Abstract Background Abdominal pain is a cause of significant morbidity for people with colitis. We have previously shown that biopsy samples from people with Crohn’s disease (CD) are pro-nociceptive suggesting that peripheral nociceptor activation is a cause of pain in colitis. Furthermore, these effects were correlated with biopsy expression of macrophage metalloproteinase (MMP12), which was shown to stimulate mouse and human colonic nociceptors highlighting the potential utility of MMP12 inhibitors to act as visceral analgesics. Following on from this work we sought to determine the contribution of proteinase-activated receptor 1 (PAR1) to MMP12 mediated nociceptor activation. Methods MMP12 mediated sensory neuron activation: changes in the intracellular [Ca2+]i within thoracolumbar (T12-L5 spinal segments) dorsal root ganglia sensory neurons were examined in cells cultured overnight and loaded with Fluo-4-AM (30min) prior to imaging. Responses were measured to MMP12 or the PAR1 receptor agonists TRAP6 following pre-treatment with vehicle, the MMP12 inhibitor MMP408 or the PAR1 antagonist SCH79797. Afterwards cells were exposed to capsaicin (1 µM) followed by 50 mM KCl, to confirm the presence of nociceptors and neurons respectively by positive response. MMP12 mediated colonic nociceptor activation: electrophysiological recordings were made of lumbar splanchnic nerve activity and of the isolated colorectum (ex-vivo) perfused with carbogenated Krebs solution, and responses determined following application with MMP12 alone or in the presence of respective MMP12 or PAR1 inhibitors. All experiments were performed using tissue from male C57/B6 mice euthanised by rising concentration of CO2followed by exsanguination in accordance with Schedule 1 of the UK Animals Scientific Procedures act (1986). Results Application of MMP12 or TRAP6 produced a robust increase in [Ca2+]i levels in DRG sensory neurons classified as nociceptors by their co-sensitivity to capsaicin. These effects were significantly attenuated by pre-treatment with respective MMP12 or PAR1 inhibitors, with the response to MMP12 also being inhibited by PAR1 antagonist pre-treatment. Consistent with this pattern of nociceptor stimulation, the application of MMP12 also a robust activation of colonic afferents that was abolished by inhibition of MMP12 or PAR1 activity. Conclusion Findings demonstrate that MMP12 stimulates colonic afferents, and nociceptors through the activation of PAR1.