Chemotherapy-induced peripheral neurotoxicity is a common dose-limiting side effect of several cancer chemotherapeutic agents, and no effective therapies exist. Here we constructed a systems pharmacology model of intracellular signaling in peripheral neurons to identify novel drug targets for preventing peripheral neuropathy associated with proteasome inhibitors. Model predictions suggested the combinatorial inhibition of TNFα, NMDA receptors, and reactive oxygen species should prevent proteasome inhibitor-induced neuronal apoptosis. Dexanabinol, an inhibitor of all three targets, partially restored bortezomib-induced reduction of proximal action potential amplitude and distal nerve conduction velocity in vitro and prevented bortezomib-induced mechanical allodynia and thermal hyperalgesia in rats, including a partial recovery of intraepidermal nerve fiber density. Dexanabinol failed to restore bortezomib-induced decreases in electrophysiological endpoints in rats, and it did not compromise bortezomib anti-cancer effects in U266 multiple myeloma cells and a murine xenograft model. Owing to its favorable safety profile in humans and preclinical efficacy, dexanabinol might represent a treatment option for bortezomib-induced neuropathic pain.

Bloomingdale, P., Meregalli, C., Pollard, K., Canta, A., Chiorazzi, A., Fumagalli, G., et al. (2022). Systems Pharmacology Modeling Identifies a Novel Treatment Strategy for Bortezomib-Induced Neuropathic Pain. FRONTIERS IN PHARMACOLOGY, 12 [10.3389/fphar.2021.817236].

Systems Pharmacology Modeling Identifies a Novel Treatment Strategy for Bortezomib-Induced Neuropathic Pain

Meregalli, Cristina
Co-primo
;
Canta, Annalisa;Chiorazzi, Alessia;Fumagalli, Giulia;Monza, Laura;Pozzi, Eleonora;Alberti, Paola;Ballarini, Elisa;Oggioni, Norberto;Cavaletti, Guido
Co-ultimo
;
2022

Abstract

Chemotherapy-induced peripheral neurotoxicity is a common dose-limiting side effect of several cancer chemotherapeutic agents, and no effective therapies exist. Here we constructed a systems pharmacology model of intracellular signaling in peripheral neurons to identify novel drug targets for preventing peripheral neuropathy associated with proteasome inhibitors. Model predictions suggested the combinatorial inhibition of TNFα, NMDA receptors, and reactive oxygen species should prevent proteasome inhibitor-induced neuronal apoptosis. Dexanabinol, an inhibitor of all three targets, partially restored bortezomib-induced reduction of proximal action potential amplitude and distal nerve conduction velocity in vitro and prevented bortezomib-induced mechanical allodynia and thermal hyperalgesia in rats, including a partial recovery of intraepidermal nerve fiber density. Dexanabinol failed to restore bortezomib-induced decreases in electrophysiological endpoints in rats, and it did not compromise bortezomib anti-cancer effects in U266 multiple myeloma cells and a murine xenograft model. Owing to its favorable safety profile in humans and preclinical efficacy, dexanabinol might represent a treatment option for bortezomib-induced neuropathic pain.
Articolo in rivista - Articolo scientifico
bortezomib; dexanabinol; multiple myeloma; peripheral neuropathy; pharmacodynamics; systems pharmacology;
English
19-gen-2022
2022
12
817236
open
Bloomingdale, P., Meregalli, C., Pollard, K., Canta, A., Chiorazzi, A., Fumagalli, G., et al. (2022). Systems Pharmacology Modeling Identifies a Novel Treatment Strategy for Bortezomib-Induced Neuropathic Pain. FRONTIERS IN PHARMACOLOGY, 12 [10.3389/fphar.2021.817236].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10281/346138
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