Immunolocalization of laminin during estrogen-induced differentiation of quail oviduct epithelial cells

During estrogen-induced development of the quail oviduct, tubular glands are formed by evagination of epithelial cells into the stroma. The distribution of laminin was studied during the early stages by means of immunofluorescence and immunoperoxidase techniques. Ultrastructural changes in the basal lamina were studied by electron microscopy. Basement membranes at all stages of development were delineated with 3 polyclonal antilaminin antisera. However, in ovariectomized birds, laminin could not be detected by one of the polyclonal antilaminin antisera. Subsequently, this antibody detected laminin as epithelial cell evaginations were induced by estradiol benzoate. The heavy and light chains of Engelbreth Holm sarcoma (EHS) laminin were revealed in immunoblotting by all antibodies. By electron microscopy after the immunoperoxidase technique with antilaminin antisera laminin appears to be accumulated mainly in the lamina densa. Furthermore, the thickness of the basal lamina increases during oviduct development. These data indicate that basal lamina organization is modified during oviduct cell differentiation and that immunoreactivity of epithelial basement membrane laminin changes during development.     

Modification of cell evagination and cell differentiation in quail oviduct hyperstimulated by progesterone

Quail oviduct development is controlled by sex steroid hormones. Estrogen (E) induce cell proliferation, formation of tubular glands by epithelial cell evagination and cell differentiation. Progesterone (P) strongly increases the secretory process in E-treated quails, but inhibits cell proliferation, cell evagination and differentiation of ciliated cells. The balance between E and P is critical for harmonious development of the oviduct. After 6 daily injections of two doses of estradiol benzoate (10 or 20 micrograms/d) and high doses of P (4 mg/d), tubular gland formation by epithelial cell evagination was inhibited, while epithelial cell proliferation occurred, as shown by the height of the villi and the increase in DNA. Secretory processes were strongly stimulated. Ovalbumin, a tubular gland cell marker and avidin, a mucous cell marker, were localized by immunofluorescence and immunogold labeling. Ovalbumin was localized only in the rudimentary tubular glands, whereas avidin was dispersed throughout the secretory cells. High doses of progesterone inhibited tubular gland cell proliferation, disturbed the distribution of avidin and inhibited differentiation of ciliated cells. Ovalbumin synthesis occurred only in epithelial cells which were evaginated despite the hyperstimulation. Ovalbumin gene expression appeared highly dependent upon the cell position.     

Incorporation of mevalonate into dolichol and other isoprenoids during estrogen-induced chick oviduct differentiation

Incorporation of [14C]mevalonate into dolichol and other isoprenoid compounds by chick oviduct explants has been studied. A reliable assay of dolichol biosynthesis employing several chromatographic procedures, including two-dimentional TLC, was developed. Incorporation of [14C]mevalonate into dolichol by oviduct explants was linear for at least 6 h. The effect of estrogen-induced differentiation was studied by incubation of explants obtained from chicks treated for various periods of time with diethylstilbestrol. Mevalonate incorporation into dolichol, when expressed as cpm per g of tissue, was not affected by estrogen treatment, but since the oviduct increased about 100-fold in mass during differentiation, each oviduct synthesizes about 100-fold more dolichol. In most tissues, the major product of mevalonate incorporation is cholesterol. However, although approx. 90% of the non-saponifiable 14C-labeled compounds were in the so-called 'cholesterol fraction', oviduct explants from estrogenized chicks synthesized little, if any, cholesterol. A number of cholesterol biosynthetic intermediates were observed, with compounds comigrating with squalene and lanosterol accounting for about 50% of the total. Since the estrogenized chick has serum cholesterol levels in the range of 800-900 mg/dl, these results suggest that oviduct has secondary control points which allow it to inhibit cholesterol synthesis when mevalonate is used as the precursor. In support of this hypothesis is the observation that explants from untreated chicks can incorporate mevalonate into cholesterol.     

In vitro effects of colchicine and nocodazole on ciliogenesis in quail oviduct

Oviduct implants from quails which were primarily stimulated in vivo by estrogen so as to induce ciliogenesis in some epithelial cells were cultured in vitro in the presence or absence of colchicine or nocodazole. After 24 or 48 hr of culture, implants were examined by transmission and scanning electron microscopy to determine drug-induced alterations in ciliogenesis. After 24 hr of 10(-5) M colchicine treatment, the formation of basal bodies was totally inhibited, though the precursor material of generative complexes was unchanged. The inhibitory effect was not reversed when colchicine was removed in a 24 hr recovery culture. Treatment with 10(-6) M nocodazole for 24 hr, partially inhibited the assembly of basal bodies, which exhibited altered morphology. The assembly of basal bodies was restored during the 24 hr recovery period, after removal of nocodazole. Colchicine and nocodazole did not prevent polarized migration towards the apical surface of basal bodies formed prior to drug treatment. They anchored to the plasma membrane, but the formation of cilia was strongly disturbed in the presence of the drug. Numerous cells possessed anchored basal bodies which failed to induce the formation of cilia. The elongation of cilia was inhibited, as seen by their abnormal capping structure. In the enlarged tip, microtubules diverged. In contrast, these very short cilia possessed a mature ciliary necklace which was constructed during drug treatment. Differentiation of this membrane ciliary structure appeared to be unrelated to axoneme growth.     

In vitro effects of benzodiazepines on ciliogenesis in the quail oviduct

Immature oviduct implants from quails stimulated by estrogen to induce ciliogenesis were submitted to the in vitro action of benzodiazepines in organotypic culture. Diazepam and medazepam were added to the culture medium for 24 or 48 hours and tissues were examined by transmission and scanning electron microscopy for alterations in ciliary differentiation. Ciliogenesis was inhibited by both diazepam and medazepam, which affected mainly the migration of the basal bodies. Assembly of basal bodies was achieved normally in the cytoplasm, but their separation from generative complexes and migration toward the apical membrane were prevented. They remained in clusters around a deuterosome or eventually anchored to the close lateral plasma membrane. Furthermore, the drugs affected mature beating cilia, which then appeared lying tangentially to the cell surface. Relation between basal bodies and cortical cytoskeleton seemed to be altered by the drugs, which implies that the bearing of cilia and probably the ciliary beating movement were modified. Microvillus development was also altered by the action of these drugs.     

Opposite regulation of cAMP concentration in the quail oviduct and the mouse uterus by tamoxifen. Correlation with estrogen-antagonist and estrogen-agonist activity

The ability of estradiol and tamoxifen to regulate cAMP levels and cAMP phosphodiesterase activities has been determined in the quail oviduct and in the mouse uterus. In the quail, tamoxifen (1 mg/kg daily for 3 days) had no effect on oviducal growth but significantly increased cAMP concentration (+49%). Injected concurrently with estradiol, tamoxifen completely inhibited oviduct growth as well as the increase of cAMP phosphodiesterase activity induced by the hormone alone and increased cAMP concentration (+229% over estradiol treated group). In the mouse, estradiol and tamoxifen displayed uterotrophic activity and increased cAMP phosphodiesterase activity. In both groups, cAMP concentration was greatly reduced (−76% in estradiol treated group; −86% in tamoxifen treated group). The opposite regulation of cAMP levels in the quail oviduct and the mouse uterus by tamoxifen reflected large differences in the contribution of calmodulin-dependent and -independent forms of phosphodiesterase to the hydrolysis of cAMP in the two models and the fact that tamoxifen stimulated the activity of the calmodulin-independent isoenzyme, while it competitively inhibited the activation of the calmodulin-dependent isoenzyme by calmodulin. Several lines of evidence strongly suggest that the regulation of cAMP levels is involved in growth-inhibiting or growth-promoting activity of tamoxifen.     

Determination of ciliary polarity precedes differentiation in the epithelial cells of quail oviduct.

In quail oviduct epithelium, as in all metazoan and protozoan ciliated cells, cilia beat in a coordinated cycle. They are arranged in a polarized pattern oriented according to the anteroposterior axis of the oviduct and are most likely responsible for transport of the ovum and egg white proteins from the infundibulum toward the uterus. Orientation of ciliary beating is related to that of the basal bodies, indicated by the location of the lateral basal foot, which points in the direction of the active stroke of ciliary beating. This arrangement of the ciliary cortex occurs as the ultimate step in ciliogenesis and following the oviduct development. Cilia first develop in a random orientation and reorient later, simultaneously with the development of the cortical cytoskeleton. In order to know when the final orientation of basal bodies and cilia is determined in the course of oviduct development, microsurgical reversal of a segment of the immature oviduct was performed. Then, after hormone-induced development and ciliogenesis, ciliary orientation was examined in the inverted segment and in normal parts of the ciliated epithelium. In the inverted segment, orientation was reversed, as shown by a video recording of the direction of effective flow produced by beating cilia, by the three-dimensional bending forms of cilia immobilized during the beating cycle and screened by scanning electron microscopy, and by the position of basal body appendages as seen in thin sections by transmission electron microscopy. These results demonstrate that basal body and ciliary orientation are irreversibly determined prior to development by an endogenous signal present early in the cells of the immature oviduct, transmitted to daughter cells during the proliferative phase and expressed at the end of ciliogenesis.     

Modulation of quail oviduct adenylate cyclase activity by estradiol and progesterone

Oviduct adenylate cyclase activity of the quail was measured by radiochemical analysis following different hormonal treatments. A single injection of estradiol benzoate (EB) to immature female quails resulted in a prereplicative surge of adenylate cyclase activity. A second surge of enzyme activity was observed during the proliferative phase induced by EB. Estradiol-17 alpha, estrone, estriol and testosterone were ineffective. Tamoxifen completely inhibits the growth-promoting effect of EB and the second surge of adenylate cyclase activity but does not inhibit the prereplicative increase of enzyme activity. This prereplicative increase of adenylate cyclase activity was also observed, even in the absence of increased plasma estradiol, when estradiol-17 beta (E2) was perfused through the hepatic portal vein. Moreover, E2 had no effect on enzyme activity when added directly to the oviduct homogenate preparation, at concentrations ranging from 10(-9) to 10(-7) M. In response to progesterone injection, oviduct adenylate cyclase activity followed a different pattern, beginning its increase after 3 h and remaining elevated up to 24 h. The activation by estradiol was independent of the presence of guanylylimidodiphosphate. Moreover, the enzyme was more sensitive to forskolin at submaximal concentration in estradiol treated birds than in control. These results demonstrate that transient activation of adenylate cyclase at the early stages of the action of estradiol does not occur through the classic nuclear receptor-gene activation pathway or a membrane receptor mediated process, but involves an indirect pathway, yet to be defined.     

The effect of dihydrotestosterone on the estrogen-induced cytodifferentiation of the chick oviduct

The androgenic effects on the estrogen-induced cytodifferentiation of the chick oviduct epithelium were investigated. Dihydrotestosterone was shown to have an effect on the organization of stromal cells. Since these cells contained androgen receptor (AR), it is reasonable to assume an involvement of androgens in the differention and functioning of these cells through a direct action. Immunohistochemical analysis revealed a wide distribution of AR. AR was shown to be expressed in both the endothelial and smooth musle cells of blood vessels. In the immature oviduct AR was located in the epithelial, mesenchymal and mesothelial cells. In the differentiating oviduct, whether induced by exogenous estrogen or normally by endogenous hormones, AR was also expressed by the tubular gland cells. Dihydrotestosterone alone had no effect on the morphology of the immature oviduct, suggesting the involvement of the determinants of differentiation in the action of androgen together with estrogen.     

Detection of plasma membrane cholesterol by filipin during microvillogenesis and ciliogenesis in quail oviduct

Using filipin as a probe for the presence of membrane cholesterol, the evolution of cholesterol distribution in the apical plasma membrane was studied during estrogen-induced ciliogenesis in quail oviduct and compared with the distribution of intramembrane particles (IMPs). Ciliary growth is preceded by the first step of microvillus differentiation. Microvilli emerge in membrane domains rich in IMPs and devoid of filipin-cholesterol (f-c) complexes. However growing microvillus membrane shows f-c complexes. During ciliary growth, microvilli lengthen from 0.5 to 2 microns, indicating that the microvillar membrane is not a membrane reservoir for ciliogenesis. During ciliary growth, the characteristic ciliary necklace IMP rows appear progressively at the base of cilia. The first IMP row is organized in a membrane circlet lacking of f-c complexes, whereas the new shaft membrane in the middle of the circlet exhibits numerous complexes. These two different domains of the cilia keep their specificity during ciliary growth. Only the ciliary tip shows fewer complexes than the shaft membrane. The apical membrane of differentiated ciliated cells is thus composed of various domains, the ciliary shaft full of f-c complexes and poor in IMPs, the ciliary necklace is devoid of f-c complexes and rich in IMPs, the microvilli membrane is rich in both IMPs and f-c complexes, and the interciliary membrane is poor in both f-c complexes and IMPs, whereas the undifferentiated cells exhibit an apical membrane in which f-c complexes and IMPs are distributed homogeneously.     

Effects of insulin-like growth factor-I,estrogen, glucocorticoid,and transferrin on the mRNA contents of ovalbumin and conalbumin in primary cultures of quail (Coturnix coturnix japonica) oviduct cells

The effects of estrogen, dexamethasone, insulin-like growth factor-I (IGF-I), and transferrin on the messenger RNA (mRNA) contents of ovalbumin and conalbumin in primary cultures of quail oviduct cells were investigated. In the absence of one of the above hormones or factors, a decrease in ovalbumin mRNA was prominent. In particular, removal of IGF-I and transferrin caused a significant effect. Studies using a combination of estrogen, dexamethasone, IGF-I and transferrin indicated that IGF-I cooperates with estrogen or dexamethasone and transferrin works with dexamethasone. Specifically, IGF-I enhanced ovalbumin synthesis or increased cellular ovalbumin mRNA content depending on its concentration in the medium in the presence of estrogen. However, the effects of estrogen, dexamethasone, IGF-I, and transferrin were not similarly observed with conalbumin mRNA. These results show that ovalbumin synthesis is controlled by estrogen or glucocorticoid with IGF-I or transferrin and that cellular ovalbumin mRNA content is also regulated by these hormones or transferrin. In contrast, conalbumin synthesis and cellular content of conalbumin mRNA are not affected by these hormones under the conditions of the present study.     

A checkerboard pattern manifested by the oviduct epithelium of the Japanese quail.

The oviduct epithelium of the Japanese quail is a monolayered epithelium consisting of two types of columnar cells, goblet type gland (G-) cells and ciliated (C-) cells. We found these cells to be arranged in a checkerboard pattern. Three types of cell boundaries formed between the two different types of cells were examined statistically at various levels of the columnar cells. There was a tendency on the part of the cells to form boundaries between G- and C- cells rather than between two C- cells or between two G- cells. We therefore propose that the pattern is constructed under a rule of maximizing the length of boundaries of two different types of cells owing to the fact that theirs is the greatest adhesion capacity. The role of microfilament bundles running along the apical cell boundaries is also discussed. It is suggested that they are in a tense state so as to shorten total length by contraction.     

Direct demonstration of glucocorticoid receptor phosphorylation by intact L-cells

Glucocorticoid-sensitive L-cells were cultured for 18 h in the presence of [32P]orthophosphate and steroid-binding proteins of cytosol were separated by affinity chromatography and analyzed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and isoelectric focusing. Cytosol contains a major phosphoprotein of Mr = 92,000 and a minor phosphoprotein of Mr = 100,000, both of which bind glucocorticoids in a stereospecific, high affinity manner and have the same Mr as glucocorticoid receptor species that have been covalently labeled with the site-specific affinity ligand [3H] 9 alpha-fluoro-16-methyl-11 beta,17 alpha,21-trihydroxypregna-1, 4-diene-3,20-dione 21-mesylate. Cytosol from 32P-labeled, glucocorticoid-resistant L-cells possessing 5% of the steroid-binding capacity of sensitive cells contains very little of the Mr = 92,000 phosphoprotein and none of the Mr = 100,000 phosphoprotein. These observations provide strong evidence that the glucocorticoid receptor is phosphorylated by intact L-cells. The Mr = 92,000 protein is phosphorylated on serine and it can be resolved into two species using isoelectric focusing, consistent with the proposal that there is more than 1 phosphorylated serine/steroid-binding unit. The glucocorticoid-resistant L-cell line produces a unique phosphoprotein of Mr = 104,000 that is recovered in variable amounts after affinity chromatography. It is not known whether this phosphoprotein is a separate gene product or whether it represents a precursor with weak steroid-binding activity that is not cleaved in the resistant cell to the high affinity, Mr = 92,000 mature receptor form.     

Degradation of meta-trifluoromethylbenzoate by sequential microbial and photochemical treatments

Abstract m - and p -trifluoromethyl (TFM)-benzoates are completely degraded by aerobic bacteria that catabolize alkylbenzoates; biodegradation ceases after ring-fission with the accumulation of a trifluoromethyl muconate semialdehyde (2-hydroxy-6-oxo-7,7,7-trifluorohepta-2,4-dienoate, TFHOD) which is resistant to biochemical attack. A bacterium (Strain V-1), isolated from sea-water, grew aerobically on benzoate or m -toluate. Cells grown on benzoate or m -toluate oxidized both compounds at similar relative rates. Catabolism involved benzoate 1,2-dioxygenase (decarboxylating) and meta -cleavage to yield muconate semialdehydes. Cells grown on benzoate metabolized m -TFM-benzoate to TFHOD. The ring-fission products from m -toluate and TFHOD were degraded by sunlight, and equimolar fluoride was released from TFHOD. Sequential biochemical and photochemical treatment allowed the destruction of m -TFM-benzoate beyond the biochemically recalcitrant intermediate TFHOD.     

Effect of estrogen on angiotensin converting enzyme in immature quail oviduct.

Effect of oestradiol was studied on the angiotensin converting enzyme (ACE)--a component of renin angiotensin system, in oviduct of immature quails of 15 days of age. ACE was studied in whole oviduct, magnum, shell gland and the glandular epithelium of magnum and shell gland. It was found that whole oviduct had a significantly higher level of ACE in control than those treated with exogenous estrogen at three dose levels (200, 400 or 600 micrograms). ACE contents of whole muscle and glandular epithelium did not differ but magnum had higher ACE level than the shell gland. Results are explained on the basis of functional role of oviductal parts.