Regional differences in quantities of histochemically detectable mucosubstances in nasal, paranasal, and nasopharyngeal epithelium of the bonnet monkey

Inhaled irritants induce secretory cell hyperplasia in nasal epithelium of animals. To characterize this response histochemically it is first important to know the histochemical character and distribution of epithelial mucosubstance in the normal nasal cavity. An automated image analyzing method was used to detect and quantitate acidic, neutral, and sulfated mucosubstances in the epithelium lining the nasal and paranasal airways of eight bonnet monkeys. Tissue sections 2 micron thick from defined regions of these airways were stained with either alcian blue/periodic acid-Schiff to demonstrate acid and neutral mucosubstances or high iron diamine to demonstrate sulfated mucins. Respiratory epithelium covering maxilloturbinates had the largest volume of stainable mucosubstance per unit surface area of basal lamina, whereas the maxillary sinus epithelium had the least. There was a general anteroposterior increase in the quantity of total epithelial mucosubstance along the septal and lateral walls of the nasal cavity, and there was more acidic than neutral mucosubstance in the posterior nasal airway than in the anterior. Epithelial mucosubstance in the maxillary sinus was predominantly neutral. Therefore, we conclude that there are substantial regional quantitative differences in stainable mucosubstances in the primate nasal epithelium which must be considered when examining nasal mucosa for irritant-induced changes in epithelial mucins.     

Behavior of silver stainable material during mitosis inVicia faba

To reveal the behavior of silver stainable material localized mainly in the nucleoli and nucleolar organizing regions (NORs), the somatic cells ofVicia faba were investigated by silver staining throughout the mitotic cell cycle. Nucleoli of interphase and early prophase nuclei were darkly stained. From late prophase to anaphase the secondary constrictions were discriminated as silver stained NORs and many silver grains appeared throughout the cytoplasm. At late prophase the NOR condensed at the same rate as the chromosome arm. Small spherical bodies and two new nucleoli appeared in telophase nuclei and at the same time the cytoplasmic grains disappeared. On the basis of the above observations on the silver stainable material during each mitotic phase, the behavior of silver stainable material is interpreted.     

Ultrastructural localization of heparan sulfate and chondroitin sulfates associated with granulopoiesis in embryonic chick bone marrow

Sulfated glycoconjugates were ultrastructurally localized within embryonic chick marrow by using the high iron diamine-silver proteinate stain. Stain was concentrated in the extravascular, granulopoietic compartment, indicating that granulopoiesis, but not erythropoiesis, proceeded in a highly sulfated environment. It was likely that most of the stainable material represented sulfated proteoglycans since staining was abrogated by predigesting tissue with enzymes and other treatments known to degrade specific glycosaminoglycan chains. Chondroitinase/hyaluronidase digestion resulted in the removal of most of the stainable material associated with the extracellular matrix and a portion of the stainable material associated with fibroblastic cell surfaces. Unaffected material lay in close proximity to fibroblastic cell membranes. Heparitinase/heparinase digestion had essentially the opposite effect. Sulfated material associated with matrix components was largely unaffected, but the fibroblastic plasmalemmal material was now absent. These results suggest that there are at least two categories of sulfated proteoglycans in the granulopoietic compartment, each differentially distributed. The plasmalemmal material likely represented heparan sulfate which in this tissue appeared to be associated in a uniform layer with fibroblastic stromal cell membranes and not with blood or endothelial cell membranes. Material identified as chondroitin sulfates was found within patches of amorphous matrix that was located on fibroblastic stromal cell surfaces and that was interspersed with fibrils in the extracellular matrix. Chondroitin sulfates were sparsely distributed on granulocytic cell surfaces.     

Early secretory activity in the hypothalamic nuclei and neurohypophysis in the rat; determined by selective staining

Visualization of stainable material in the neural lobe of the rat provided the most reliable index of the age at which secretory activity can first be recognized, though preceded by both hypothalamic synthesis and axonal transportation. A problem of interpretation was encountered in the neural lobes of fetal and infant animals, due to different staining responses obtained during this age period, to the two methods of staining employed; chrome alum hematoxylin-phloxin and aldehyde fuchsin after oxidation by either acidified potassium permanganate or performic acid. With aldehyde fuchsin the material of the neural lobe is stainable selectively from the eighteenth day of fetal life to adulthood. With hematoxylin phloxine the first staining response also occurred in the posterior lobe but much later, at the end of the first postnatal week. The staining situation in the pars neuralis has its counterpart in the differentiating hypothalamic nuclei; complicated by the differentiation of the supraoptic nuclei some days in advance of the paraventricular nuclei. After aldehyde fuchsin staining, evidences of neurosecretory activity were present in the perikarya of the supraoptic nuclei at birth, but mature neurons were rarely seen in the paraventricularis until at least 24 hours later. Nuclei of fetal hypothalami were not studied, but the demonstration of stainable material in the fetal neural lobes constitutes circumstantial evidence of functional competence of some neurons of either one or both types of nucleus, most likely the supraoptic.     

Ontogeny of endocrine cells in the respiratory system of Syrian golden hamsters

The ontogeny of protein gene product 9.5 (PGP 9.5), serotonin (5-HT), calcitonin gene-related peptide (CGRP), and calcitonin (CT) immunoreactivity was evaluated in small-granule endocrine cells of hamster laryngotracheal epithelium from fetal day 11 to adulthood. Two centrifugal (proximal-to-distal) patterns of differentiation occur. The first pattern begins during fetal life. Endocrine cells, single and clustered in groups (presumptive-or protoneuroepithelial bodies, pNEBs), initially colocalize immunostaining for PGP 9.5, 5-HT, and CGRP in the larynx and proximal 2/3 of the trachea on day 12 and spread to the caudal trachea on day 13.5-HT disappears fleetingly during the 24 h preceding birth; other-wise immunoreactivity for all three substances persists into adulthood. The clusters of endocrine cells survive beyond birth but are so diluted by expansion of the nonendocrine epithelium as to become inconspicuous. Since innervation was not actually observed, these clusters may persist as pNEBs, without developing connections to afferent or efferent nerve fibers. The second pattern concerns single small-granule cells stainable for CGRP but not for 5-HT. These cells first appear in the larynx and cartilaginous part of the cranial trachea on postnatal day 3, and in the middle and caudal trachea, on day 5. The cells increase in number on day 7. In adults, they predominate among endocrine cells of the cartilaginous region. A subset of these cells begins to co-express CT proximally on postnatal day 10, reaching the caudal end of the trachea by 3 weeks. A few elements of the older 5-HT-positive population may also become immunoreactive for CT in juvenile hamsters.     

Quantitative changes and ultrastructural alterations of the cornea in response to ultraviolet light II. Effects on amphibia; elucidation of desmosomal structure and basement membrane synthesis

The cornea of the urodele amphibian Triturus c. cristatus was studied ultrastructurally in order to provide the basis for a comparison among corneas throughout the vertebrate phylum. The cornea of this salamander consists of relatively thick epithelium and basement membrane and thin Descemet's membrane, unlike the mammalian corneas. The outermost epithelial cells contain Ruthenium Red stainable extracellular filaments and intracellular vesicles which are thought to play a role in the process of lubricating the corneal surface. Occluding junctions have been observed in the apical region of the superficial epithelial cells and are considered as barriers to the intercellular passage of material. A thin substantia propria (stroma) consists of about 40 collagenous highly organized lamellae. The thicknesses of the basement membrane, Descemet's membrane and the epithelium are believed to represent the primitive situation in the process of corneal evolution.     

Hyaluronan as a propellant for epithelial movement: the development of semicircular canals in the inner ear of Xenopus.

The membranous labyrinth of the inner ear, with its three semicircular canals, originates from a simple spheroidal otic vesicle. The process is easily observed in Xenopus. The vesicle develops three dorsal outpocketings; from the two opposite faces of each outpocketing pillars of tissue are protruded into the lumen; and these paired 'axial protrusions' eventually meet and fuse, to form a column of tissue spanning the lumen of the outpocketing like the hub of a wheel, with a tube of epithelium forming the semicircular canal around the periphery. Each axial protrusion consists of epithelium encasing a core of largely cell-free extracellular matrix that stains strongly with alcian blue. In sections, at least 60% of the stainable material is removed by treatment with Streptomyces hyaluronidase. When Streptomyces hyaluronidase is microinjected into the core of a protrusion in vivo, the protrusion collapses and the corresponding semicircular canal fails to form. Hyaluronan (hyaluronic acid) in the core of the protrusion therefore seems to be essential in driving the extension of the protrusion. Autoradiography with tritiated glucosamine indicates that the hyaluronan-rich matrix is synthesised by the epithelium covering the tip of the protrusion; the basal lamina here appears to be discontinuous. These findings indicate that the epithelium of the axial protrusion propels itself into the lumen of the otocyst by localised synthesis of hyaluronan. Hyaluronan may be used in a similar way in the development of other organs, such as the heart and the secondary palate.     

The cell coat of the developing olfactory epithelium in the chick

Summary During development of the olfactory epithelium in the chick embryo, the cell coat is revealed by treatment with Ruthenium red. On day 4 of incubation the developing sensory epithelium displays a thicker apical and basal cell coat than the neighbouring head ectoderm. The lateral cell coat is of equal thickness in both epithelia. The apical cell coat of the olfactory epithelium increases in thickness from day 4 to day 19 of embryonic life, finally attaining a thickness of about 55 nm.This paper is dedicated to Dr. A.J. ZamoraPortions of this paper were taken from the thesis by the author in fulfilment of the requirement for the degree of Dr. rer. nat. at the University of Essen Supported by the Deutsche Forschungsgemeinschaft (SFB114)     

Immunofluorescent localization of a substance immunologically related to insulin in the protocerebral neurosecretory cells of the European corn borer

Summary A substance immunologically related to mammalian insulin was demonstrated by immunofluorescence in one of five types of neurosecretory cells in the protocerebrum of the European corn borer, Ostrinia nubilalis. This A₂ cell type contains a secretory material stainable with paraldehyde fuchsin.E.R.A. CNRS n° 850     

The development of the guinea pig gallbladder epithelial cells. II. Electron microscopical and enzymhistochemical investigations (author's transl)]

The development of the guinea pig gallbladder epithelium follows a distinct time schedule. During the first phase (up to 30th day of intrauterine life) the epithelial cells increase in number. They remain small and undifferentiated. In the second phase, from the 30th to the 44th day, cytodifferentiation is a dominating feature. The epithelial cells increase in height, the nuclei become more basal, the cells acquire their final zonal structure and the cell organelles exhibit their characteeristic appearance. Weak enzyme activities can be observed. In the third phase, from the 45th day until birth, there is functional differentiation and the adult pattern of enzyme distribution is established. Glycogen appears first on day 29, increases in amount and then disappears by day 57. There is a marked development of the Golgi apparatus associated with increased synthesis of secretory material. Between the 59th embryonic day and the 6th day of life mucoid cells with different functional states appear in the gallbladder epithelium. Later on these cells can be visualized only in the depths of the invaginations. After birth the epithelial cells become more columnar and by 10 days after birth the adult appearance of the epithelium is fully established.     

Properties of Wilms' tumor line (TuWi) and pig kidney line (LLC-PK1) typical of normal kidney tubular epithelium

Summary Two stable epithelial-like cell lines, the pig kidney strain (LLC-PK₁) and a Wilms' tumor line (TuWi), previously established in other laboratories, were found to exhibit a number of properties characteristic of kidney proximal tubular epithelium. Electron micrographs of LLC-PK₁ monolayers revealed cells forming rosettes reminiscent of tubules. Numerous elongated microvilli and an amorphous basal laminar material surrounded the cell membranes. Cell junctions were located between cell membranes at regions adjacent to the patent lumens. Wilms' cells in culture were similar in appearance to the pig kidney cells; they exhibited numerous microvilli, a thin basal laminar coating on the membrane, and desmonsomes between cells. No rosette formation was evident. Neither cell line was found to produce extracellular reticulin fibers when grown in the presence ofl-ascorbic acid for 1 week. Absence of stainable reticulin in cell monolayer culture after ascorbicacid treatment has been noted only in cell lines of apparent epithelial origin. Histochemically, both lines reacted positively for activities of a number of enzymes found in high amounts in normal kidney tubular epithelium. Pig kidney cells were highly positive for γ-glutamyl transpeptidase activity and moderately active for acid phosphatase and leucine aminopeptidase activities. Wilms' tumor cells were markedly active for γ-glutamyl transpeptidase, 5′-nucleotidase, ATPase, glucose-6-phosphatase, and acid phosphatase activities. These findings in conjunction with the ultrastructural observations indicate that these two lines in culture maintain many of the properties typical of proximal kidney tubular epithelium.     

The paramedial neurosecretory cells of the suboesophageal ganglion of the cricket,Teleogryllus commodus (Walk.)

Summary Ovariectomy, performed immediately after the final hatch, caused a reduction of stainable (neurosecretory?) material in the paramedial neurosecretory cells (PNC) (A-type) of the suboesophageal ganglion in 10 day-old females of Teleogryllus commodus (Walk.). A concomitant increase in nuclear volume and in the incorporation of ³⁵S-cysteine indicates increased synthesis of neurosecretory material. From these findings it is concluded that more stainable material is secreted in the cerebral neurohaemal organ after Ovariectomy. A functional relationship between the PNC and the ovaries is suggested.     

Ontogeny of endocrine cells in the respiratory system of Syrian golden hamsters

The ontogeny of protein gene product 9.5 (PGP 9.5), serotonin (5–HT), calcitonin gene-related peptide (CGRP), and calcitonin (CT) immunoreactivity was evaluated in small-granule endocrine cells of hamster laryngotracheal epithelium from fetal day 11 to adulthood. Two centrifugal (proximal-to-distal) patterns of differentiation occur. The first pattern begins during fetal life. Endocrine cells, single and clustered in groups (presumptive- or protoneuroepithelial bodies, pNEBs), initially co-localize immunostaining for PGP 9.5, 5–HT, and CGRP in the larynx and proximal 2/3 of the trachea on day 12 and spread to the caudal trachea on day 13. 5–HT disappears fleetingly during the 24 h preceding birth; otherwise immunoreactivity for all three substances persists into adulthood. The clusters of endocrine cells survive beyond birth but are so diluted by expansion of the nonendocrine epithelium as to become inconspicuous. Since innervation was not actually observed, these clusters may persist as pNEBs, without developing connections to afferent or efferent nerve fibers. The second pattern concerns single small-granule cells stainable for CGRP but not for 5–HT. These cells first appear in the larynx and cartilaginous part of the cranial trachea on postnatal day 3, and in the middle and caudal trachea, on day 5. The cells increase in number on day 7. In adults, they predominate among endocrine cells of the cartilaginous region. A subset of these cells begins to co-express CT proximally on postnatal day 10, reaching the caudal end of the trachea by 3 weeks. A few elements of the older 5–HT-positive population may also become immunoreactive for CT in juvenile hamsters.     

Regeneration of the Cornea in Adult Newts: Overall Process and Behavior of Epithelial Cells

Regeneration of the cornea in adult newts was studied by means of light- and electron-microscopic techniques. We focused our analysis particularly on the behavior of epithelial cells during the initial process of wound healing after we had excised a central disk about 0.5 mm in diameter through the entire thickness of the cornea. Fine fibrous material, assumed to be fibrin, appeared within 30 min to form an acellular layer of mucous consistency which sealed the wound opening completely. The cut edge of corneal epithelium moved centripetally on this layer by coordinate movement of individual epithelial cells. Almost all cells of the remained epithelium were completely rearranged within 5 h after excision. Some desmosomes among the epithelial cells persisted during the process of cellular rearrangement. Thus, the wound opening was covered completely within 24 h by the epithelium alone without cell proliferation. Cytochalasin B or D completely inhibited movement of the corneal epithelium on the stroma in conditions in vitro, suggesting active participation of intracellular contractile microfilaments in such movement of the epithelium. Active growth of cells in the epithelium started on day 3 and the epithelium recovered its normal thickness by day 10 after excision.
After the recovery of the epithelium, keratocytes moved out from the wounded edge of the remained corneal stroma. These keratocytes actively proliferated in the wound area under the newly formed epithelium and participated in the stromal reconstitution, which proceeded gradually for more than 5 weeks.     

Studies on the differentiation pattern and hormonal sensitivity of an antigenic material specific for the cervicovaginal epithelium in fetal and neonatal mice.

By use of an indirect mixed haemagglutination method for tissue sections, the Müllerian cervicovaginal epithelium of fetal and neonatal mice has been shown to contain a material (CVA) with antigenic properties specific for this epithelium. The method is highly sensitive and permits a semiquantitative estimation of CVA in the epithelium. The studies showed that the cervicovaginal epithelium undergoes a multiphasic differentiation pattern. An estradiol injection 1 day prior to killing the animals strongly increased the amount of demonstrable CVA. The quantitative response to estradiol varied with the age of the animals. Notably, estradiol given as early as the day of birth stimulated CVA accumulation in the vaginal epithelium. Differences between the cervical epithelium and the vaginal epithelium regarding the response to estradiol are described.     

The influence of some chemosterilants and caffeine on the neuroendocrine system of adult male Ephestia kühniella

Injection of caffeine into adult male Ephestia kühniella induced a reduction in the amount of neurosecretory material in the resorcin fuchsin stainable (A-) cells of the pars intercerebralis. Both hemel (hexamethyl melamine) and tepa (tris (1-aziridinyl) phosphine oxide) treatments resulted in an increase in stainable neurosecretory products in the cytoplasm of the A-cells. The increase after hemel treatment was largely a result of increased synthesis of neurosecretory material as indicated by increased nuclear volume and nuclear-cytoplasmic ratio. No changes were induced by hemel in the corpora cardiaca and allata of the adult male E.kühniella. This disruption in neuroendocrine function is believed to be involved in the observed mating aberrations (permanent copulation and sterile matings) by adult males after hemel treatment.     

Scanning microscopy of the developing vagina in postnatal gerbils

Scanning electron microscopy of postnatally developing gerbil vagina (birth to maturity) shows that longitudinal folds form prior to transverse folds; the process of fold formation is initiated on the dorsal wall and proceeds ventrally. From days 1 to 7 postnatally, the vaginal epithelium is composed of either flat or bulging cells, depending on the vaginal region. The luminal cell surface is covered with uniform stubby microvilli and solitary cilia. Between days 9 and 20, the flat cells with distinct cell boundaries spread toward more proximal areas, leading to the formation of mixed patches of cells with flat or rounded apices. Individual elongated microvilli or tufts of forked microvilli may sprout from their surfaces. Solitary cilia gradually disappear. The transition from immature to mature vaginal epithelium starts around day 20, when individual cells recess below the level of neighboring cells. This process spreads throughout the vagina during the following days, reflecting local changes in the subsurface layers of the epithelium preparatory to exfoliation. Around day 40 the actual exfoliation of the luminal cell layer starts. By this time the surface characteristics of many of the desquamating cells have changed. In addition to microvilli, microridges are being formed. The process of exfoliation is finished by about day 60. The newly appearing cell layers now transform into typical cornified cells of the cycling vaginal epithelium.     

Histochemical Aspects of the Affinity of Mast Cell Granules for Night Blue

The affinity of mast cell granules for night blue was studied in fresh and fixed rat lip, dog mast cell tumor, normal human ileum, and human mast cell and carcinoid tumors. Fixatives used were 10% formalin, 1% trichloracetic acid in absolute alcohol, and Zenker's and Bouin's fluids. Extractions of fresh tissue with hot water, acids, and bases removed the stainable material or prevented staining, but similar treatment of fixed tissue did not. Hot pyridine was without effect as was chloroform-methanol, but methylation blocked mast cell staining by night blue. Chromic acid oxidation and prolonged Zenker and Bouin fixation also prevented staining. Hyaluronidase treatment was without effect. Sulfhydryl and disulfide linkages were changed without altering the stainability.     

Origin of the brushborder in the differentiating midgut of Melasoma saliceti (Chrysomelidae, Coleoptera) embryos

The embryonic development of Melasoma saliceti takes eight days at room temperature. At the beginning of the 5th day the endoderm cells have already formed a unilayered epithelium of the midgut primordium. The midgut epithelium is formed by flat cells that are not connected by specialized intercellular junctions. Large vesicles can be seen in dilated intercellular spaces of the epithelium. Cytoplasmic projections, similar to microvilli, appear in the vesicles. During the 5th day ofdevelopment, the vesicles grow and become enclosed by the intercellular junctions of a zonula adherens type. During the 6th day of development the cell junctions surrounding the vesicles become transformed into a septate type. On the 8th day of development the vesicles come close to the apical sides of the midgut cells and open towards the yolk. At the same time the microvilli spread over the apical surface of the midgut primordium to form the regular brushborder of the larval midgut. In the species studied the vesicles appear to "prefabricate" the apical surfaces of the future midgut epithelium.     

Photodynamic treatment of yeast cells with the dye toluidine blue: all-or-none loss of plasma membrane barrier properties.

Photodynamic treatment of Kluyveromyces marxianus with the sensitizer Toluidine blue leads to the loss of colony forming capacity. In this paper, the influence of this treatment on the barrier properties of the plasma membrane has been studied. Photodynamic treatment with the dye Toluidine blue resulted in efflux of potassium ions and E260-absorbing material. Moreover, cells became stainable with erythrosine. It is concluded that the permeability change induced by photodynamic treatment proceeds in an all-or-none fashion. Treatment of this yeast strain, with the dye and light, also induced a diminution of the cell volume. This process is most likely not coupled to the cellular potassium content, but rather to the integrity of the vacuole. These data suggest that the vacuole has an important function in the maintenance of cell volume. Finally, it was observed that the loss of cell viability was not induced by the all-or-none loss of barrier properties.