Pain hypersensitivity is dependent on autophagy protein Beclin 1 in males but not females

Abstract

ABSTRACTChronic pain is a pervasive health, social, and economic problem affecting 1 in 5 individuals around the world. Increasingly, it is understood that alterations in fundamental cell biological processes are critical for chronic pain. A prominent cellular process is autophagy but whether it plays a role in pain is unknown. To investigate whether autophagy is involved in pain processing and is targetable for pain relief, we focused on Beclin 1, a component of the class III phosphatidylinositol 3-kinase (PI3K) complex necessary for initiating autophagy. Here, we found that inflammatory pain hypersensitivity in male mice lacking one allele ofBecn1is significantly greater than that in wild type mice. By contrast, in female mice, loss ofBecn1did not affect inflammation-induced pain hypersensitivity. Further, intrathecal delivery of an activator of Beclin 1, tat-beclin 1, reversed mechanical hypersensitivity induced by peripheral inflammation or peripheral nerve injury in males. Tat-beclin 1 also prevented mechanical hypersensitivity induced by exogenous brain-derived neurotrophic factor (BDNF), a core mediator of inflammatory and neuropathic pain in the spinal dorsal horn in males. Pain signaling pathways converge on enhancement ofN-methyl-D-aspartate receptors (NMDARs) in spinal dorsal horn neurons. We found that loss of Beclin 1 increases expression of the pain-critical NMDAR subunit, GluN2B, in the dorsal horn and upregulates synaptic NMDAR-mediated currents in dorsal horn neurons from males but not females. From our converging lines of evidence, we conclude that inhibition of Beclin 1 in the dorsal horn is critical in mediating inflammatory and neuropathic pain signaling pathways in males. Our findings provide the basis for sex-specific therapeutic approaches targeting pain with a new class of analgesics - activators of Beclin 1.