Vagal afferent mechanoreceptors in the upper gut have recently been identified morphologically as intraganglionic laminar endings (IGLEs), but little is known about the structure of mechanoreceptive endings elsewhere in the gastrointestinal tract. We have morphologically characterized the nerve endings of specialized mechanoreceptors in the rectum.

Extracellular recordings from guinea pig rectal and colonic nerves were made, in vitro, in combination with rapid anterograde transport of biotinamide, to reveal the morphology of recorded fibers. Controlled distentions were used to activate mechanoreceptive afferent units, and von Frey hairs were used to identify their transduction sites.

Rectal mechanoreceptors were present in high density, had low thresholds, and adapted slowly to maintained distention. Each afferent unit had multiple small (<200-μm diameter) transduction sites (“hot spots”) at which they could be activated locally by application of a light von Frey hair (0.08–7 mN). Anterograde dye filling revealed characteristic rectal intraganglionic laminar endings (rIGLEs) in myenteric ganglia, significantly associated with hot spots, comparable to the IGLEs of vagal tension receptors, but smaller and less complex. Afferent fibers with these morphologic and physiologic features could not be recorded from colonic nerves innervating the large bowel proximal to the rectum.

The rectum receives a dense afferent innervation by a distinct population of low-threshold, slowly adapting mechanoreceptors with specialized intraganglionic laminar endings (rIGLEs), which are not found more proximally in the colon.