Chronological analysis of the intestinalization of chick stomach endoderm induced in vitro by duodenal mesenchyme

Summary Inductive action of duodenal mesenchyme on stomach endoderm in the chick embryo was chronologically analysed in vitro by the use of electron microscopy and immunofluorescence techniques. The behaviour of the endoderm-mesenchyme interfaces was particularly studied during the induction. In recombinates of 4-day stomach endoderm and 6-day duodenal mesenchyme, all the endodermal cells were undifferentiated at the start of cultivation. Small-intestinal sucrase antigen could first be detected on the 5th day of cultivation in one-third of the stomach endoderm, and a striated border on the 7th day. With a longer cultivation period, intestine-type cells increased in number in the stomach endoderm and the density of microvilli on the apical surface became higher. At the endoderm-mesenchyme interfaces a number of direct contacts between endodermal and mesenchymal cells were observed from the beginning to the end of cultivation. These were especially abundant in the early period before the appearance of signs of intestinal cytodifferentiation. These results suggest that the mesenchymal cells adjacent to the endodermal tissue play an important role in the intestinal induction which occurs during the early period of cultivation, probably via direct cell-to-cell contracts.     

The effect of pancreatic mesenchyme on the differentiation of endocrine cells from gastric endoderm

To determine whether mesenchyme plays a part in the differentiation of gut endocrine cells, proventricular endoderm from 4- to 5-day chick or quail embryos was associated with mesenchyme from the dorsal pancreatic bud of chick embryos of the same age. The combinations were grown on the chorioallantoic membranes of host chick embryos until they reached a total incubation age of 21 days. Proventricular or pancreatic endoderm of the appropriate age and species reassociated with its own mesenchyme provided the controls. Morphogenesis in the experimental grafts corresponded closely to that in proventricular controls, i.e. the pancreatic mesenchyme supported the development of proventricular glands from proventricular endoderm. Insulin, glucagon and somatostatin cells and cells with pancreatic polypeptide-like immunoreactivity differentiated in the pancreatic controls. The latter three endocrine cell types, together with neurotensin and bombesin/gastrin-releasing polypeptide (GRP) cells, developed in proventricular controls and experimental grafts. The proportions of the major types common to proventriculus and pancreas (somatostatin and glucagon cells) were in general similar when experimental grafts were compared with proventricular controls but different when experimental and pancreatic control grafts were compared. Hence pancreatic mesenchyme did not materially affect the proportions of these three cell types in experimental grafts, induced no specific pancreatic (insulin) cell type and allowed the differentiation of the characteristic proventricular endocrine cell types, neurotensin and bombesin/GRP cells. However, an important finding was a significant reduction in the proportion of bombesin/GRP cells, attributable in part to a decrease in their number and in part to an increase in the numbers of endocrine cells of the other types. This indicates that mesenchyme may well play a part in determining the regional specificity of populations of gut endocrine cells.     

Demonstration of sucrase immunoreactivity of the brush border induced by duodenal mesenchyme in chick stomach endoderm

Summary When stomach endoderm of chick embryos was recombined and cultured with duodenal mesenchyme, the endoderm developed a brush border structure over a large area and also differentiated into mucous cells in a small area according to its own developmental fate. In the present investigation, we examined whether the induced brush border structure expressed sucrase antigen by immunoelectron microscopy using the antiserum raised against chicken sucrase. Sucrase immunoreactivity could be detected as ferritin particles in the region where the brush border was induced, whereas it was never detected on microvilli of endodermal cells which differentiated into the mucous cells. Thus, almost all of the endodermal cells could be identified as either small intestine-type cells possessing the sucrase antigen or stomach-type cells possessing mucous granules but not the sucrase antigen. The results indicate that stomach endodermal cells of chick embryos can differentiate not only morphologically but also functionally into typical intestinal epithelial cells under the inductive influence of the duodenal mesenchyme.     

Electron microscopic study of in vitro differentiation of the small intestinal endoderm in young bird embryo in the presence or absence of mesenchyme

Electron microscopical studies demonstrated that the small intestinal endoderm of young avian embryos cultures in vitro in the presence or absence of mesenchyme can differentiate into an absorptive epithelium with the brush border, and that, in the absence of mesenchyme the brush border develops much earlier than in the presence of mesenchyme, but goblet cells do not appear and morphogenesis of villi does not occur. These results show that the intestinal mesenchyme controls the endodermal differentiation, though the undifferentiated endoderm possesses self-differentiation potency.     

Gland formation induced in the allantoic and small-intestinal endoderm by the proventricular mesenchyme is not coupled with pepsinogen expression

Abstract. Allantoic and small-intestinal endoderms of chick and quail embryos were associated with the proventricular mesenchyme of chick embryos and then cultivated on chorioallantoic membrane. This resulted in the induction of complex glands, but the recombinates never produced embryo-specific pepsinogens; also, glandular cells developed a brush border, expressed sucrase antigen on their apical surface, and sometimes differentiated into goblet cells, thus indicating that both endoderms have the tendency to differentiate into an intestinal epithelium. In the recombinates composed of allantoic endoderm and proventricular mesenchyme, acid-protease activity was detected, but biochemical analysis revealed that this activity was not due topepsinogens. These results indicate that the gland formation induced in allantoic and small-intestinal endoderms by the proventricular mesenchyme is not accompanied by the expression of pepsinogens, suggesting that independent mechanisms are responsible for the morphogenesis and cyto chemical differentiation of the endoderm.     

The effect of microfilament inhibitor on the Cryptosporidium infection in vitro

This study was focused on the effects of microfilament inhibitor, Cytochalasin D (CD) on the invasiveness of sporozoites of Cryptosporidium spp. into the host cells. MDCK and AGS cell lines were used as host cells for C. parvum and C. muris, respectively. When MDCK cells were pretreated with CD for 1 hr before inoculation of the sporozoites, C. parvum infection was significantly inhibited when compared to the control cells. These inhibitory effects of CD on the rate of infection were dose-dependent. In addition, C. muris infection was hampered when AGS cell lines were pretreated with CD. However, the capability of invasiveness of the sporozoites into the host cells was not greatly influenced by the pretreatment of sporozoites with CD before infection. These results suggest that microfilaments of host cells, rather than parasites, play an important role for the invasion of Cryptosporidium spp.     

Chondrogenesis of limb bud mesenchyme in vitro: stimulation by cations

To analyze the nature of cell-cell interactions in chondrogenesis, two cations that influence these interactions, calcium and poly-L-lysine (PL), were tested for their effects on chondrogenesis in vitro. High density cultures of chick limb bud mesenchyme (Hamilton-Hamburger stages 23/24), were exposed to culture media containing calcium (0.6-3.3 mM) or PL (1-10 micrograms/ml). Both cations stimulated chondrogenesis in a dose-dependent manner, and also promoted cartilage formation in normally non-chondrogenic, low cell density cultures. Chondrogenesis was assayed based on cartilage nodule number, [35S]sulfate incorporation, and expression of type II collagen as detected by immunohistochemistry. The calcium effect was not mimicked by other divalent cations (Cd, Co, Ni, Mg, Mn, and Sr). The effect of PL was dependent on its Mr (greater than or equal to 14K) and charge, and was mimicked by poly-D-lysine but not by lysine or other analogs of PL or lysine (epsilon-amino caproic acid, lysozyme, poly-L-arginine, and spermidine). Calcium and PL probably act by different mechanisms since their effects were additive, and required their presence on different days of culture: calcium acted on Day 1, and PL on Day 2. It is proposed that calcium may play a role in the cell aggregation phase of chondrogenesis whereas PL, or a naturally occurring polypeptide of similar nature, may promote chondrogenesis by crosslinking specific anionic components of the cell surface or extracellular matrix.     

Cell lineage analysis of the primitive and visceral endoderm of mouse embryos cultured in vitro

Cell lineages of the primitive endoderm and the visceral endoderm of mouse embryos were examined by culturing whole embryos in vitro. The primitive endoderm and visceral endoderm cells could be labelled by incubation of embryos in a medium containing horse radish peroxidase (HRP). HRP localization was chased throughout the culture period. The results show that the visceral endoderm derives from the primitive endoderm, and the visceral endoderm forms only the extra-embryonic endoderm (yolk sac endoderm) of the conceptus. The definitive endoderm which is probably derived from the head process, newly appears on the ventral surface of the embryo.     

Heterotypic induction of stomach-like glands in the urogenital sinus endoderm under the influence of stomach mesenchyme of foetal rats

Summary Urogenital sinus endoderm of 16.5-day rat foetuses was combined with stomach mesenchyme and the recombinants were either treated with testosterone and grown in vitro or cultured beneath the kidney capsule of adult male rats of the same strain. It was found that testosterone stimulated mitosis in the urogenital endoderm. In recombinants grown under the kidney capsule a stratified squamous epithelium and stomach-like glands were induced under the influence of the forestomach and glandular stomach mesenchymes. However, the induced glands expressed neither rat pepsinogen nor rat ventral prostatic antigen. They did not produce mRNA for the prostatic steroid-binding protein C1. Thus, stomach mesenchyme of rat foetuses induces organ-specific morphogenesis but not functional differentiation in the heterologous endoderm, indicating that cytodifferentiation does not always accompany morphogenesis.     

Genetic analysis of interactions between the somitic muscle, cartilage and tendon cell lineages during mouse development

Proper formation of the musculoskeletal system requires the coordinated development of the muscle, cartilage and tendon lineages arising from the somitic mesoderm. During early somite development, muscle and cartilage emerge from two distinct compartments, the myotome and sclerotome, in response to signals secreted from surrounding tissues. As the somite matures, the tendon lineage is established within the dorsolateral sclerotome, adjacent to and beneath the myotome. We examine interactions between the three lineages by observing tendon development in mouse mutants with genetically disrupted muscle or cartilage development. Through analysis of embryos carrying null mutations in Myf5 and Myod1, hence lacking both muscle progenitors and differentiated muscle, we identify an essential role for the specified myotome in axial tendon development, and suggest that absence of tendon formation in Myf5/Myod1 mutants results from loss of the myotomal FGF proteins, which depend upon Myf5 and Myod1 for their expression, and are required, in turn, for induction of the tendon progenitor markers. Our analysis of Sox5/Sox6 double mutants, in which the chondroprogenitors are unable to differentiate into cartilage, reveals that the two cell fates arising from the sclerotome, axial tendon and cartilage are alternative lineages, and that cartilage differentiation is required to actively repress tendon development in the dorsolateral sclerotome.     

Plasmodium ovale: in vitro development of hepatic stages

Primary cultures of human hepatocytes, a culture-derived clone from the human hepatoma Hep G2 line, and cultured rat hepatocytes were inoculated in vitro with Plasmodium ovale sporozoites extracted from Anopheles stephensi, An. gambiae, and An. dirus mosquitoes. Penetration and differentiation of P. ovale sporozoites into trophozoite stage parasites occurred in all three cell types, but with a lower transformation rate in the Hep G2 cell line than in the primary cultured hepatocytes. Further maturation was obtained only in the human hepatocytes, in which the parasites were uninucleate until the third day after infection, before development to 60 micron in length by the eighth day. Additionally, this culture system was used to assess the ability of an anti-P. ovale sporozoite monoclonal antibody to inhibit penetration of sporozoites into hepatocytes and to detect sporozoite determinants in the maturing liver stage parasites.     

Metabolism of prostaglandin E2 by mouse embryo palate mesenchyme cells in vitro

Mouse embryo palate mesenchyme cells synthesize a number of prostaglandins, particularly prostaglandin E2 (PGE2). However, the ability of such cells to metabolize prostaglandins was unknown. By use of radiolabeled PGE2 we determined that palate mesenchyme cells have little ability to degrade that prostaglandin in vitro but are able to metabolize products formed from its spontaneous degradation.     

Effects of dexamethasone on phospholipase activities in palate mesenchyme cells in vitro

Treatment of primary cultures of palate mesenchyme cells from AJAX strain embryos with dexamethasone inhibited only phospholipase activity expressed at pH 7.5. A similar treatment did not have such an effect on palate mesenchyme cells from C57BL/6J strain embryos. Since the AJAX strain embryo is sensitive to the induction of cleft palate by exogenous glucocorticoids and the C57BL/6J strain is less so, these data allow consideration of phospholipase activity as a site of regulation for development of the palate.     

Attempt at demonstrating the effect of a weak magnetic field onTaraxacum officinale

The exposure ofTaraxacum officinale L. at flowering time to a weak magnetic field resulted in (1) retarded opening and the closing of the inflorescence, (2) wilting and death after prolonged exposure. Controls were unchanged. Plants exposed to the effect of magnetic fields were degenerated in subsequent year.     

Fine structural analysis of the effect of trypan blue on the visceral endoderm of the mouse egg cylinder

The effects of a maternal injection of trypan blue on primitive streak mouse embryos were studied with electron microscopy. Commercial trypan blue was purified by descending paper chromatography, and pregnant females received an intraperitoneal injection of the collected blue fraction on the evening of the 7th day of gestation. Ultrastructurally, the changes in the visceral endoderm were apparent 10 min after the injection and included an increase in the number of fuzzy-coated vesicles in the apical cytoplasm. By 20 min the apical cytoplasm of the extraembryonic visceral endodermal cells was filled with many fuzzy-coated vesicles and numerous vacuoles of various size and electron density. 30 min after the injection, the extraembryonic visceral endodermal cells were relatively smooth lacking a microvillous border and evidence of endocytic activity was rare. Many embryonic visceral endodermal cells were observed in various stages of degeneration although the underlying embryonic ectoderm appeared unaffected. Morphologically, it appears that trypan blue exerts its first effect by altering the endocytic activity of the visceral endoderm.