Abstract
Current treatment protocols for most types of cancers require chemotherapeutic agents that are associated with significant side effects, including chemotherapy-induced peripheral neuropathy (CIPN). Currently, there are no effective CIPN prevention strategies, and current treatment approaches remain limited. The enzyme purine nucleoside phosphorylase (PNPase) actively modulates both oxidative injury and cellular damage. Here, we tested the hypothesis that the signs and symptoms of CIPN are due to a chemotherapy-induced dysregulation of the purine metabolome. We assessed the effect of PNPase inhibition on paclitaxel-induced (PAC-induced) CIPN. Female adult Sprague-Dawley rats were treated with PAC and randomized to oral treatment with either the PNPase inhibitor 8-aminoguanine (8-AG) or its vehicle. Some rats were injected with shRNA against PNPase prior to PAC injections. PAC-treated rats exhibited multiple abnormalities: mechanical allodynia and changes in damaging purines, intraepidermal nerve fiber (IENF) density, and signaling cascades involved in mitochondrial disruption and axonal damage. Inhibition of PNPase improved behavioral function (mechanical allodynia), rescued the loss/damage of IENF, and normalized markers for mitochondrial dysfunction and nerve damage. These findings support the hypothesis that inhibition of PNPase prevented (and potentially reversed) CIPN through several mechanisms that included a reduction in neuronal damage and development of mechanical allodynia.
Authors
Lori A. Birder, Amanda Wolf-Johnston, Jonathan Franks, Mara L.G. Sullivan, Simon C. Watkins, Anthony J. Kanai, Vladimir B. Ritov, Edwin K. Jackson
Figure 1
8-Aminoguanine attenuates PAC-related changes in proinflammatory purines and biomarkers for oxidative stress.
