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Kv1.3 activity perturbs the homeostatic properties of astrocytes in glioma.
Grimaldi, Alfonso; D'Alessandro, Giuseppina; Di Castro, Maria Amalia; Lauro, Clotilde; Singh, Vikrant; Pagani, Francesca; Sforna, Luigi; Grassi, Francesca; Di Angelantonio, Silvia; Catacuzzeno, Luigi; Wulff, Heike; Limatola, Cristina; Catalano, Myriam.
Affiliation
  • Grimaldi A; Center for Life Nanoscience - Istituto Italiano di Tecnologia@Sapienza, Viale Regina Elena, 291-00185, Rome, Italy.
  • D'Alessandro G; IRCCS Neuromed, Via Atinense 18, 86077, Pozzilli, IS, Italy.
  • Di Castro MA; Department of Physiology and Pharmacology, Sapienza University, Piazzale Aldo Moro, 5-00185, Rome, Italy.
  • Lauro C; Department of Physiology and Pharmacology, Sapienza University, Piazzale Aldo Moro, 5-00185, Rome, Italy.
  • Singh V; Department of Pharmacology, University of California Davis, 451 Health Sciences Drive, Davis, CA, 95616, USA.
  • Pagani F; Center for Life Nanoscience - Istituto Italiano di Tecnologia@Sapienza, Viale Regina Elena, 291-00185, Rome, Italy.
  • Sforna L; Department of Experimental Medicine, Section of Physiology and Biochemistry, University of Perugia, Piazzale Gambuli - 06123, Perugia, Italy.
  • Grassi F; Department of Physiology and Pharmacology, Sapienza University, Piazzale Aldo Moro, 5-00185, Rome, Italy.
  • Di Angelantonio S; Center for Life Nanoscience - Istituto Italiano di Tecnologia@Sapienza, Viale Regina Elena, 291-00185, Rome, Italy.
  • Catacuzzeno L; Department of Physiology and Pharmacology, Sapienza University, Piazzale Aldo Moro, 5-00185, Rome, Italy.
  • Wulff H; Department of Chemistry Biology and Biotechnology, University of Perugia, Via Elce di sotto, 8 - 06123, Perugia, Italy.
  • Limatola C; Department of Pharmacology, University of California Davis, 451 Health Sciences Drive, Davis, CA, 95616, USA.
  • Catalano M; IRCCS Neuromed, Via Atinense 18, 86077, Pozzilli, IS, Italy. cristina.limatola@uniroma1.it.
Sci Rep ; 8(1): 7654, 2018 05 16.
Article in En | MEDLINE | ID: mdl-29769580
Glial cells actively maintain the homeostasis of brain parenchyma, regulating neuronal excitability and preserving the physiological composition of the extracellular milieu. Under pathological conditions, some functions of glial cells could be compromised, exacerbating the neurotoxic processes. We investigated if the homeostatic activities of astrocytes and microglia could be modulated by the voltage-gated K+ channel Kv1.3. To this end we used in vitro and in vivo systems to model cell-to-cell interactions in tumoral conditions, using a specific inhibitor of Kv1.3 channels, 5-(4-phenoxybutoxy) psoralen (PAP-1). We demonstrated that PAP-1 increases astrocytic glutamate uptake, reduces glioma-induced neurotoxicity, and decreases microglial migration and phagocytosis. We also found in a tumor blood brain barrier model that Kv1.3 activity is required for its integrity. The crucial role of Kv1.3 channels as modulators of glial cell activity was confirmed in a mouse model of glioma, where PAP-1 treatment reduces tumor volume only in the presence of active glutamate transporters GLT-1. In the same mouse model, PAP-1 reduces astrogliosis and microglial infiltration. PAP-1 also reduces tumor cell invasion. All these findings point to Kv1.3 channels as potential targets to re-instruct glial cells toward their homeostatic functions, in the context of brain tumors.
Subject(s)

Full text: 1 Collection: 01-internacional Database: MEDLINE Main subject: Potassium / Astrocytes / Kv1.3 Potassium Channel / Glioma / Homeostasis Type of study: Prognostic_studies Limits: Animals Language: En Journal: Sci Rep Year: 2018 Document type: Article Affiliation country: Italy Country of publication: United kingdom

Full text: 1 Collection: 01-internacional Database: MEDLINE Main subject: Potassium / Astrocytes / Kv1.3 Potassium Channel / Glioma / Homeostasis Type of study: Prognostic_studies Limits: Animals Language: En Journal: Sci Rep Year: 2018 Document type: Article Affiliation country: Italy Country of publication: United kingdom