cancer cells
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