Tissue Acidosis and Inflammation Related Nociceptive Pain

Important Implications for Inflammatory Pain StatesInflammatory pain is often accompanied by a drop in pH (Acidosis). Here investigators hypothesized that modest drops in extracellular pH leading to calcium fluxes acts like a dynamic switch to rapidly mobilize trkA to the cell membrane surface of adult sensory neurons, which in turn serves to increase the sensitivity of these neurons to NGF. The findings reveal a cellular mechanism whereby even small changes in pH can rapidly shift sensitivity to a critical driver of the inflammatory pain state—NGF. They way they demonstrate this shift is quite ingenious: Geoffrey E. Bray, Zhengxin Ying, Landon D. Baillie, Ruiling Zhai, Sean J. Mulligan, and Valerie M.K. Verge. Extracellular pH and Neuronal Depolarization Serve as Dynamic Switches to Rapidly Mobilize trkA to the Membrane of Adult Sensory Neurons. The Journal of Neuroscience, 8 May 2013, 33(19):8202-8215; doi:10.1523/JNEUROSCI.4408-12.2013. Images: NGF-responsive adult sensory neurons have a large cytoplasmic pool of high-affinity NGF receptors. Six micrometer cryostat sections of L5 DRG processed for high-affinity NGF binding (left) or trkA immunohistochemistry (right) reveal a large cytoplasmic pool of proteins that are able to bind 20 pm radio-iodinated NGF with high affinity or that are immunoreactive to trkA-selective antibodies. Scale bar, 20 μm. Here're images showing the pH Related switch and rapid migration of TrkA to the membraneImages: Acidic pH challenge rapid...
Source: Neuromics - Category: Neuroscience Tags: Inflammatory pain CGRP NGF ACIC3 phospho-TrkA antibody Substance P P2X3 TRPV1 Tissue Acidosis Source Type: news