Development in vitro of epithelial-cell monolayers derived from fetal rat pancreas

Summary Purified epithelial-cell monolayers were generated in vitro from explants of fetal rat pancreas. The extent of the development of the epithelial monolayer, as determined by planimetric analysis, was enhanced by the application of two methodological procedures: (a) preincubation of fetal pancreas in situ at 27° C for 5 hr prior to dissection and explantation; and (b) incubation of the explants in medium containing a high concentration (50% to 70%) of fetal bovine serum. By utilizing such culture conditions, sheets of contiguous epithelial cells, with little or no peripheral fibroblastic contamination, were maintained for 9 days. Whereas the majority of cells within the monolayer had morphological characteristics of pancreatic ductal cells, endocrine cells were identified by the specific immunocytochemical localization of insulin and glucagon. In addition, insulin could be detected in the incubation medium throughout the course of the experiment. The simplicity of this preparation offers some advantages over other techniques including reduced chance of contamination and reduced cellular damage or death. It provides a model for future studies directed toward developing individual cell strains derived from pancreatic epithelial cells. These studies were supported in part by NIH Grants HD 00412 and GM 114, and a grant from the American Diabetes Association—Minnesota Affiliate.     

The effect of cortisol on rabbit fetal lung maturation in vitro

Explants of lung tissue from 19-day gestational age fetal rabbits were maintained in organ culture in medium with or without fetal calf serum for 1 to 11 days. Based on the results of biochemical and morphological studies it was apparent that the type II pneumonocyte differentiated in vitro at a time similar to that which occurs with maturation in vivo. The epithelial cells of the presumptive alveoli were undifferentiated at the start of incubation, but within 9 days developed increased amounts of Golgi apparatus and rough endoplasmic reticulum, many microvilli on the luminal surface and numerous lamellar bodies. Secreted lamellar bodies and tubular myelin figures were observed in the lumina of cultured explants. The incorporation of [³H]choline into phosphatidylcholine by lung tissue explants maintained in medium containing 10% fetal calf serum remained relatively constant for 7 days of incubation but thereafter increased two-fold. When explants were maintained in fetal calf serum-containing medium and cortisol (10^?7M) or betamethasone (10^?7M), the incorporation of choline into phosphatidylcholine was two to three times greater than that of explants maintained in serum-containing medium without cortisol. When explants of fetal lung tissue were incubated in the presence of cortisol without fetal calf serum there was no stimulatory effect of cortisol on phosphatidylcholine biosynthesis. Therefore, serum cofactors are necessary for the stimulatory effects of cortisol on fetal lung development. The specific activity of phosphatidate phosphohydrolase (PAPase) increased to very high levels during the culture period. In the presence of serum, cortisol or betamethasone had no effect on the specific activity of phosphatidate phosphohydrolase.     

Precocious differentiation of chick embryo pancreas in vitro: Roles of prednisolone,insulin and L-thyroxine

The hormonal requirements for functional differentiation of chick embryo pancreas were investigated by using organ cultures in chemically defined medium. The hormones tested were prednisolone, insulin and thyroxine, and the parameters examined were α-amylase (EC 3.2.1.1) and chymotrypsinogen (EC 3.4.4.5) activities, and the ultrastructure of the tissues. Addition of prednisolone alone to explants from 14-day-old chicken embryo pancreas for 3 days increased the activities of amylase and chymotrypsinogen in the tissues by 3.4- and 6.6-fold, respectively, those of tissues before cultivation. Neither thyroxine or insulin alone, nor both hormones together affected pancreatic exocrine differentiation. Thyroxine enhanced the effect of prednisolone on both enzymes, but insulin did not. When the explants were cultured in the medium containing all three hormones, maximum enzyme activities were observed; amylase or chymotrypsinogen activity being 7- or 18-fold, respectively, that of tissues before cultivation. But these three hormones were not simultaneously necessary. Morphological differentiation was also observed in explants cultivated in medium containing these three hormones. These results suggest that glucocorticoids are essential for normal differentiation of chick pancreas during the late fetal period, possibly with insulin and thyroxine, and also support the idea that pancreatic enzymes are controlled separately.     

Precocious differentiation of chick embryo pancreas in vitro. Roles of prednisolone, insulin and L-thyroxine.

The hormonal requirement for functional differentiation of chick embryo pancreas were investigated by using organ cultures in chemically defined medium. The hormones tested were prednisolone, insulin and thyroxine, and the parameters examined were alpha-amylase (EC 3.2.1.1) and chymotrypsinogen (EC 3.4.4.5) activities, and the ultrastructure of the tissues. Addition of prednisolone alone to explants from 14-day-old chicken embryo pancreas for 3 days increased the activities of amylase and chymotrypsinogen in the tissues by 3.4- and 6.6-fold, respectively, those of tissues before cultivation. Neither thyroxine or insulin alone, nor both hormones together affected pancreatic exocrine differentiation. Thyroxine enhanced the effect of prednisolone on both enzymes, but insulin did not. When the explants were cultured in the medium containing all three hormones, maximum enzyme activities were observed; amylase or chymotrypsinogen activity being 7- or 18-fold, respectively, that of tissues before cultivation. But these three hormones were not simultaneously necessary. Morphological differentiation was also observed in explants cultuvated in medium containing these three hormones. These results suggest that glucocorticoids are essential for normal differentiation of chick pancreas during the late fetal period, possibly with insulin and thyroxine, and also support the idea that pancreatic enzymes are controlled separately.     

Nestin expression in pancreatic stellate cells and angiogenic endothelial cells

Nestin is an intermediate filament protein expressed by neuroepithelial stem cells and which has been proposed to represent also a marker for putative islet stem cells. The aim of this study was to characterize the cell type(s) expressing nestin in the rat pancreas. By immunohistochemistry, nestin positivity was localized exclusively in mesenchymal cells of normal and regenerating adult pancreas. In the latter condition, the number of nestin-positive cells and the intensity of nestin immunoreactivity were greatly increased. Most nestin-positive cells had the morphology of stellate cells, a type of pericyte associated with blood vessels which has been previously reported to occur in liver and pancreas. In addition, nestin positivity was present in endothelial cells from neocapillaries during pancreas regeneration, and in all blood vessels during morphogenesis in fetal pancreas. Nestin expression was not found in the ductal epithelial cells from which islet cells originate in fetal and regenerating pancreas. In primary pancreatic tissue explants, nestin-positive mesenchymal cells rapidly attached to plastic and proliferated. These cells also expressed desmin, vimentin, and glial fibrillary acidic protein which are known to represent stellate cell markers. In summary, nestin in the pancreas is primarily a marker for reactive stellate cells, or pericytes, and endothelial cells during active angiogenesis.     

胎儿胰岛样细胞团源上皮样细胞分离、纯化和鉴定

旨在优化胰腺干细胞分离、鉴定的方法和体系,为糖尿病研究和治疗提供种子细胞。采用胶原酶消化法,分离培养出胰岛样细胞团(ICCs),对其进行贴壁培养,从中纯化出上皮样细胞。采用MTT法测定其生长情况并绘制生长曲线。采用免疫组织化学染色检测分离得到细胞的PDX-1、PCNA、CK-7、CK-19、Nestin、Glut2、Vimentin、Insulin表达情况。应用流式细胞仪检测其表面标志。由分离培养的ICCs成功纯化出上皮样细胞;传40代,每代冻存106~108个细胞;生长曲线显示其传代第3天进入对数生长期,第5天进入平台期;免疫组织化学染色显示其表达PDX-1、PCNA、CK-7、CK-19、Nestin、Glut2、Vimentin;不表达Insulin;流式细胞仪分析表明其表达CD29、CD44、CD166,不表达CD11a、CD14、CD34、CD45、CD90、CD105、CD117。由胎儿胰腺能分离出具有自我更新能力的上皮样细胞,为导管来源,具干细胞特性。     

Organ Culture of Foetal Rat Pancreas

The differentiation and growth of the foetal rat pancreas (20 days postcoitum) was studied in parabiotic organ culture with foetal adrenal tissue. In such co-cultures, characteristic pancreatic morphology was preserved and further acinar cell differentiation was fostered. Acinar cells continued to represent about 65% of the total explant volume following short-term incubation. The selective islet cell proliferation, previously observed in control pancreatic explants cultured alone, did not occur when adrenals were co-cultured. In addition, the amylase content of the incubation media and of the explanted pancreatic tissue remained high with adrenal co-culture, while the insulin content of the media and of the explanted tissue was markedly suppressed when compared to control pancreatic explants cultured alone. The effects of the adrenal in maintaining the differentiated acinar component of the pancreas and suppressing media insulin concentration diminished over extended incubation. The addition of adrenals to culture of foetal pancreatic explants after 6 days of control culture (at a time when differentiated acinar cells were not identifiable in the explant) did not result in redifferentiation of the acinar component, but did markedly depress media insulin content. Removal of adrenals after 4 days of co-culture resulted in an immediate rise in media insulin concentration and a rapid decline in pancreatic acinar mass. An adrenal-exocrine pancreatic axis is proposed and it is suggested that foetal adrenal secretions may play an important role in the development of the exocrine pancreas in vivo as well as in vitro.     

Structure and function of human fetal endocrine pancreas before and after cryopreservation

Human fetal pancreatic glands obtained from 31 consecutive prostaglandin-induced abortions were examined with respect to light microscopic structure and insulin content and release before and after cryopreservation. The crown-heel lengths of the fetuses ranged from 12 to 34 cm. Minced pancreatic fragments about 2 mm³ in size were cultured overnight in RPMI 1640 medium plus 10% fetal calf serum. The explants were incubated at 0 °C for 20 min in Hanks' solution containing 1 M Me₂SO and subsequently cooled at 0.3 °C/min to ?70 °C before rapid quenching in liquid nitrogen. After storage for 4–150 days at ?196 °C the pancreatic fragments were rapidly thawed and suspended in RPMI 1640 (10% calf serum) for another overnight culture.After cryopreservation there was some morphological deterioration of the fetal pancreas. Before cryopreservation 13 of the fetal glands responded with a significant insulin release to an acute glucose plus theophylline challenge, while after cryopreservation 16 glands responded.Although cryopreservation lowered the insulin response there was a strong statistical correlation between the response obtained before and after freezing (P < 0.001). No correlation could be demonstrated between the insulin response and crown-heel length either before or after freezing. There was no obvious effect of cryopreservation on the pancreatic insulin content which showed a significant correlation with the crown—heel length both before and after freezing.It is concluded that cryopreservation of human fetal endocrine pancreas preserves the viability of the B cells. These observations provide a basis for further exploration of the suitability of human fetal pancreas for clinical transplantation.     

Establishment of propagable epithelial cell lines from normal adult rat pancreas

A method for establishing propagable epithelial cell lines from normal adult rat pancreas is described. Morphological studies showed that these cells were derived from duct epithelial cells. These cells grew equally well in media containing fetal bovine (FBS) or horse serum (HS). Preliminary studies suggested that propagable cultured pancreatic ductal cells during early passages retained some capacity to differentiate into acinar-like cells with the formation of granules resembling zymogen, especially when these cells were cultured on mixed ester cellulose membrane. This supports the concept that pancreatic ductal lining cells represent the 'stem' cells on pancreatic epithelial cells. Propagable pancreatic epithelial cells in long-term cultures will be useful in the histogenetic and mechanistic studies of pancreatic carcinogenesis.     

Fetal rat pancreas in organ culture: effects of serum on the development of the endocrine cells

Eighteen-day-old rat fetal pancreas was grown in organ culture for four days on medium consisting of tissue culture Medium 199 and varying concentrations of chicken serum. The glucagon and somatostatin concentration of the explants was decreased when the serum concentration of the medium was reduced from 50 to 10%. There was a further reduction in these hormones when the explants were cultured on Medium 199 alone. Explant insulin content was reduced only when serum was omitted from the medium. A "serum factor" tripeptide was not able to substitute for this serum requirement. Heat-inactivation of the serum resulted in a significant increase in medium insulin content and an increase in both the insulin and glucagon contents of the explants. This increase in hormone content was directly correlated with increases in the beta and alpha cell volumes of the explants. There was no change in the somatostatin content or delta cell volume of the explants grown on heat-inactivated medium. It is suggested that the serum is an important component of the culture media and is apparently required in high concentration for the development of the islet cells in vitro. The islet cell types differ in their requirement for serum. The alpha and delta a higher concentration than do the beta cells.     

Fetal Rat Pancreas in Organ Culture: Effects of Serum on the Development of the Endocrine Cells

Eighteen-day-old rat fetal pancreas was grown in organ culture for four days on medium consisting of tissue culture Medium 199 and varying concentrations of chicken serum. The glucagon and somatostatin concentration of the explants was decreased when the serum concentration of the medium was reduced from 50 to 10%. There was a further reduction in these hormones when the explants were cultured on Medium 199 alone. Explant insulin content was reduced only when serum was omitted from the medium. A "serum factor" tripeptide was not able to substitute for this serum requirement. Heat-inactivation of the serum resulted in a significant increase in medium insulin content and an increase in both the insulin and glucagon contents of the explants. This increase in hormone content was directly correlated with increases in the beta and alpha cell volumes of the explants. There was no change in the somatostatin content or delta cell volume of the explants grown on heat-inactivated medium. It is suggested that the serum is an important component of the culture media and is apparently required in high concentration for the development of the islet cells in vitro. The islet cell types differ in their requirement for serum. The alpha and delta require a higher concentration than do the beta cells.     

Growth and characterisation of primary bovine colon epithelial cells in vitro

Epithelial crypts from the bovine colon were obtained by using a combined mechanical and enzymatic isolation method, followed by differential D-sorbitol gradient centrifugation. By using this isolation technique, a pure fraction of epithelial crypts with minimal mesenchymal contamination was obtained. The crypts were seeded in collagen-coated plastic flasks. The attached epithelial cells proliferated and formed a confluent monolayer after 6 days in culture. Under low-serum culture conditions (1% fetal calf serum), the cells had a population doubling time of 21-22 hours. During the culture period, the colonocytes were characterised morphologically and enzymatically. The morphology of the cultured cells was confirmed by scanning electron microscopy and transmission electron microscopy. The presence of microvilli, tight junctions and desmosomes demonstrated the ability of the cultured cells to restore an epithelial-like cell monolayer. The epithelial origin of the cells was demonstrated by labelling the cells with antibodies against epithelial-specific cytokeratins 7 and 13. The functional integrity of the cells was evaluated by measuring various marker enzymes (gamma-glutamyltranspeptidase, acid phosphatase, alkaline phosphatase, NADH-dehydrogenase) and membrane-associated Na+-K+-ATPase activity. Membrane integrity was determined by measuring the leakage of lactate dehydrogenase into the culture medium. This new culture system for bovine colon epithelial cells could be used as an in vitro model of the colon epithelium in physiological and toxicological studies.     

Development of embryonic chick insulin cells in culture: Beneficial effects of serum-free medium, raised nutrients, and biomatrix

Summary A previous finding that insulin cells do not survive or differentiate in explants of embryonic avian pancreas cultured in collagen gel with a serum-containing medium has provided a model system for identification of conditions favorable for development of these cells. To this end, we here modify the substrate and the medium. The epithelial component of dorsal pancreatic buds of 5-d chick embryos was cultured for 7 d on Matrigel in serum-containing and in serum-free medium, the latter incorporating insulin, transferrin, and selenium, Endocrine cell types were distinguished by immunocytochemistry; insulin cell counts were expressed as a proportion of insulin plus glucagon cells. With serum-containing medium, Matrigel stimulated a significant increase in this proportion as compared with collagen gel—3.1% as against 0.2%; the serum-free medium further increased this proportion to 17.3%. Raising the level of essential amino acids approximately fivefold increased the latter figure somewhat (to 18.9%), but it was more than doubled (to 37.4%) by raising the glucose concentration from 10 mM to 20 mM. Raising the levels of amino acids and glucose simultaneously yielded a lesser increase (to 31.8%). Some cultures grown in collagen gel and serum-containing medium for 7 d were transferred to Matrigel and serum-free medium for a further 7 d. Insulin cell development recovered, indicating that progenitor cells had survived and were stimulated to develop by the improved conditions. This study indicates that components of the biomatrix and the medium (in particular, a raised glucose concentration) are important for the survival and differentiation of embryonic insulin cells.     

Netrins and DCC in the guidance of migrating neural crest-derived cells in the developing bowel and pancreas

Vagal neural crest-derived precursors of the enteric nervous system colonize the bowel by descending within the enteric mesenchyme. Perpendicular secondary migration, toward the mucosa and into the pancreas, result, respectively, in the formation of submucosal and pancreatic ganglia. We tested the hypothesis that netrins guide these secondary migrations. Studies using RT-PCR, in situ hybridization, and immunocytochemistry indicated that netrins (netrins-1 and -3 mice and netrin-2 in chicks) and netrin receptors [deleted in colorectal cancer (DCC), neogenin, and the adenosine A2b receptor] are expressed by the fetal mucosal epithelium and pancreas. Crest-derived cells expressed DCC, which was developmentally regulated. Crest-derived cells migrated out of explants of gut toward cocultured cells expressing netrin-1 or toward cocultured explants of pancreas. Crest-derived cells also migrated inwardly toward the mucosa of cultured rings of bowel. These migrations were specifically blocked by antibodies to DCC and by inhibition of protein kinase A, which interferes with DCC signaling. Submucosal and pancreatic ganglia were absent at E12.5, E15, and P0 in transgenic mice lacking DCC. Netrins also promoted the survival/development of enteric crest-derived cells. The formation of submucosal and pancreatic ganglia thus involves the attraction of DCC-expressing crest-derived cells by netrins.     

Development of fetal rat intestine in organ and monolayer culture

Maturation and differentiation of intestinal epithelial cells was demonstrated in segments of fetal rat small intestine, maintained for more than a month in suspension organ culture, by ultrastructural, biochemical, and immunological criteria. Over a 5-7 d period, fragments of fetal intestine evolved into globular structures covered with a single columnar epithelium ultrastructurally similar to suckling villus cells. Loose mesenchymal cells, cellular debris, and collagen were present inside the structures. After 6 d in culture, goblet cells, not present in the fetal intestine at day 18, were numerous and well developed. Intestinal endocrine cells were also observed. Immunofluorescence studies employing monoclonal antibodies specific for villus and crypt cells in vivo, and various enzyme assays, have demonstrated a level of differentiation and maturation of the cultured epithelial cells similar but not identical to that of suckling intestinal mucosa in vivo. Crypts and crypt cell markers were not observed in the the cultures. Addition of glucocorticoids to the culture medium resulted in the induction of sucrase-isomaltase but failed to promote most of the functional changes characteristic of the intestinal epithelium at weaning in vivo. Epithelial cells were identified in explants derived from the organ cultures by their specific expression of intestinal cytokeratin. Differentiation-specific markers, present in the epithelial cells in primary cultures, were lost upon selection and subculturing of pure epithelial cell populations. These results suggest a requirement for mesenchymal and/or extracellular matrix components in the maintenance of the differentiated state of the epithelial cells. The fetal intestinal organ cultures described here present significant advantages over traditional organ and monolayer culture techniques for the study of the cellular and molecular interactions involved in the development and differentiation of the intestinal epithelium.     

Fetal and neonatal rat pancreas in organ culture: age-related effects of corticosterone on the development of the islet cells

Fetal (18 days postcoitum) and neonatal (3-day) pancreatic explants were grown in organ culture with or without supplementation with corticosterone (0.1 micrograms/ml). After 0, 4, and 8 days of culture, the specific hormone-positive, islet cell volumes were determined by the use of immunocytochemical and morphometric methods. The insulin, glucagon, and somatostatin contents of the explants were estimated by radioimmunoassays. In the fetal explants, all of the islet cell populations increased in volume and the content of each of the hormones increased over an 8-day period of culture. Supplementation with corticosterone resulted in a restriction of the increases of the alpha and delta cell volumes and in the somatostatin content of the explants. In the neonatal explants, the volumes of the alpha and delta cells and the glucagon and somatostatin contents decreased over a 4-day culture period. The presence of corticosterone in the culture medium preserved these cells and their hormone content. Co-culture of 18-day fetal and 3-day neonatal pancreata in control medium for 8 days resulted in a significant decrease in the content of all three of the islet hormones in the fetal explants. These results suggest that a substance harmful to the islet cells is released from the degenerating acinar cells. Thus, the effects of the steroid on the islets may be mediated through its effects on the acinar tissue.     

Identification and characterization of monolayer cultures of sheep trophoblast cells maintained in bicameral culture chambers

Enriched epithelial cell and fibroblast fractions were isolated from ovine placentomes by isopycnic centrifugation of collagenase/DNAse-dispersed cells through a density gradient of 45% Percoll. The epithelial cells formed confluent monolayers when plated onto filters impregnated with a 50-microns layer of Matrigel in medium containing 10% fetal bovine serum. These cells were maintained in dual environment culture chambers in serum-free medium for at least 12 days. The epithelium had a polarized appearance similar to that found in vivo only when cells were plated at high density (10(7)/cells/cm2). The epithelial monolayer consisted predominantly of a single population of uninucleate cells with intracellular features similar to those previously described for ovine trophoblast both in vivo and in vitro. These cells stained positively with an antiserum to alpha-keratin, a marker specific to epithelial cells, and no staining was observed with antisera raised against binucleate cells or leucocyte-common antigen. Binucleate cells were detected by microscopy and immunostaining in the pellet of cells obtained from the Percoll gradient but were rarely seen in the epithelium. The epithelial monolayer excluded 3H-inulin, added to the basal chamber, from the apical chamber, thus demonstrating the formation of a permeability barrier similar to that found in vivo. The maintenance of a monolayer of pure ovine trophoblast cells in vitro, which retain the characteristics of the epithelium in vivo, will enable the study of many cellular functions of the trophoblast.     

Epithelial cell differentiation in organotypic cultures of fetal rat lung

The purpose of this investigation was to examine the suitability of an organotypic lung-cell culture model for the study of factors influencing fetal lung-cell differentiation. It has been reported that the use of carbon-stripped (hormone-depleted) bovine fetal calf serum in monolayer cell cultures of fetal rat lung prevents continued epithelial cell differentiation in vitro. In this study, organotypic cultures of fetal rat lung cells taken at day 20 of gestation (late canalicular stage) were prepared with a carbon-stripped medium. These organotypic cultures were examined by light, scanning, and transmission electron microscopy for comparison with controls prepared with unstripped bovine fetal calf serum. Highly organized three-dimensional tubular epithelial structures resembling saccules of immature lung were observed within the gelatin sponge matrix. Morphometric analysis of day 20 carbon-stripped samples revealed that 74.6% of the epithelial cells in the tubular structures contained osmiophilic lamellar bodies characteristic of type II pneumonocytes. Control specimens had 71.2% cells with lamellar bodies and did not differ significantly from the experimental group. These data are similar to those obtained with organ cultures of fetal rat lung but are in contrast to findings with monolayer culture systems. The observations of this study suggest that 1) the hormones extracted from bovine fetal calf serum by carbon-stripping are not solely responsible for the continued fetal lung cell differentiation observed in vitro, and 2) that spatial relationships between lung cells in vitro may be a significant factor in the control of differentiation.