Enhancement of Squamous Cell Development in Cultured Skin by Cyclic Adenine Nucleotide and Prostaglandins

The present study tests the hypothesis that agents known to elevate the level of intracellular cyclic adenine nucleotide may direct different epithelial cells onto a pathway of epidermoid (squamous) development and differentiation. We report here that the mixture of dibutyryl cyclic AMP (dbcAMP), prostaglandins E₁, E₂ and B₁, (PG E₁, E₂, B₁), and papaverine (pap) enhances the rate of normal squamous cell development in organ-cultured skin of chick embryos. The three components may act synergistically to elevate the level of intracellular cyclic adenine nucleotide. We recently reported that the same group of agents induces abnormal development (squamous metaplasia) and aberrant differentiation (keratin production) in the normally cuboidal epithelium of cultured whole mammary glands of mice [1]. Thus, dbcAMP, PG E₁, E₂, B₁, and pap are effective in enhancing normal squamous cell development and also in inducing squamous metaplasia de novo in the epithelial components of two different organs of embryonic and adult animals of two classes of vertebrates. The combined findings are suggestive that cyclic adenine nucleotide together with the prostaglandins may act generally on diverse types of epithelia to bring about squamous cell development and a differentiation marked by keratin production.     

Hormonally induced elevations of alpha- and beta-casein mRNA levels are blocked by cyclic adenine nucleotide and prostaglandins

Normal mammary gland development during pregnancy follows a coordinated program of morphological development (formation of lobuloalveoli) and biochemical differentiation (casein production). In culture, whole mammary glands of Balb/c mice can be similarly induced by application of a mixture of insulin, prolactin, aldosterone and hydrocortisone (IPAH) for 7 days. Our previous reports have shown that lobuloalveolar development, induced by IPAH, is competitively inhibited by the simultaneous presence of dibutyryl cyclic AMP (Bt2cAMP), prostaglandins (PGs) E1, E2, and B1, and papaverine (pap). However, if this mixture is not added until day 4, lobuloalveolar development is relatively unaffected but casein synthesis is repressed. This report explores the mechanism by which cyclic adenine nucleotides and prostaglandins interfere with the normal developmental pathway. The accumulation of alpha- and beta-casein mRNAs induced by prolactin, hydrocortisone and aldosterone is blocked by the combination of Bt2cAMP, PGs E1, E2, and B1, and pap added to the medium for the final 3 days (days 4-7). Under these conditions the glands retain their lobuloalveoli, and little squamous metaplasia can be discerned. Furthermore, de novo synthesis of both caseins is selectively inhibited, despite the continued presence of casein mRNAs in the glands and normal protein synthesis. In contrast, the synthesis of keratin is stimulated. Incomplete mixtures of Bt2cAMP and pap or the combination of PGs E1, E2, and B1, are only partly effective in preventing the accumulation of casein mRNAs. All three mixtures bring about similar effects on both alpha- and beta-casein mRNAs.(ABSTRACT TRUNCATED AT 250 WORDS)     

Induction of squamous metaplasia: requirement for cell multiplication, and competition with lobuloalveolar development in cultured mammary glands

Mouse mammary glands were previously shown to undergo either of two courses of development and differentiation in whole organ culture. The combination of insulin, prolactin, aldosterone, and hydrocortisone induces a structural development of lobuloalveoli, followed by casein production. In the second course, the mixture of dibutyryl cyclic AMP, prostaglandins E1, E2 and B1, and papaverine brings about an extensive squamous metaplasia and excessive keratinization. In the present study, the foci of the metaplastic squamous cells appeared to originate from single or very few cells. A preferential stimulation of squamous cell multiplication was involved in the induction process. Twice the relative number of nuclei incorporated 3H-thymidine in the squamous metaplastic cells than in the surrounding cuboidal epithelium, according to autoradiography. The necessity for cell multiplication was indicated by the reversible and complete inhibitions of both the metaplastic squamous development and 3H-thymidine incorporation by 1 mM hydroxyurea in the culture medium. Simultaneous inductions of both courses of development and differentiation revealed a competitive and reciprocal relationship between the two pathways. The concurrent expressions of both courses were considerably less than those achieved when either pathway was induced alone. Only the combination of the three types of inducers of squamous metaplasia was able to compete effectively with the hormonal induction of lobuloalveolar development and differentiation. The findings suggest that individual metaplastic squamous foci may originate as clones of cells by processes that require cell multiplication, rather than through a direct non- replicative conversion of pre-existent cells of the cuboidal epithelium.(ABSTRACT TRUNCATED AT 250 WORDS)     

Effect of cyclic 3':5'-AMP derivatives prostaglandins and related agents on human chorionic gonadotropin secretion in human malignant trophoblast in culture.

The secretion of human chorionic gonadotropin (hCG) is stimulated by addition of N6, O2'-dibutyryl cyclic 3':5'-AMP (dbcAMP) or theophylline to normal term placenta and human malignant trophoblast cells in vitro. To understand better the specificity of this process, malignant trophoblast cultures were incubated with 3':5'-cyclic AMP (cAMP) derivatives, prostaglandins and other agents for 1 to 3 days, and the secretion of radioimmunoassayable hCG was measured. Whereas dbcAMP was the most potent agent in stimulating secretion of hCG, the N6--and O2'-monobutyryl derivatives of cAMP and phosphodiesterase inhibitors (theophylline, papaverine, 3-isobutyl-1-methylxanthine) also increased the secretion of the hormone. A slight increase in hCG secretion was observed following addition of adenine. By contrast, butyrate, cAMP, cyclic 3':5'-GMP (cGMP), dbcGMP, 5'-AMP, adenosine, L-epinephrine and prostaglandins E1, E2, F1a and F2a were ineffective. Particulate fractions from sonicates of malignant trophoblast cultures contained adenylate cyclase activity which was stimulated more than 10-fold by NaF, but not by either catecholamines or prostaglandins. The relatively specific stimulation of hCG secretion suggested that a regulatory process involving cAMP may have physiological significance in the trophoblast.     

Regulation of differentiation and keratin protein expression by vitamin A in primary cultures of hamster tracheal epithelial cells.

Hamster tracheal epithelial (HTE) cells maintained in primary culture show the induction of specific keratin species under vitamin A-deficient conditions. A comparison was made between the morphology and the expression of keratins in HTE cells in vivo and in primary culture with and without vitamin A. HTE cells cultured in serum-free, vitamin A-supplemented medium formed a simple cuboidal, ciliated monolayer and produced four simple epithelial keratins (7, 8, 18, and 19). In contrast, vitamin A-deficient HTE cells, which were squamous-like and stratified in culture, produced a more complex keratin pattern, with the induction of four additional keratin species (5, 6, 14, and 17). A keratin pair whose expression serves as a marker of stratified epithelia was induced, as well as a single keratin species unique to lesions of squamous metaplasia in vitamin A-deficient hamster tracheal organ cultures. Thus it appears that HTe cells retain the ability to respond to a deficiency in vitamin A through squamous differentiation and increased keratin production when removed from the intact organ and maintained in primary culture in a chemically defined medium. This system may be useful for the study of mechanisms underlying the squamous differentiation of respiratory epithelial cells in the development of bronchogenic tumors.     

Influence of epidermal growth factor and cyclic AMP on growth and differentiation of palatal epithelial cells in culture

A serum-free, hormonally defined medium was developed which supports growth and differentiation in primary culture of epithelial cells from prefusion embryonic mouse palatal shelves. Using this culture system, medial epithelial programmed cell death was investigated. In the absence of EGF, medial epithelial cells undergo cell death and detach from the substratum by 24 hr of culture. The addition of EGF alone or in combination with various agents which increase intracellular cyclic AMP levels prevented medial epithelial cell death in both cell and organ culture. EGF appeared to exert its most dramatic effect in cell culture on growth and differentiation of the squamous oral epithelial cells. In addition, EGF and agents such as 8-bromo-cyclic AMP, dibutyryl cyclic AMP, or cholera toxin synergistically stimulated the appearance of a long-lived, rapidly proliferating cell type by Day 4 of culture. Our results suggest that both EGF and cyclic AMP together may be important in regulating proliferation of embryonic palatal epithelial cells.     

Extracellular matrix-dependent differentiation of rabbit tracheal epithelial cells in primary culture

Summary The differentiation of tracheal epithelial cells in primary culture was investigated according to the nature of the extracellular matrix used. Cultures obtained by the explant technique were realized on a type I collagen substratum either as a thin, dried coating or as a thick, hydrated gel supplemented with culture medium and serum. These two types of substratum induced distinct cell morphology and cytokeratin expression in the explant derived cells. Where cells are less proliferating (from Day 7 to 10 of culture), differentiation was evaluated by morphologic ultrastructural observations, immunocytochemical detection of cytokeratins, and determination of cytokeratin pattern by biochemical analysis. The epithelium obtained on gel was multilayered, with small, round basal cells under large, flattened upper cells. The determination of the keratin pattern expressed by cells grown on gel revealed an expression of keratin 13, already considered as a specific marker of squamous metaplasia, that diminished with retinoic acid treatment. Present results demonstrated by confocal microscopy that K13-positive cells were large upper cells with a dense keratin network, whereas lower cells were positively stained with a specific monoclonal antibody to basal cells (KB37). Moreover, keratin neosynthesis analysis pointed out a higher expression of K6, a marker of hyperproliferation, on gel than on coating. All these data suggest a differentiation of rabbit tracheal epithelial cells grown on gel toward squamous metaplasia. By contrast, the epithelium observed on coating is nearly a monolayer of very large and spread out cells. No K13-positive cells were observed, but an increase in the synthesis of simple epithelium marker (K18) was detected. These two substrata, similar in composition and different in structure, induce separate differentiation and appear as good tools to explore the mechanisms of differentiation of epithelial tracheal cells.     

Cytokeratin expression in squamous metaplasia of the human uterine cervix

The expression of cytokeratin polypeptides in squamous metaplasia of the human uterine cervix was investigated by immunocytochemical labeling with polypeptide-specific antibodies against cytokeratins. Immunofluorescence microscopic examination of cervical tissues using various monoclonal antibodies indicated that squamous cervical metaplasia expresses a unique set of cytokeratin polypeptides, this being distinctively different from that expressed by all of the normal epithelial elements of the exo- and endocervix. The development of metaplastic foci was accompanied by the expression of cytokeratin polypeptide no. 13, which is commonly detected in stratified epithelia, and by a reduction in the level of polypeptide no. 18, which is typical of simple epithelia. The 40-kilodalton cytokeratin (no. 19) described by Moll et al., which is abundant in the columnar and reserve cells of the endocervix, was found throughout the metaplastic lesions. Only in 'well-differentiated' metaplasias did we detect polarity of cytokeratin expression reminiscent of the staining patterns in the exocervix. This was manifested by the exclusive labeling of the basal cell layer(s) with antibodies KB 8.37 and KM 4.62, which stain the basal cells of the exocervix. Furthermore, a comparison of cervical metaplasia with squamous areas occurring within endometrial adenocarcinomas pointed to a close similarity in the cytokeratin expression of the two. We discuss the use of cytokeratins as specific markers of squamous differentiation, the relationships between squamous metaplasia and cervical neoplasia, and the involvement of reserve cells in the metaplastic process.     

Effects of cyclic adenosine 3′:5′-monophosphate-elevating agents and retinoic acid on differentiation in retinoid-deficient tracheal cultures

Summary The ability of cyclic AMP-elevating agents to induce normal differentiation has been investigated in retinoid-deficient hamster tracheal epithelium in organ culture. Dibutyryl cAMP (dbcAMP) and other cAMP-regulating agents alone caused disappearance of keratin and regeneration of normal mucociliary epithelium in retinoid-deficient cultures. Incubation of retinoid-deficient cultures with dbcAMP, isoproterenol, and cholera toxin (CT) (without addition of exogenous retinoid) reversed keratinization in a dose-dependent manner. The ED₅₀ of cultures treated with dbcAMP was 4×10⁻⁶ M; ED₅₀ of isoproterenol was 7×10⁻⁵ M; and CT, 0.6 μg/ml. Phosphodiesterase inhibitors and other cAMP analogs were inactive. Dibutyryl cAMP in combination with theophylline enhanced normal differentiation. Retinoid-deficient tracheas pretreated for 20 h with 10⁻⁹ M all-trans-retinoic acid (RA) responded to 10⁻⁶ M dbcAMP by potentiating normal differentiation; this concentration of dbcAMP alone was inactive. Isoproterenol showed a similar response but to a lesser degree. These cAMP-elevating agents applied in combination with theophylline did not increase activity. This investigation was supported by National Cancer Institute Contract NO1-CP-31012.     

Growth and characterization of epithelial cells from normal human uterine ectocervix and endocervix

Summary The human uterine cervix consists of an endocervical canal lined with a single layer of columnar mucus-secreting cells and an outer ectocervix covered by a stratified squamous epithelium. We report here the culture of human endocervical epithelial cells (HEnE) and human ectocervical epithelial cells (HEcE) in serum-free medium (KGM). Both HEnE and HEcE cultures were composed of keratinocytelike cells which formed desmosomal contacts and stratified in the presence of high concentrations of calcium ions. Cells with a pleomorphic epithelial morphology were observed in HEnE cultures, but not in HEcE cultures. Keratin 18, which is characteristic of endocervix in vivo, was detected by indirect immunofluorescent staining in all HEnE cells but was never detected in cultured HEcE. HEcE expressed keratin 13 which is characteristic of ectocervix in vivo. Although keratin 13 was never detected in primary HEnE cultures, it was expressed in passaged HEnE cultures grown in medium with high concentrations of calcium and in late passage HEnE cultures. HEnE underwent an average of 15.1 population doublings during serial culture. Mean colony-forming efficiency during Passages 2 to 3 was 14.7% and mean population doubling time was 17.8 h. HEcE cultures underwent significantly more population doublings (29.0) than HEnE cultures, whereas colony-forming efficiencies and doubling times were similar to those determined for HEnE. HEnE and HEcE cells may be useful in developing in vitro models of cervical squamous metaplasia and for exploring the interactions between target cell differentiation, carcinogens, and papillomaviruses in the development of cervical neoplasia. This study was supported in part by the Rush University Committee on Research and by the Lester B. and Francis Knight and the S. Charles and Marsha Papageorge research funds.     

Staurosporine-induced versus spontaneous squamous metaplasia in pre- and postmenopausal breast tissue

Breast cancers from pre- vs. postmenopausal women display unique characteristics that may be related to differences in epithelial differentiation between these two populations. In addition to lobular development, lactational changes, and involution, breast epithelium can undergo metaplastic alterations, often in association with carcinoma. Because protein kinase C (PKC) regulates differentiation and proliferation in many cell types, we asked whether modulation of PKC activity could define biochemical differences in breast epithelium from pre- vs. postmenopausal women. Organ cultures of normal human breast were treated with PKC agonists and antagonists. Epithelial differentiation was evaluated based on morphologic criteria and the expression of cell-type specific proteins. Staurosporine, a nonspecific but extremely potent inhibitor of PKC, induced squamous metaplasia in eight of eight cases within 2 weeks of treatment. Other inhibitors of PKC, such as calphostin C and tamoxifen, had no effect on epithelial differentiation. Long-term treatment with phorbol esters also did not induce squamous metaplasia. However, stimulation of cAMP levels by forskolin and isobutyl-methyl-xanthene (IMX) rapidly induced squamous metaplasia, as has been previously reported. Surprisingly, squamous metaplasia occurred in 10 of 12 cultures derived from postmenopausal women in the absence of exogenous agents. Untreated cultures derived from premenopausal women never developed this type of epithelium (0 of 11). Therefore, breast epithelium from pre- and postmenopausal women responded differently to in vitro culture. Forskolin/IMX or staurosporine can reproduce these conditions, acting independent of menopausal status. Because staurosporine's action was unique among PKC inhibitors, staurosporine may induce squamous metaplasia of breast epithelium by a PKC-independent mechanism. J. Cell. Physiol. 176:245–254, 1998. © 1998 Wiley-Liss, Inc.     

Estrogens induce malpighian metaplasia of the endocervical junction in female rats immunohistochemistry study

Immature female Wistar rats were treated with 1 mg of estradiol benzoate for 6 days. The injections were started on the 20th day of age; the animals were autopsied every 3 days after the last injection until the age of 45 days. Islets of hyperplastic cells and metaplasia area were seen in the endocervix in the majority of the animals autopsied. We have the expression of cytokeratin polypeptides in reserve cells, in areas exhibiting reserve cell hyperplasia and squamous metaplasia, using a panel of monoclonal cytokeratin antibodies. The reserve cells were positive for antibodies directed against stratified squamous epithelia, type cytokeratins No. 5, 13 and 17. In addition, hyperplastic cells revealed the presence of cytokeratins No. 7, 8, 18 and 19, specific for simple epithelia, but in a variable manner. The Squamous metaplasia cells exhibited cytokeratins No. 13, 18 and 19, but only weakly reactive. Our observations indicate that estrogen-induced endocervix metaplasia results from a transformation of reserve cells towards an epidermoid type epithelium. Hyperplasia would be the intermediate step in the mechanism of induced cervical metaplasia. This transformation is accompanied by the loss of cytoplasmic keratin proteins and the acquisition of new high molecular weight keratin proteins, specific for stratified squamous epithelia. The basal or reserve cells of the cervix can proliferate to produce regions of squamous cell metaplasia. It appears to be a direct effect of estrogen stimulation. Immunohistochemical staining for different molecular weight keratin proteins may be helpful in the evaluation of reserve cell differentiation.     

Effect of cigarette smoke condensate and vitamin A depletion on keratin expression patterns in cultured hamster tracheal epithelium. An immunohistomorphological study using monoclonal antibodies to keratins

Keratin expression in hamster tracheal epithelium was investigated during organ culture in serum-free, hormone-supplemented medium using monospecific monoclonal antibodies. Generally, tracheal basal cells expressed keratins detected by antibodies RCK102 and RCK103, while columnar epithelial cells were stained positively by RGE53, RCK103, RCK105 and HCK19. Metaplastic squamous cell foci reacted with antibodies RKSE60, RCK103 and HCK19. Early metaplastic alterations were more clearly RKSE60-positive than the mature lesions. In the vitamin A-depleted tracheas basal cells were clearly RCK102-positive. Superficial cells in the central part of areas of squamous metaplasia induced by cigarette smoke condensate expressed the basal cell keratins, and were negative for the columnar cell keratin 18 detected by the RGE53 antibody. This finding suggests that in cigarette smoke condensate-induced squamous metaplasia basal cells play an important role. The mucus-producing cells at the edges of metaplastic squamous cell foci expressed the keratins specific to columnar cells. Cigarette smoke condensate exposure accelerated epithelial keratinization compared to the vitamin A-depleted epithelium. It was concluded that not only small mucous granule cells, but also basal cells are involved in the development and maintenance of induced squamous metaplasia in tracheal epithelium. Furthermore, in vitro vitamin A-depleted epithelium did not coexpress vimentin in addition to the different keratins.     

Human bronchial epithelial cells with integrated SV40 virus T antigen genes retain the ability to undergo squamous differentiation

Human bronchial epithelial cells transformed by either DNA virus infection (SV40 or Adenovirus 12-SV40 hybrid virus) or transfection with the SV40 large T antigen gene were studied for their ability to undergo squamous differentiation when exposed to 12-O-tetradecanoylphorbol-13 acetate (TPA), transforming growth factor-beta 1 (TGF-beta 1), or fetal bovine serum (FBS), agents that induce the squamous differentiation of normal human bronchial epithelial cells. Squamous differentiation occurred in all ten T-antigen-positive cell cultures when they were exposed to either FBS or TGF-beta 1, but none differentiated when exposed to TPA. From one cell line, designated BEAS-2B, two subclones were isolated, one of which was induced to undergo squamous differentiation by FBS, and a second that failed to undergo squamous differentiation and was mitogenically stimulated when exposed to serum. These phenotypically different subclones provide a new in vitro cellular system for delineating the mechanism(s) of human bronchial epithelial cell squamous differentiation in response to FBS or TGF-beta 1.     

Up-regulation of production of TGF-beta and IL-4 and down-regulation of IL-6 by apoptotic human bronchial epithelial cells

Human bronchial epithelial cells secrete cytokines that play a role in immune responses in the lung. However, the roles of these cytokines in regulating epithelial repair following acute lung injury are largely unknown. Responses to injury include hyperplasia of epithelial cells and squamous metaplasia. The resolution stage is characterized by discontinuation of hyperplasia. Apoptosis is considered to be the most efficient mechanism of removal of unwanted cells without causing inflammation. The presence of TGF-beta1 increases apoptosis, induces squamous metaplasia and inhibits proliferation of airway epithelial cells. Interleukin-4 increases the ability of macrophages to phagocytose epithelial cells and produce inflammatory cytokines. The purpose of this study was to investigate the hypothesis that apoptotic lung epithelial cells produce cytokines, which could act in an autocrine manner to control hyperplasia and induce squamous differentiation following acute lung injury. A bronchial epithelial cell line (16 HBE) was used as an in vitro model, to study the production of TGF-beta, IL-4 and IL-6 by lung epithelial cells undergoing apoptosis. Apoptotic and live cells were sorted on the basis of bright and negative staining with FITC-conjugated Annexin V, respectively. Intracellular IL-6, TGF-beta and IL-4 was measured using flow cytometric techniques. Electron microscopy, immunohistochemistry and ELISA were used as supportive techniques. Apoptotic cells produced significantly more TGF-beta and IL-4 (but less IL-6) than viable cells. Increased production of TGF-beta and IL-4 by epithelial cells undergoing apoptosis may contribute to the inhibition of proliferation, squamous metaplasia, and reduction of the inflammatory response in acute lung injury.     

Chronic Activation of the Cyclic AMP Signaling Pathway Promotes Development and Long-Term Survival of Mesencephalic Dopaminergic Neurons

Abstract: Dibutyryl cyclic AMP (dbcAMP), a permeant analogue of cyclic AMP (cAMP), prevented, for at least 3 weeks, the death of tyrosine hydroxylase (TH)-immunopositive dopaminergic neurons, which occurred spontaneously by apoptosis in mesencephalic cultures. Treatment with the cyclic nucleotide analogue also led to a significant increase in the uptake of [³H]dopamine, attesting that the rescued TH⁺ neurons were fully functional and differentiated. dbcAMP was most effective when added immediately after plating, but delayed treatment could still arrest the ongoing degenerative process. Trophic/survival effects were long-lasting, declining only progressively after withdrawal of dbcAMP from the culture medium. They were independent of cell density and still detectable in the absence of serum proteins. The effects of dbcAMP were mimicked by depolarizing concentrations of potassium and by agents that increase endogenous production of cAMP, such as forskolin or 3-isobutyl-1-methylxanthine, but not by native cAMP, which cannot cross cell membranes. Elimination of glial cells by arabinoside-C did not reduce the activity of dbcAMP. GABAergic neurons, also present in these cultures, were much less dependent on the cyclic nucleotide analogue for their survival, and serotoninergic cells were not dependent at all. Therefore, cAMP-dependent signaling may be particularly crucial for the maturation and long-term survival of mesencephalic dopaminergic neurons.     

The cyclic nucleotide specificity of eight cAMP-binding proteins in Dictyostelium discoideum is correlated into three groups

cAMP is a mediator of inter- and intracellular events in Dictyostelium discoideum and is thought to act through specific receptors. Eight forms of cAMP-binding proteins have been described in this organism: four forms of a cell surface receptor, a cell surface and extracellular phosphodiesterase, an intracellular cAMP-dependent protein kinase (CAK), and a recently identified cAMP-binding protein (CABP1) that is present on the cell surface, in the cytoplasm, and in the nucleus. In this study we have analyzed the cyclic nucleotide specificity of these cAMP-binding proteins using 13 derivatives of cAMP with modifications in the adenine, ribose, and phosphate moiety. The results suggest that the cAMP-binding proteins belong to three groups: (i) four forms of the cell surface receptor, (ii) two forms of an intracellular receptor (CABP1 and CAK), and (iii) cell surface and extracellular phosphodiesterase. cAMP is probably bound to the surface receptors in the anti conformation in a hydrophobic cleft of the receptor with essential interactions at N6H2' and O3'. In contrast, cAMP is probably bound to CAK and CABP1 in the syn conformation with essential interactions at O2', O3', O5', and exocyclic oxygen. Finally, binding of cAMP to phosphodiesterase involves only O3' and exocyclic oxygen. The cyclic nucleotide specificity of cAMP-induced processes in D. discoideum indicates that the cell surface receptors participate in the transduction of the cAMP signal during chemotaxis and cell differentiation. Functions for CABP1 and CAK in these processes are presently elusive.     

Inhibitory and stimulating effects of various types and series of prostaglandins on in vitro biosynthesis of proteochondroitin-4,6-sulfate and protein and anaerobic glycolysis in calf rib cartilage

The effect of various types of prostaglandins (PGs) have been studied in a semi-in-vitro system with cartilage slices of calf ribs. 0.1 mmol/1 PG B1, D2, E1, E2, F1 alpha, F2 alpha inhibit biosynthesis of Ch-4,6-S protein to a higher extent than 10 mumol/l; 1 and 2 series PG E and F (but not B) inhibit similarly, PG A2 inhibits twice as much. With biosynthesis of total protein 2-series PG A, B, E, F act more inhibitorily than 1-series PG. 10 mumol/l PG A2, E1, E2 produce cAMP-like effects, e.g. acceleration of biosynthesis of Ch-4,6-S protein and total protein as well as of anaerobic glycolysis; PG F2 alpha stimulates the first two anabolic processes, PG B1 only the second one. PG A1 stimulates Ch-4,6-S protein biosynthesis and anaerobic glycolysis, a cGMP-like effect. 20 mumol/l diBu-cAMP or cAMP (together with 0.1 mmol/l theophylline) produce stimulating and inhibitory effects on these three anabolic processes; both compounds produce additively positive or additively negative effects in connection with the inhibitory PG effects on these three anabolic processes.     

Influence of prostaglandins and of cyclic nucleotides on the metabolism of 25-hydroxyvitamin D3 in primary chick kidney cell culture

Prostaglandins (PG) are likely to be involved in a number of regulatory mechanisms in the kidney, which may be mediated by cyclic nucleotides. The present study describes the effects of prostaglandins and cyclic nucleotides on the hydroxylases of 25-hydroxycholecalciferol (25(OH)D₃) in a primary chick kidney cell culture. 3–30 nM PG E₂ produced significant increases in the 25(OH)D₃-1-hydroxylase associated with decreases in the 25(OH)D₃-24-hydroxylase at 6 hours but not at 1 hour. PG F_2α, in concentrations between 0.3 nM and 3 μM affected the hydroxylases in a similar manner. A significant increase of 1-hydroxylase activity was observed with 0.1 mM cyclic AMP (cAMP) or dibutyryl cyclic AMP (dbcAMP) in 6 hours, but again no effect on either hydroxylase was observed when the incubation time was reduced to 1 hour. These results suggest that PG E₂ and PG F_2α might be involved in the regulation of renal 25(OH)D₃ metabolism, and that the effects on the 25(OH)D₃-hydroxylases might be mediated by cAMP.     

Stimulation of prolactin synthesis and of adenosine 3'':5''-cyclic phosphate formation by prostaglandins and thyroliberin in cultured rat pituitary cells.

1. The effects of prostaglandins E2 and F2alpha on prolactin synthesis were examined in a clonal strain of rat pituitary tumour cells, and compared with those of thyroliberin. 2. The prostaglandins and thyroliberin gave a dose-related and time-dependent stimulation of prolactin synthesis. The maximal effects (about twofold increases) were observed after 54h of treatment with 25nM-prostaglandin E2 and 2.5nM-prostaglandin F2alpha. A similar stimulation of prolactin synthesis was observed after 250nM-thyroliberin. The combined treatment with prostaglandins and thyroliberin did not increase prolactin synthesis over and above that obtained with each compound alone. 3. After removal of prostaglandins E2 and F2alpha there was a complete reversal of prolactin synthesis to pre-stimulation values 18h later (t1/2less than or equal to 9h). The rapid reversible effect of prostaglandins was in contrast with that of thyroliberin, where prolactin synthesis returned to control values with a t1/2 of about 42 h. 4. Prostaglandin E2 (5mum) and thyroliberin (5mum) increased cellular concentrations of cyclic AMP eight- and four-fold respectively. Maximal effects were observed after 2-5min of incubation. The increases in cyclic AMP were biphasic; normal values were obtained 60 min after the start of incubation with prostaglandin E2 or thyroliberin. 5. The dose/response curve showed that prostaglandin E2 caused maximal increase of cyclic AMP at 50nM. Concentrations of prostagland in E2 that caused half-maximal stimulation of cyclic AMP accumulation and of prolactin synthesis were 4 and 5nM respectively. 6. Combined treatment with prostaglandin E2 and thyroliberin in concentrations that separately caused maximal cyclic AMP increases did not result in a further increase in this cyclic nucleotide. 7. These results are consistent with a role of cyclic AMP in mediating the effects or prostaglandins and thyroliberin on prolactin synthesis. However, if cyclic AMP is involved as a common intracellular mediator of prolactin synthesis, it cannot alone explain all the effects of prostaglandins and thyroliberin in this cell system.