Patients with diarrhea-predominant irritable bowel syndrome (IBS-D) appear to have increased intestinal permeability; it has been suggested that activation of protease-activated receptor-2 (PAR-2) receptors is responsible for this alteration. The aims of this study are to evaluate (1) if rectal (large bowel) permeability is increased in IBS-D and (2) if tryptase plays a critical role in the altered permeability.

Rectal biopsies from 20 patients with IBS-D and 30 subjects without the condition (normal controls) were assessed for macromolecular permeability using horseradish peroxidase in Ussing chambers in the basal state and after addition of drugs to the basolateral side. Reverse-transcription polymerase chain reaction (RT-PCR) was performed using colonic biopsy tissues from patients with IBS-D and normal subjects.

When tryptase was added to the basolateral (not mucosal) side of normal rectal biopsy tissues, permeability appeared to be proportional to the increase in tryptase concentration (P�<�0.05) and was abolished by the addition of tryptase inhibitor (100�μM nafamostat; 1.568���0.874�ng/2�h/mm² to 0.766���0.661�ng/2�h/mm², n�=�14, respectively, P�<�0.01). Intestinal permeability in patients with IBS-D was significantly increased compared with controls (0.848���0.0.600�ng/2�h/mm², n�=�21, P�<�0.01). Nafamostat significantly reduced the enhanced permeability in IBS-D (0.934���0.589�ng/2�h/mm² to 0.247���0.263�ng/2�h/mm², n�=�14, respectively, P�<�0.05). Transcription levels of PAR2 measured by RT-PCR did not differ between IBS-D and normal subjects.

Tryptase seems to play an important role in the control of human colonic mucosal permeability, and enhanced tryptase activity was responsible for the increased permeability of rectal mucosa in IBS patients.