A light and electron microscopic study of the embryonic chick otocyst. The effects of trypsin and Ca- and Mg- free salt solution.

A light and electron microscopic examination of the embryonic chick otocyst compared with the otocyst treated with trypsin and Ca- and Mg-free Hanks' solution (HBSS), care being taken not to disrupt or dissociate, has been done. This study was restricted to the “pseudostratified” epithelium in the medioventral portion of the otocyst which develops into the sensory epithelia of the inner ear. It was shown that the pseudostratified epithelium contained groups of epithelial cells with mature intercellular connections composed of an apical junction and an intermediate junction frequently associated with one or more fully formed desmosomes. The cohesive property of the apical junction was demonstrated in the trypsin-treated otocyst; apical junctions remained adherent while desmosomes were altered and the intercellular space of some of the intermediate junctions was increased. The groups of cells contained cells with a cilium and cells undergoing mitosis. The evidence obtained in this study strongly suggested that these groups of cells were undergoing cytodifferentiation and acted as “foci” of cells with the structural competence to respond to stimuli and to participate significantly in the mechanisms involved in the movement, localization and cytodifferentiation of presumptive sensory epithelia of the inner ear.     

Development and characterization of cell lines of normal mouse bladder epithelial cells and 2-Acetylaminoflourene-induced urothelial carcinoma cells grown in monolayer tissue culture

Summary Normal urinary bladder epithelial cells and cells derived from 2-acetylaminofluorene-induced urothelial carcinomas from male Balb/c mice were grown in monolayer culture and were characterized. Cell lines of normal bladder epithelium were mononucleated, sheet-forming cells, with a modal chromosome number of 40. Bladder epithelial carcinoma cells induced by 2-acetylaminofluorene were polynucleate, relatively fast growing, grew in soft agar, demonstrated a higher cloning efficiency than normal cells and formed tumors when inoculated into syngeneic hosts. Differences in morphology were recorded by photomicrography using phase optics and scanning electron microscopy.     

Biliary secretion of endotoxin and pathogenesis of primary biliary cirrhosis.

Previous studies suggested endotoxin, derived from the intestine through the portal blood to the liver, was predominantly metabolized by Kupffer cells. In the present study, fluorescent-labeled endotoxin injected into the rat portal vein was demonstrated not only in Kupffer cells but also in hepatocytes. Furthermore a great amount of labeled endotoxin was recovered in bile. In the livers of patients with primary biliary cirrhosis (PBC), immunohistochemistry demonstrated significant retention of endotoxin in the biliary epithelial cells, and treatment with ursodeoxycholic acid significantly reduced the retention in those cells. The study for detection of apoptosis demonstrated increased rates of apoptosis in hepatocytes and biliary epithelial cells in PBC liver, and the rate of apoptosis in biliary epithelial cells was significantly reduced after treatment with ursodeoxycholic acid. Immunohistochemistry in PBC liver demonstrated significant reduction of fluorescence intensity for a 7H6 antigen in biliary epithelial cells, indicating the increased paracellular permeability of bile ducts, because cellular immunolocalization of that antigen has been shown to be inversely correlated with the paracellular permeability of the tight junction. These results suggest that, in biliary epithelial cells, retention of endotoxin, increased apoptosis, and increased permeability of tight junctions may be involved in the pathogenesis of PBC.     

MHC class II expression and antigen presentation by human endometrial cells

It has been demonstrated previously that mixed cell suspensions from the female reproductive tract consisting of human epithelial and stromal cells were capable of presenting foreign antigen to autologous T cells. There have been, however, no reported studies examining antigen presentation by isolated epithelial cells from the human female reproductive tract. It is now shown that freshly isolated epithelial cells from the uterine endometrium constitutively express MHC class II antigen and that class II was upregulated on cultured epithelium by interferon gamma (IFNγ). Using a highly purified preparation, it was demonstrated that these epithelial cells were able to process and present tetanus toxoid recall antigen driving autologous T cell proliferation. Cells isolated from the basolateral sub-epithelium stroma were also potent antigen presenting cells in this model system. Thus, isolated endometrial epithelial cells were able to directly process and present antigen to T cells and may be responsible for the transcytosis and delivery of antigen to professional antigen presenting cells found in the sub-epithelial stroma.     

Schistosoma mansoni: Demonstration of two circulating antigens in infected hamsters

In this study the presence of two circulating schistosome derived antigens, probably both polysaccharides, was demonstrated in hamsters heavily infected with Schistosoma mansoni. One antigen was an anodic, heat-stable, high molecular weight substance; it was demonstrated in serum, adult worm antigen and in the excretory and secretory products of adult worms. The antigen was demonstrated in the epithelial cells of the schistosome gut. A second antigen, cathodic, heat-stable and a low-molecular weight substance (MW < 30,000), was demonstrated in hamster serum, hamster urine, adult worm antigen, and in the excretory and secretory products of adult worms. Two additional schistosome derived antigens, both heat-labile, were demonstrated in hamster urine.     

A fate map of chick otic cup closure reveals lineage boundaries in the dorsal otocyst

The vertebrate inner ear is structurally complex, consisting of fluid-filled tubules and sensory organs that subserve the functions of hearing and balance. The epithelial parts of the inner ear are derived from the otic placode, which deepens to form a cup before closing to form the otic vesicle. We fate-mapped the rim of the otic cup to monitor the cellular movements associated with otocyst formation and to aid in interpreting the changing gene expression patterns of the early otic field. Twelve sites around the rim, defined as positions of a clock face, were targeted by iontophoretic injection of fluorescent, lipophilic dye. Labeled cells were imaged 24 and 48 h after injection. The data show that the entire dorsal rim of the otic cup becomes the endolymphatic duct (ED), while the posteroventral rim becomes the lateral otocyst wall. Two intersecting boundaries of lineage restriction were identified near the dorsal pole: one bisecting the ED into anterior and posterior halves and the other defining its lateral edge. We hypothesize that signaling across compartment boundaries may play a critical role in duct specification. This model is discussed in the context of mouse mutants that are defective in both hindbrain development and ED outgrowth.     

Restriction of Wnt signaling in the dorsal otocyst determines semicircular canal formation in the mouse embryo

The mouse inner ear develops from a simple epithelial pouch, the otocyst, with the dorsal and ventral portions giving rise to the vestibule and cochlea, respectively. The otocyst undergoes a morphological change to generate flattened saclike structures, known as outpocketings, in the dorsal and lateral regions. The semicircular canals of the vestibule form from the periphery of the outpocketings, with the central region (the fusion plate) undergoing de-epithelialization and disappearing. However, little is known of the mechanism that orchestrates formation of the semicircular canals. We now show that the area of canonical Wnt signaling changes dynamically in the dorsal otocyst during its morphogenesis. The genes for several Wnt ligands were found to be expressed in the dorsal otocyst according to specific patterns, whereas those for secreted inhibitors of Wnt ligands were expressed exclusively in the ventral otocyst. With the use of whole-embryo culture in combination with potent modulators of canonical Wnt signaling, we found that forced persistence of such signaling resulted in impaired formation both of the lateral outpocketing and of the fusion plates of the dorsal outpocketing. Canonical Wnt signaling was found to suppress Netrin1 expression and to preserve the integrity of the outpocketing epithelium. In addition, inhibition of canonical Wnt signaling reduced the size of the otocyst, likely through suppression of cell proliferation and promotion of apoptosis. Our stage-specific functional analysis suggests that strict regulation of canonical Wnt signaling in the dorsal otocyst orchestrates the process of semicircular canal formation.     

Downregulation of integrin β4 decreases the ability of airway epithelial cells to present antigens

Airway epithelial cells have been demonstrated to be accessory antigen presentation cells (APC) capable of activating T cells and may play an important role in the development of allergic airway inflammation of asthma. In asthmatic airways, loss of expression of the adhesion molecule integrin β4 (ITGB4) and an increase in Th2 inflammation bias has been observed in our previous study. Given that ITGB4 is engaged in multiple signaling pathways, we studied whether disruption of ITGB4-mediated cell adhesion may contribute to the adaptive immune response of epithelial cells, including their ability to present antigens, induce the activate and differentiate of T cells. We silenced ITGB4 expression in bronchial epithelial cells with an effective siRNA vector and studied the effects of ITGB4 silencing on the antigen presentation ability of airway epithelial cells. T cell proliferation and cytokine production was investigated after co-culturing with ITGB4-silenced epithelial cells. Surface expression of B7 homologs and the major histocompatibility complex (MHC) class II was also detected after ITGB4 was silenced. Our results demonstrated that silencing of ITGB4 resulted in impaired antigen presentation processes and suppressed T cell proliferation. Meanwhile, decrease in Th1 cytokine production and increase in Th17 cytokine production was induced after co-culturing with ITGB4-silenced epithelial cells. Moreover, HLA-DR was decreased and the B7 homologs expression was different after ITGB4 silencing. Overall, this study suggested that downregulation of ITGB4 expression in airway epithelial cells could impair the antigen presentation ability of these cells, which further regulate airway inflammation reaction in allergic asthma.     

Modulation of phenotype in cultures of human milk epithelial cells and its relation to the expression of a membrane antigen

Primary cultures of human milk epithelial cells, labelled with HMFG-1, a monoclonal antibody that recognises a differentiation antigen on the membranes of breast epithelia, were separated from unlabelled cells in a fluorescence-activated cell sorter (FACS). Cells not expressing the HMFG-1 antigen have a greater in vitro growth potential than the positive ones, and give rise to cultures containing both HMFG-1 antigen positive and negative cells. The cultures derived from negative cells usually contain colonies with 'open' cuboidal cells and these do not express the HMFG-1 antigen. However, when they differentiate into other phenotypes such as the 'closed' cuboidal cell type, expression of the differentiation antigen becomes evident and the cultures then show a reduced growth potential. When milk cells are subcultured several times, a new cell type emerges which does not express the HMFG-1 antigen or the intermediate filaments typical of epithelial cells but instead express high levels of fibronectin which is found in an extracellular matrix. Whether these cells emerge by selection of an existing phenotype or by phenotypic modulation is discussed.     

Phenotypic comparison between mesothelial and microvascular endothelial cell lineages using conventional endothelial cell markers, cytoskeletal protein markers and in vitro assays of angiogenic potential

Endothelial and mesothelial cells are mesodermally derived simple squamous epithelial cells. A controversy concerning the ontogenetic origin of neoplasms derived from these cell types, commonly cited in the literature, is whether Kaposi's sarcoma is a mesothelioma or an angioma. To assess the similarities and differences between these cell types, pulmonary microvascular endothelial cells (PMVEC) and pericardial mesothelial cells (PMC) were cultured in vitro. PMVEC and PMC were found to be difficult to distinguish from one another by histological criteria alone. Both cell types formed contact-inhibited, and 'cobblestone', monolayers typical of simple epithelial cells. PMVEC and PMC demonstrated positive immunoreactivity to Factor VIII-related antigen and angiotensin-converting enzyme (ACE) antigen. They also showed uptake of 1,1'-dioctacecyl-1,3,3,3',3-tetramethyl-indocarbocyanine perchlorate acetylated low density lipoprotein (DiI-Ac-LDL) in 4 h. Both PMVEC and PMC expressed low ACE activities when compared to macrovessel endothelial cells. PMVEC and PMC shared similar isoform profiles for vimentin and actin. Both cell types expressed the simple epithelial keratins, cytokeratins 8 and 19, though PMC contained 50% more cytokeratins than PMVEC. Additionally, PMC contained cytokeratin 18, an intermediate filament protein not detectable in PMVEC. PMC formed 15 times as many epithelial ringlets or "stomata" as PMVEC. PMVEC but not PMC could be induced in vitro to differentiate into branching tube-like structures in response to their culture environment. Reorganization of PMVEC into vessel-like structures was more rapid and complete than PMC when embedded in three-dimensional collagen I lattices, cultured on Matrigel or exposed to a shaped-pulsed electromagnetic field. The angiogenic response of PMVEC to specialized culture conditions in vitro may reflect their phenotypic differentiation state characterized by anastomosing vascular structures in vivo, whereas PMC remain differentiated into monolayer sheet-like structures.     

Lineage analysis in the chicken inner ear shows differences in clonal dispersion for epithelial, neuronal, and mesenchymal cells

The epithelial components of the vertebrate inner ear and its associated ganglion arise from the otic placode. The cell types formed include neurons, hair-cell mechanoreceptors, supporting cells, secretory cells that make endolymphatic fluid or otolithic membranes, and simple epithelial cells lining the fluid-filled cavities. The epithelial sheet is surrounded by an inner layer of connective and vascular tissues and an outer capsule of bone. To explore the mechanisms of cell fate specification in the ear, retrovirus-mediated lineage analysis was performed after injecting virus into the chicken otocyst on embryonic days 2.5-5.5. Because lineage analysis might reveal developmental compartments, an effort was made to study clonal dispersion by sampling infected cells from different parts of the same ear, including the auditory ganglion, cochlea, saccule, utricle, and semicircular canals. Lineage relationships were confirmed for 75 clones by amplification and sequencing of a variable DNA tag carried by each virus. While mesenchymal clones could span different structural parts of the ear, epithelial clones did not. The circumscribed epithelial clones indicated that their progenitors were not highly migratory. Ganglion cell clones, in contrast, were more dispersed. There was no evidence for a common lineage between sensory cells and their associated neurons, a prediction based on a proposal that the ear sensory organs and fly mechanosensory organs are evolutionarily homologous. As expected, placodal derivatives were unrelated to adjacent mesenchymal cells or to nonneuronal cells of the ganglion. Within the otic capsule, fibroblasts and cartilage cells could be related by lineage.     

Cytogenetic, morphologic and oncogene analysis of a cell line derived from a heterologous mixed mullerian tumor of the ovary

Summary A cell line was established from a mixed mullerian tumor of the ovary and designated LN1. Histopathologic analysis of the fresh tumor specimen demonstrated a highly aneuploid heterologous tumor comprised of undifferentiated mesodermal components with carcinomatous cells present as a smaller population. Long-term in vitro culture resulted in the establishment of a cell line that exhibits an epithelial-like morphology and expresses epithelial antigens cytokeratin, epithelial membrane antigen, and carcinoma antigen TAG-72. These cells also express mesenchymal intermediate filaments, vimentin, and desmin. Karyotypic analysis revealed a basic triploid pattern with multiple chromosomal abnormalities, most notably an isochromosome of the short arm of five present in three copies. Analysis of oncogene expression revealed that LN1 cells constitutively express mRNA for c-ras, c-erbB2, and p53. The expression of mRNA for cellular oncogenes correlated with the presence of corresponding oncoproteins, p21^H-ras, p21^K-ras, and p185^erbB2 and mutant p53 protein. In summary, coexpression of epithelial and mesenchymal antigens by LN1 cells lends support to the hypothesis that epithelial and mesenchymal elements comprising mixed mullerian tumors of the ovary are derived from a common stem cell precursor. Furthermore, this cell line represents a functional in vitro model to evaluate the biologic activities of these unusual and highly aggressive ovarian malignancies.     

Differentiation of Human Umbilical Cord Mesenchymal Stem Cells into Prostate-Like Epithelial Cells In Vivo

Although human umbilical cord mesenchymal stem cells (hUC-MSCs) have been identified as a new source of MSCs for potential application in regenerative medicine, their full potential of differentiation has not been determined. In particular, whether they have the capability to differentiate into epithelial cells of endodermal origin such as the prostate epithelial cells is unknown. Here we report that when hUC-MSCs were combined with rat urogenital sinus stromal cells (rUGSSs) and transplanted into the renal capsule in vivo, they could differentiate into prostate epithelial-like cells that could be verified by prostate epithelial cell-specific markers including the prostate specific antigen. The prostatic glandular structures formed in vivo displayed similar cellular architecture with lumens and branching features as seen for a normal prostate. In addition, the human origin of the hUC-MSCs was confirmed by immunocytochemistry for human nuclear antigen. These findings together indicate that hUC-MSCs have the capability to differentiate into epithelial-like cells that are normally derived from the endoderm, implicating their potential applications in tissue repair and regeneration of many endoderm-derived internal organs.     

Establishment and characterization of an immortalized but non-transformed human prostate epithelial cell line: BPH-1

Summary This report describes the development and characterization of an epithelial cell line (BPH-1) from human prostate tissue obtained by transurethral resection. Primary epithelial cell cultures were immortalized with SV40 large T antigen. One of the isolated clones was designated BPH-1. These cells have a cobblestone appearance in monolayer culture and are non-tumorigenic in nude mice following subcutaneous injection or subrenal capsule grafting. They express the SV40 large T antigen and exhibit increased levels of p53, as determined by immunocytochemistry. Cytogenetic analysis by G-banding demonstrated an aneuploid karyotype with a modal chromosome number of 76 (range 71 to 79,n=28) and 6 to 8 marker chromosomes. Some structurally rearranged chromosomes were observed, but the Y chromosome was normal. The expressed cytokeratin profile was consistent with a prostatic luminal epithelial cell. This profile was the same as that of primary prostatic epithelial cultures from which the BPH-1 cells were derived. In serum-free culture in plastic dishes epidermal growth factor (EGF), transforming growth factor (TGF)-α, fibroblast growth factor (FGF) 1 (aFGF), and FGF 7 (KGF) induced increased proliferation in these cells whereas FGF 2 (bFGF), TGF-β1, and TGF-β2 inhibited proliferative activity. Testosterone had no direct effect on the proliferative rate of BPH-1 cells. 5α-Reductase, 3α-hydroxysteroid oxidoreductase, and 17β-hydroxy-steroid oxidoreductase activities were detected in BPH-1 cells. Expression of androgen receptors and the secretory markers, prostate specific antigen and prostatic acid phosphatase, were not detectable by immunocytochemistry, biochemical assay, or RT-PCR analysis.     

Expression of cytokeratin polypeptides during development of the rat inner ear

Summary The expression of cytokeratin polypeptides in the different epithelia of the developing inner ear of the rat from 12 days post conception to 20 days after birth was analysed immunohistochemically, using a panel of monoclonal antibodies. Throughout the development of the complex epithelial lining of the inner ear originating from the otocyst epithelium, only cytokeratins which are typical of simple epithelia were expressed. Cytokeratins 8, 18, and 19 were detectable shortly after the formation of the otocyst from the ectoderm (12 dpc), whereas cytokeratin 7 expression was delayed and first appeared in the vestibular portion and subsequently in the developing cochlear duct. During the development of the different types of specialized cells, differentiation-dependent modulation of the cytokeratin expression patterns was observed. In the mature inner ear, the specialized cell types displayed a function-related cytokeratin expression profile, both in the cochlear and vestibular portion. Cytokeratin expression in the flat epithelium of the vestibular portion suggests a more complex composition of this epithelium than has been established from routine morphology. Remarkably, the cochlear sensory cells were apparently devoid of cytokeratins, but no final conclusion could be drawn on the presence of cytokeratins in the sensory cells of the vestibular portion, because of the difficulty to delineate the cell borders between sensory cells and supporting cells.     

Fine needle aspiration cytology of high grade mucoepidermoid carcinoma of the breast: a case report

BACKGROUND: Primary mucoepidermoid carcinoma of the breast is a very unusual tumor. It is often misdiagnosed, masquerading under different diagnoses. The cytologic assessment is especially difficult when the lesion is high grade. One reported case was initially diagnosed by fine needle aspiration cytology. CASE: A 69-year-old woman presented with a 6 x 4-cm tumor located in the upper outer quadrant of the right breast. The first cytologic diagnosis suggested ductal carcinoma with atypical squamous metaplasia; further review disclosed that the clusters of epithelial ductal cells displayed a mixed pattern of glandular, squamous and intermediate cells. There also was a scant intracellular and extracellular mucous substance, confirming the diagnosis of mucoepidermoid carcinoma. Histochemistry and immunohistochemistry, performed on the tumor and lymph node metastases, showed cellular staining for periodic acid-Schiff, and keratin, epithelial membrane antigen and carcinoembryonic antigen demonstrated the epithelial origin. The high expression of Ki-67, as well as the finding of 24 metastasized nodes in the axilla, demonstrated the tumor's aggressiveness. CONCLUSION: Fine needle aspiration cytology is a very reliable tool in achieving a fast and accurate diagnosis of primary mucoepidermoid carcinoma of the breast.     

The modulation of cell adhesion molecule expression and intercellular junction formation in the developing avian inner ear

The cells that constitute the membranous labyrinth in the vertebrate inner ear are all derived from a single embryonic source, namely, the otocyst. The mature inner ear epithelia contain different regions with highly differentiated cells, displaying a highly specialized cytoarchitecture. The present study was designed to determine the presence of adherens-type intercellular junctions in this tissue and study the expression of cell adhesion molecules (CAMs) associated with these junctions, namely, A-CAM and L-CAM, in the developing avian inner ear epithelia. The results presented here show that throughout the early otocyst, A-CAM is coexpressed with L-CAM. The formation of asymmetries between sensory and nonsensory areas in the epithelium is accompanied by the modulation of CAMs expression and the assembly of intercellular junctional complexes. A-CAM and L-CAM display reciprocal expression patterns, the former being expressed mostly in the mosaic sensory epithelium, while L-CAM becomes conspicuous in the nonsensory areas but its expression in the sensory region is markedly reduced. Adherens-type junctions and numerous desmosomes are found in the junctional complexes of early otocyst cells. The former persist to maturity of the various inner ear epithelia, whereas desmosomes disappear from junctional complexes of hair cells but remain in the intercellular junctional complexes of all other cell types in the membranous labyrinth. Thus, adherens type intercellular junctions comprise the only defined cytoskeleton-bound junction in mature hair cells. A-CAM-positive cells are also found in the region of the acoustic ganglion in early developmental stages but not in the mature neural elements.