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Amelioration of cisplatin-induced experimental peripheral neuropathy by a small molecule targeting p75(NTR.) Neurotoxicology Friesland, A., Weng, Z., Duenas, M., Massa, S. M., Longo, F. M., Lu, Q. 2014


Cisplatin is an effective and widely used first-line chemotherapeutic drug for treating cancers. However, many patients sustain cisplatin-induced peripheral neuropathy (CIPN), often leading to a reduction in drug dosages or complete cessation of treatment altogether. Therefore, it is important to understand cisplatin mechanisms in peripheral nerve tissue mediating its toxicity and identify signaling pathways for potential intervention. Rho GTPase activation is increased following trauma in several models of neuronal injury. Thus, we investigated whether components of the Rho signaling pathway represent important neuroprotective targets with the potential to ameliorate CIPN and thereby optimize current chemotherapy treatment regimens. We have developed a novel CIPN model in the mouse. Using this model and primary neuronal culture, we determined whether LM11A-31, a small-molecule, orally bioavailable ligand of the p75 neurotrophin receptor (p75(NTR)), can modulate Rho GTPase signaling and reduce CIPN. Von Frey filament analysis of sural nerve function showed that LM11A-31 treatment prevented decreases in peripheral nerve sensation seen with cisplatin treatment. Morphometric analysis of harvested sural nerves revealed that cisplatin-induced abnormal nerve fiber morphology and the decreases in fiber area were alleviated with concurrent LM11A-31 treatment. Cisplatin treatment increased RhoA activity accompanied by the reduced tyrosine phosphorylation of SHP-2, which was reversed by LM11A-31. LM11A-31 also countered the effects of calpeptin, which activated RhoA by inhibiting SHP-2 tyrosine phosphatase. Therefore, suppression of RhoA signaling by LM11A-31 that blocks proNGF binding to p75(NTR) or activates SHP-2 tyrosine phosphatase downstream of NGF receptor enhances neuroprotection in experimental CIPN in mouse model.

View details for DOI 10.1016/j.neuro.2014.09.005

View details for PubMedID 25277379