A neuronal subpopulation in the mammalian enteric nervous system expresses TrkA and TrkC neurotrophin receptor-like proteins.

Increasing evidence suggests that, in addition to peripheral sensory and sympathetic neurons, the enteric neurons are also under the control of neurotrophins. Recently, neurotrophin receptors have been detected in the developing and adult mammalian enteric nervous system (ENS). Nevertheless, it remains to be established whether neurotrophin receptors are expressed in all enteric neurons and/or in glial cells and whether expression is a common feature in the enteric nervous system of all mammals or if interspecific differences exist. Rabbit polyclonal antibodies against Trk proteins (regarded as essential constituents of the high-affinity signal-transducing neurotrophin receptors) and p75 protein (considered as a low-affinity pan-neurotrophin receptor) were used to investigate the cell localization of these proteins in the ENS of adult man, horse, cow, sheep, pig, rabbit, and rat. Moreover, the percentage of neurons displaying immunoreactivity (IR) for each neurotrophin receptor protein was determined. TrkA-like IR and TrkC-like IR were observed in a neuronal subpopulation in both the myenteric and submucous plexuses, from esophagus to rectum in humans, and in the jejunum-ileum of the other species. Many neurons, and apparently all glial cells, in the human and rat enteric nervous system also displayed p75 IR. TrkB-like IR was found restricted to the glial cells of all species studied, with the exception of humans, in whom IR was mainly in glial cells and a small percentage of enteric neurons (about 5%). These findings indicate that the ENS of adult mammals express neuronal TrkA and TrkC, glial TrkB, and neuronal-glial p75, this pattern of distribution being similar in all examined species. Thus, influence of specific neurotrophins on their cognate receptors may be considered in the physiology and/or pathology of the adult ENS.

Immunohistochemical localization of S100 proteins in dorsal root, sympathetic and enteric ganglia of several mammalian species, including man.

The occurrence of S100 proteins in neurons of the mammalian peripheral nervous system is still controversial. This study was designed to investigate this topic in dorsal root ganglia (DRG) and the enteric nervous system (ENS) of several mammalian species (horse, buffalo, cow, sheep, pig, dog, rabbit and rat), as well as in DRG, paravertebral sympathetic ganglia (SG) and ENS of the adult man. Rat embryos of E17 and E19 were also examined. The material was fixed in Bouin's fixative, paraffin-embedded and processed for immunohistochemistry, combined with image analysis, using a panel of mono and polyclonal antibodies against S100alpha, S100beta or S100alpha + beta (referred to here as S100) proteins. In all species examined, strong S100 protein immunoreactivity (IR) was found in satellite glial cells and Schwann cells, which also showed S100alpha and S100beta IR in humans. Furthermore, faint S100 protein IR was observed in a subpopulation of DRG intermediate- and large-sized sensory neurons in humans, buffalo, sheep, and pig. The rat was the only species showing clear S100 and S100beta in neurons, labelling in about 30-35% in adults (small, intermediate and large in size), and about 88% at E17 and 42% at E19, respectively. Weak S100alpha protein IR was observed in most of human SG neurons. In ENS, S100 protein IR was restricted to enteric glial and Schwann cells, with the exception of cow and goat in which a subset of neurons in both the myenteric and submucous plexuses displayed strong S100 protein IR. Neuronal S100alpha IR and glial S100beta IR was found in the human ENS. The present results demonstrate intra- and inter-specific differences in the expression of S100 proteins by neurons of the peripheral nervous system among mammalian species. Furthermore, they also suggest that neuronal S100 protein, at least in humans, consists of both S100alpha and S100beta.

Neurotrophin receptor-like proteins in Peyer's patches.

BACKGROUND: The neurotrophins are a family of growth factors that act on responsive cells through specific high-affinity signal-transducing receptors called Trk (A, B, and C) proteins. The neurotrophin receptor proteins are widely distributed in both nervous and nonnervous tissues, including the lymphoid organs. The expression of these receptor proteins by a cell population is an indication of responsiveness to the respective binding neurotrophin. The present study investigated the presence and cellular localization of high-affinity neurotrophin receptor proteins in equine and bovine Peyer's patches. METHODS: Peyer's patches from horse and cow intestine were fixed in Bouin's fixative, embedded in paraffin cut 10 microns thick, and studied immunohistochemically using rabbit polyclonal antibodies against specific epitopes of the intracellular domain of the Trk receptor proteins. RESULTS: Immunoreactivity (IR) for Trk-like proteins was found in specific cell populations in Peyer's patches. TrkA-IR in the horse was localized in dendritic cells of the interfollicular T-cell zones and in follicular dendritic cells of the lymphoid follicles; in the cow, TrkA-ir was present in reticulum cells. TrkB-like IR was present in cells found inside lymphoid follicles of the horse, probably reticulum cells. Furthermore, in both species, TrkB-IR was found in interstitial dendritic cells and/or macrophages of the intestinal lamina propria. No specific TrkC-like immunostaining was found in immunocompetent cells of Peyer's patches. CONCLUSIONS: Present findings demonstrate that, as in other lymphoid organs, the accessory nonlymphoid cells express immunoreactivity for high-affinity neurotrophin receptor proteins. These results seem to favor the notion that neurotrophins, especially nerve growth factor, could have a physiological role in secondary lymphoid organs, possibly acting on accessory cells and not directly on lymphocytes.

Neurotrophin receptor proteins immunoreactivity in human gastrointestinal endocrine cells.

The distribution of neurotrophin receptors (p75, trkA-, trkB-, and trkC-receptor proteins) was studied by immunohistochemistry on sections of human gastrointestinal tract mucosa from esophagus through rectum. Moreover, chromogranin A (CgA) was studied in parallel to identify endocrine cells (EC). In all of the analyzed samples there was specific immunoreactivity (IR) for trkB-receptor protein in EC, the percentage of which varied between 26 +/- 0.6% for the duodenum and 78 +/- 3% for the sigmoid colon. EC displaying trkC-receptor protein IR were also encountered, in some cases, in EC of the gastric fundus (9%), duodenum (12%), jejune (23%), and colon (12%); trkA-receptor protein IR was occasionally present labelling EC in the jejune (52%), ileum (25%), and sigmoid colon (18%); finally, p75 was in 21% of EC exclusively in one case in the ileum. In addition to EC, IR for all assessed antigens was also present in the submucous blood vessels. Our results provide evidence for the occurrence of neurotrophin receptor proteins in nonneuronal tissues and suggest that neurotrophins, especially that binding trkB receptor proteins, can regulate a subpopulation of EC cells. However, whether EC expressing different trk receptor proteins represent neurochemical subtypes of EC, and whether the identified trk receptor proteins correspond to functional receptors, remain to be elucidated.