Inhibition of somatosensory mechanotransduction by annexin A6.
Ramin RaoufStéphane LolignierJane E SextonQueensta MilletSonia Santana-VarelaAnna M BillerAlice M FullerVanessa PereiraJyoti S ChoudharyMark O CollinsStephen E MossRichard James LewisJulie TordoEls HenckaertsMichael LindenJohn N WoodPublished in: Science signaling (2018)
Mechanically activated, slowly adapting currents in sensory neurons have been linked to noxious mechanosensation. The conotoxin NMB-1 (noxious mechanosensation blocker-1) blocks such currents and inhibits mechanical pain. Using a biotinylated form of NMB-1 in mass spectrometry analysis, we identified 67 binding proteins in sensory neurons and a sensory neuron-derived cell line, of which the top candidate was annexin A6, a membrane-associated calcium-binding protein. Annexin A6-deficient mice showed increased sensitivity to mechanical stimuli. Sensory neurons from these mice showed increased activity of the cation channel Piezo2, which mediates a rapidly adapting mechano-gated current linked to proprioception and touch, and a decrease in mechanically activated, slowly adapting currents. Conversely, overexpression of annexin A6 in sensory neurons inhibited rapidly adapting currents that were partially mediated by Piezo2. Furthermore, overexpression of annexin A6 in sensory neurons attenuated mechanical pain in a mouse model of osteoarthritis, a disease in which mechanically evoked pain is particularly problematic. These data suggest that annexin A6 can be exploited to inhibit chronic mechanical pain.
Keyphrases
- chronic pain
- spinal cord
- neuropathic pain
- pain management
- mass spectrometry
- mouse model
- cell proliferation
- binding protein
- spinal cord injury
- high resolution
- machine learning
- electronic health record
- big data
- ionic liquid
- skeletal muscle
- high performance liquid chromatography
- knee osteoarthritis
- angiotensin ii
- working memory
- simultaneous determination
- wild type