LRIG1 Regulates Ontogeny of Smooth Muscle-Derived Subsets of Interstitial Cells of Cajal in Mice.

BACKGROUND & AIMS: Interstitial cells of Cajal (ICC) control intestinal smooth muscle contraction to regulate gut motility. ICC within the plane of the myenteric plexus (ICC-MY) arise from KIT-positive progenitor cells during mouse embryogenesis. However, little is known about the ontogeny of ICC associated with the deep muscular plexus (ICC-DMP) in the small intestine and ICC associated with the submucosal plexus (ICC-SMP) in the colon. Leucine-rich repeats and immunoglobulin-like domains protein 1 (LRIG1) marks intestinal epithelial stem cells, but the role of LRIG1 in nonepithelial intestinal cells has not been identified. We sought to determine the ontogeny of ICC-DMP and ICC-SMP, and whether LRIG1 has a role in their development. METHODS: Lrig1-null mice (homozygous Lrig1-CreERT2) and wild-type mice were analyzed by immunofluorescence and transit assays. Transit was evaluated by passage of orally administered rhodamine B-conjugated dextran. Lrig1-CreERT2 mice or mice with CreERT2 under control of an inducible smooth muscle promoter (Myh11-CreERT2) were crossed with Rosa26-LSL-YFP mice for lineage tracing analysis. RESULTS: In immunofluorescence assays, ICC-DMP and ICC-SMP were found to express LRIG1. Based on lineage tracing, ICC-DMP and ICC-SMP each arose from LRIG1-positive smooth muscle progenitors. In Lrig1-null mice, there was loss of staining for KIT in DMP and SMP regions, as well as for 2 additional ICC markers (anoctamin-1 and neurokinin 1 receptor). Lrig1-null mice had significant delays in small intestinal transit compared with control mice. CONCLUSIONS: LRIG1 regulates the postnatal development of ICC-DMP and ICC-SMP from smooth muscle progenitors in mice. Slowed small intestinal transit observed in Lrig1-null mice may be due, at least in part, to loss of the ICC-DMP population.

Submucosal plexus of dilatated gut disappears after ligation in chicken embryos: preliminary results.

INTRODUCTION: Dilatation and impaired function of the gut is a condition often seen in newborns with bowel obstruction caused by intestinal atresia. In a previous experimental study in chicken embryos, we established a model to study ultrastructural changes during the development of the enteric nervous system after small bowel ligation. The aim of this study is to investigate the changes of the enteric nervous system (ENS) after gut ligation. METHODS: 56 chicken embryos were investigated. In the operation group fertilized eggs and the allantoic membrane were opened and the small bowel was ligated on embryonal day (ED) 11. The controls were sham-operated. The gut was prepared and harvested for analysis on ED 11, 12, 13, 14, 15, 16, 17 and 18. Silver staining or staining of the specimens for acetylcholinesterase (AchE) was performed. RESULTS: A marked dilatation of the bowel was observed three days after operation (ED 14). The submucosal (PSM) and myenteric plexus (PM) appeared normal at this time, however silver staining showed rarification of the neuronal axonal network between the myenteric and submucosal plexus. Later, on ED 16 an additional rarification of the submucosal plexus was also seen in the operation group using AchE staining, compared to the controls. DISCUSSION: The data suggest that distension of the gut hinders normal development of the ENS in the gut ligation model of chicken embryos. The changes were observed sequentially, starting with rarification of the axonal network between the PM and PSM. Future studies will be required to show whether the changes of the ENS are reversible.

Quantitative morphometric analysis of the submucous plexus in age-related control groups.

An increased number and density of the so-called "giant ganglia" (seven or greater ganglion cells per ganglion) serve as histopathological criteria for a bowel motility disorder called intestinal neuronal dysplasia of the submucous plexus (IND B). However, because these morphological criteria have been defined based upon observations in constipated patients, the diagnostic value of previous studies is open to controversy. Moreover, no age-related reference data from unaffected controls are available. This study reports on data from unaffected controls on the variability of size and distribution of ganglia in the submucous plexus during development. Therefore, for the first time, the normal status has been defined. Four age groups have been defined: (a) premature births, gestational age less than 35 weeks; (b) 1-365 days; (c) 1-14 years and (d) 15 years to greater than 70 years). All of these groups revealed giant ganglia in the submucous plexus. With advancing age, there was a decrease in the number of giant ganglia (from 32.7% in group a to 11.2% in group d) accompanied by an inverse increase in the mean distance between all ganglia (from 0.52 mm in group a to 1.17 mm in group d). The data presented permit the conclusion that the criteria mentioned above are not apt to define IND B as an entity, since they do not allow a sufficient demarcation from the age-correlated normal values presented here.

Developmental changes in heme-oxygenase-2 and bNOS expression in enteric neurons in the pig duodenum.

There exists much parallelism between carbon monoxide- and nitric oxide-generating systems. Therefore, we wondered whether developmental and functional differences along the duodenum similarly affect, part of them, namely, heme oxygenase-2-(HO-2) and neural isoform of nitric oxide synthase- (nNOS) expressing neurons. By applying NADPH diaphorase histochemistry and HO-2 immunohistochemistry on whole-mount preparations and by using stereologic methods, a qualitative and quantitative description of HO-2 and nNOS expression was obtained. Examinations were carried out on the duodenum of fetal, neonatal and weaned pigs. At all ages, three enteric plexuses were readily distinguished. The presence of both enzymes fits in with other morphological and physiological reports. However, the expression of both enzymes significantly changed during development. The number of HO-2-IR neurons increased approximately 20-fold in the inner submucous and almost doubled in the myenteric plexus. In addition, the number of nNOS-expressing neurons displayed a significant decrease in the outer submucous plexus after weaning. High levels of glucocorticoids may cause the perinatally increased HO-2 expression, whereas an influence on nNOS expression is doubtful. Therefore, it seems that notwithstanding the high similarity between both systems, their expression is regulated differently in the pig duodenum.

Tyrosine hydroxylase-immunoreactive intrinsic neurons in the Auerbach's and Meissner's plexuses of humans.

We carried out an immunohistochemical study of the Auerbach's and Meissner's plexuses of the human alimentary tract, using antiserum against tyrosine hydroxylase (TH), a rate-limiting enzyme of the catecholamine-synthesizing pathway. TH-immunoreactive intrinsic neuronal cell bodies were observed in both plexuses in almost all parts of the alimentary tract, being most frequent in the Auerbach's plexus of the lower esophagus.