Effect of progesterone on protein synthesis and secretion by cultured epithelial cells from guinea-pig endometrium

Summary The pattern of proteins synthesized and secreted in response to progesterone by guinea-pig endometrial epithelial cell cultured with estradiol-17 was investigated. Glandular epithelial cells were maintained in culture for 3 days on growth medium, then washed three times with a steroid-free medium. After this period, 2 × 10^-8 M estradiol-17 or 2 × 10^-8 M estradiol-17 plus 5 × 10^-7 M progesterone were added to the medium for 48 h. To study biochemical changes, the proteins were labeled by a 6 h pulse of ³⁵S-methionine. The proteins in medium and in cells were analyzed by one- and two-dimensional polyacrylamide gel electrophoresis, followed by fluorography. The addition of progesterone to estradiol-17 in the culture medium caused a change in the patterns of cellular and secreted proteins: one-dimensional gel electrophoresis showed that variation of 8 cellular proteins and 12 secreted proteins was caused by progesterone. Induction of individual proteins by progesterone treatment was observed by two-dimensional gel electrophoresis: one cellular protein (Mr 49000; pI 5.90) and one secreted protein (Mr 14300; pI 4.80) were specifically induced and might serve as markers of progesterone action.     

Radioiodinated surface proteins of separated cell types from rabbit endometrium in relation to the time of implantation

To investigate changes in surface proteins of uterine cells in relation to the time of implantation, epithelial and stromal cells were isolated from rabbit endometrium and maintained in primary culture for 3 days. Surface-iodination of intact cells was carried out before and after culture, using immobilized Iodogen catalyst. The labeled proteins were analyzed by polyacrylamide gel electrophoresis, followed by autoradiography; peak areas were quantitated by scanning densitometry. Different gestational ages showed no marked qualitative differences in the surface-iodination patterns either of epithelial or stromal cells before or after culture. Quantitative differences between the surface-iodination pattern of epithelial cells from days 4 to 6.5 of pregnancy were revealed by canonical variate analysis of labeled peak areas. Values for individual rabbits clustered according to gestational age, with significant (p less than 0.05) separation of the clusters, although the discrimination was less pronounced for cultured than for freshly isolated cells. Changes involving increases in labeling of a protein of 38000 Mr in fresh cells, and decreases in a protein of 42000 Mr in cultured cells, were evident between day 4 and day 6.5. Thus changes in the surface-labeling pattern of uterine epithelial cells in relation to the time of receptivity for ovoimplantation can be distinguished. The functional significance of these changes remains to be elucidated.     

Synthesis of seminal ribonuclease in isolated lobules of bull seminal vesicles

A procedure is described for preparing and maintaining in culture isolated lobules of bovine seminal vesicles, consisting of glandular acini, surrounded by little connective tissue and with free access to the external medium, in which secreted material can be collected. After 48 h in culture, the isolated lobules appeared indistinguishable, by morphological and biochemical criteria, from freshly isolated lobules. After much longer culture times about one third of the glandular cells were still capable of effective protein synthesis. Studying the biosynthesis of seminal ribonuclease with preparations of isolated lobules we found that the enzyme was synthesized and secreted; only the fully amidated isoenzyme was synthesized and secreted, indicating that production of the selectively deamidated isoenzymic forms occurred after secretion, newly synthesized protein was rapidly exported, indicating that the high levels of enzyme previously reported for the seminal vesicle tissue were essentially due to its content of stored secretion.     

Thyrotropin modifies the synthesis of actin and other proteins during thyroid cell culture

Primary cultures of dog thyroid cells have been used to study the effects of thyrotropin on the synthesis of proteins. The cells were cultured for 4 days in serum-free and thyrotropin-free conditions. Thyrotropin was then added for varying periods of time (6-96 h). In the absence of thyrotropin, the cells have an elongated flattened aspect. Exposure to thyrotropin for 6-24 h produces retraction and rounding up of cells whereas cells incubated with thyrotropin for longer periods of time have an epithelial cuboidal shape. After varying periods of culture the cells were labelled with [35S]methionine for 6 h and then analyzed by one- and two-dimensional gel electrophoresis, followed by autoradiography. The results were as follows. After exposure to thyrotropin for 32 h and 48 h, the synthesis of about 18 proteins was increased while that of about 14 others was decreased. After 6 h the labelling of three and five of these proteins was already increased or decreased, respectively. Some of the proteins whose synthesis is modified in the presence of thyrotropin were identified. Actin synthesis was markedly decreased with a maximum 24-48 h after the addition of thyrotropin. A modification in the ratio between alpha and beta tubulins was also observed together with very large changes in a group of proteins having both the relative molecular mass (30 000-40 000) and the isoelectric points of tropomyosins. Forskolin and cholera toxin caused the same qualitative and quantitative changes as thyrotropin; this suggests that the regulation by thyrotropin of the synthesis of several thyroid cell proteins is mediated by cAMP. In conclusion, the data obtained in this work might help to explain the molecular mechanisms by which thyrotropin (and cAMP) triggers the changes in cell shape which occur during thyroid cell culture. They also indicate that one of the main effects of thyrotropin takes place at the level of several proteins which belong to the cytoskeleton and which are involved in the definition of the cytostructure of the thyroid cells.     

The effects of sequential administration of 17 beta-estradiol on the synthesis and secretion of specific proteins in the immature rat uterus

We report here results of a study of the effect of sequential administration of 1 microgram 17 beta-estradiol in vivo on the incorporation of L-[35S]methionine into specific proteins in vitro in the immature rat uterus. One-dimensional SDS-PAGE analysis of labeled secreted uterine proteins and cellular proteins extracted from the luminal epithelial and from the stroma plus myometrial uterine fractions revealed that estradiol preferentially stimulated the synthesis of 110 K, 74 K and 66 K secreted proteins, 180 K and 110 K epithelial proteins and a 175 K stroma-myometrial protein among others, while it decreased the relative rate of synthesis of a 32.5 K secreted protein and a 70 K stroma-myometrial protein. The 110 K protein, a secreted luminal epithelial protein whose labeling in vitro dramatically increased greater than 60-fold per mg endometrial DNA after in vivo estrogen stimulation, may be a useful marker for studying estrogen action in the luminal epithelium of the immature rat uterus. Comparison of the secreted proteins labeled at 28 h (4 h after a second injection) and at 54 h (6 h after a third injection) revealed that estradiol effected a sequential change in the pattern of synthesis of secreted uterine proteins in vitro. Comparison of the number and magnitude of changes in the synthesis of specific proteins in the luminal epithelium and the stroma plus myometrium revealed that protein synthesis in the luminal epithelium is clearly more responsive to estradiol and readily distinguishable from the responsiveness of the stroma plus myometrium.     

SPECIFIC PROTEIN SYNTHESIS IN CELLULAR DIFFERENTIATION : Production of Eggshell Proteins by Silkmoth Follicular Cells

Silkmoth follicles, arranged in a precise developmental sequence within the ovariole, yield pure and uniform populations of follicular epithelial cells highly differentiated for synthesis of the proteinaceous eggshell (chorion). These cells can be maintained and labeled efficiently in organ culture; their in vitro (and cell free) protein synthetic activity reflects their activity in vivo. During differentiation the cells undergo dramatic changes in protein synthesis. For 2 days the cells are devoted almost exclusively to production of distinctive chorion proteins of low molecular weight and of unusual amino acid composition. Each protein has its own characteristic developmental kinetics of synthesis. Each is synthesized as a separate polypeptide, apparently on monocistronic messenger RNA (mRNA), and thus reflects the expression of a distinct gene. The rapid changes in this tissue do not result from corresponding changes in translational efficiency. Thus, the peptide chain elongation rate is comparable for chorion and for proteins synthesized at earlier developmental stages (1.3–1.9 amino acids/sec); moreover, the spacing of ribosomes on chorion mRNA (30–37 codons per ribosome) is similar to that encountered in other eukaryotic systems.     

Formation of desmosomes and other contact specializations in cultured skin of the frog (Rana esculenta)

Summary Small trypsinized explants from ventral skin of frogs (Rana esculenta) were maintained in culture for 4 days during which a newly formed epithelium differentiated along the cut edges of the dermis. During the first 6 h adjacent cells produced numerous interdigitating lamellipodia. After 2 days, epithelial polarity was restored by the formation of zonulae occludentes and the epithelial cells were joined by a few small newly formed desmosomes and by numerous interdigitations. Bipartite junctional complexes consisting of a zonula occludens, followed by a series of typical desmosomes, and characteristic of adult frog epidermis were formed only after 4 days. When cultured in the presence of an inhibitor of protein synthesis (cycloheximide) the trypsinized epidermis no longer formed desmosomes. Therefore pools of one or more crucial desmosomal proteins must be very low or non-existent. However, cycloheximide did not prevent the formation of cell contact specializations, consisting of a highly developed system of complex lamellar interdigitations, between adjacent cells.     

Remodeling the cell surface distribution of membrane proteins during the development of epithelial cell polarity

The development of polarized epithelial cells from unpolarized precursor cells follows induction of cell-cell contacts and requires resorting of proteins into different membrane domains. We show that in MDCK cells the distributions of two membrane proteins, Dg-1 and E-cadherin, become restricted to the basal-lateral membrane domain within 8 h of cell-cell contact. During this time, however, 60-80% of newly synthesized Dg-1 and E-cadherin is delivered directly to the forming apical membrane and then rapidly removed, while the remainder is delivered to the basal-lateral membrane and has a longer residence time. Direct delivery of greater than 95% of these proteins from the Golgi complex to the basal-lateral membrane occurs greater than 48 h later. In contrast, we show that two apical proteins are efficiently delivered and restricted to the apical cell surface within 2 h after cell-cell contact. These results provide insight into mechanisms involved in the development of epithelial cell surface polarity, and the establishment of protein sorting pathways in polarized cells.     

Characterization and phenotypic variation with passage number of cultured human endometrial adenocarcinoma cells

Despite numerous endometrial cancer cell lines, little is know about the progression and transition of primary cultured endometrial tumours. Herein, a stage I grade III endometrial adenocarcinoma was maintained in primary culture and the phenotypic and protein expression changes were observed in relation to passage number. At early passage numbers, cultured human endometrial cancer (CHEC) cells displayed classic epithelial cell morphology, growing in groups in a glandular structure and staining positive for cytokeratin. However, with increasing passage number, CHEC cells changed in morphology to display a stromal phenotype which was accompanied by a significant reduction in cytokeratin and increases in alpha-actin and vimentin expression. Simultaneous culture of stromal cells isolated from the original tumour failed to show the same morphological characteristics or protein expression patterns. We further characterised CHEC cells through a screening of cancer related proteins, among others, caveolin-1 and Tissue factor in comparison with established cancer cell lines and corresponding non-cancerous cells. This report demonstrates that endometrial adenocarcinoma cells in culture can undergo phenotypic and protein expression changes reminiscent of epithelial-mesenchymal transition. This work suggests that primary tumours and cell lines displaying stromal morphologies may have undergone epithelial-mesenchymal transition from an adenocarcinoma origin.     

Effects of hypoxia and hypercapnia on surfactant protein expression proliferation and apoptosis in A549 alveolar epithelial cells

During lung injury alveolar epithelial cells are directly exposed to changes in PO(2) and PCO(2). Integrity of alveolar epithelial type II cells (AECII) is critical in lung injury but the effect of hypoxia and hypercapnia on AECII function, viability and proliferation has not been clearly investigated. Aim of the present work was to determine the direct effect of hypoxia and hypercapnia on surfactant protein expression, proliferation and apoptosis of lung epithelial cells in vitro. A549 alveolar epithelia cells were subjected to hypoxia (1%O(2)-5% CO(2)) or hypercapnia (21% O(2-) 15% CO(2)) and expression of surfactant protein C was measured and compared to normal conditions (21% O(2)- 5% CO(2)). Cell cycle progression and apoptosis were measured by flow cytometric analysis. RESULTS: A549 alveolar epithelial cells produce surfactant proteins, including surfactant protein C, when cultured under normal conditions, which is reduced under hypoxic conditions. Specifically, pro-SpC expression is moderately decreased after 8 h of culture in hypoxia, and is completely attenuated after 48 h. Hypercapnia decreases pro-SpC expression only after 48 h of exposure. Stimulation with TNF-alpha partly reverses pSPC decrease observed under hypoxic and hypercapnic conditions. Hypoxic culture of A549 cells results in progressive arrest of cells in the G1 phase of the cell cycle and increased apoptosis first observed 4 h following exposure and peaking at 24 h. In contrast hypercapnia has no significant effect on alveolar epithelial cell proliferation or apoptosis. CONCLUSIONS: Taken together we can conclude that hypoxia rapidly and severely affects AECII function and viability while hypercapnia has an inhibitory effect on pro-SpC production only after prolonged exposure.     

Specific detection of Salmonella typhimurium proteins synthesized intracellularly.

Studies of the proteins Salmonella typhimurium synthesizes under conditions designed to more closely approximate the in vivo environment, i.e., in cell and tissue culture, are not easily interpreted because they have involved chemical inhibition of host cell protein synthesis during infection. The method which we have developed allows specific labeling of bacterial proteins without interfering with host cell metabolic activities by using a labeled lysine precursor which mammalian cells cannot utilize. We have resolved the labeled proteins using two-dimensional electrophoresis and autofluorography. We were able to detect 57 proteins synthesized by S. typhimurium during growth within a human intestinal epithelial cell line. Of the 57 proteins detected, 34 appear to be unique to the intracellular environment, i.e., they are not seen during growth of the bacteria in tissue culture medium alone. Current (and future) efforts are directed at organizing the 34 proteins into known stress response groups, determining the cellular locations of the proteins (outer or inner membrane, etc.), and comparing the pattern of proteins synthesized within an intestinal epithelial cell to the pattern synthesized during growth within other tissues.     

Translocation of nascent non-signal sequence protein in heated Escherichia coli

Exposure of Escherichia coli to heat resulted in 1) selective inhibition of protein synthesis, 2) synthesis of heat shock proteins, and 3) altered subcellular distribution of newly synthesized proteins. Either 5 min or 1 h at 48 degrees C increases outer membrane proteins of Coomassie Blue-stained gels. After 1 h, there was a loss of stained proteins from the soluble fraction. Much greater changes in the distribution of radiolabeled (newly synthesized) proteins were observed, with marked increases in the number of outer membrane protein species and a corresponding loss of soluble fraction proteins. Three major species of radiolabeled proteins from heat-treated cells remain in the soluble fraction; these proteins have apparent Mr 56,000, 69,200, and 79,400. Cells were labeled with L-[35S] methionine at either 37 or 48 degrees C and chased with non-radiolabeled methionine before a temperature shift to either 48 or 37 degrees C, respectively. Only proteins synthesized at elevated temperature participated in translocation. It is suggested that heat disordering of membrane lipids promotes interlipidic connections between the inner and outer membrane providing pathways for protein movement to the outer membrane and may be the mechanism whereby a cell quickly responds to environmental temperature stress. The response does not require but may trigger synthesis of mRNA.     

Serum-free culture of stromal and functionally polarized epithelial cells of guinea-pig endometrium: a potential model for the study of epithelial-stromal paracrine interactions.

Stromal and glandular epithelial (GE) cells were isolated from guinea-pig endometrium and growth to near confluency (6-8 days) in primary culture on plastic surfaces in a serum-supplemented medium (SSM). The stromal cells were subcultured on plastic dishes and maintained for 72 h in SSM. Then SSM was replaced by a chemically defined medium (CDM) and the stromal cells grown to confluency (5-7 days). The GE cells were subcultured in CDM, on a basement membrane matrix (Matrigel) applied to permeable Millicell-PC filters, and grown to confluency (5 days). Homogeneity of the subcultured endometrial cell populations was ascertained immunocytochemically. The filter-cultured GE monolayers were polarized morphologically, and displayed epithelial-specific specialized structures. These monolayers had functional tight junctions as verified by a measurable transepithelial resistance. The subcultured cell populations were distinguished by an analysis of their cellular and secretory proteins after labelling with [35S]-methionine and analysis by polyacrylamide gel electrophoresis. The filter-cultured GE monolayers allowed identification of the proteins released vectorially in the apical or the basal secretory compartment, thus demonstrating the functional polarization of GE cells in this bicameral culture system. Within the defined conditions of this culture system, the paracrine factors released by the two endometrial cell populations as well as the interplay of stromal-epithelial interactions and ovarian hormones could be investigated.     

Establishment of endometrial glandular epithelial cell subculture in a serum-free,hormonally defined medium,on a basement membrane matrix

Summary— Epithelial glands were isolated from guinea-pig endometrium. In order to reduce the requirement for a serum supplement and the contamination by non epithelial cells in primary culture, various coatings of the culture dishes were tested using serumfree Ham's F12 containing defined chemicals including 17β-estradiol. while epithelial glands seeded on culture dishes coated with Matrigel, a basement membrane matrix-failed to spread, they formed on poly-d -lysine plus serum-coated dishes, a subconfluent monolayer (5–7 days) enriched in cytokeratin-immunostained cells (78%). Cells from subconfluent primary cultures, obtained on poly-d -lysine plus serum-coated dishes in serum-free hormonally defined medium, were passaged on Matrigel-coated dishes in serum-free hormonally defined medium. These subcultures contained, at confluence (4–5 days), a high percentage (> 95%) of cytokeratin-immunostained cells. These monolayers consisted of well-differentiated cells which exhibited ultrastructural features characteristics of endometrial epithelial cells. Moreover, these confluent cells contained 50% immunostained nuclei for progesterone receptors. Progesterone receptor amounts decreased in confluent subcultures treated with progesterone and became undectable after longterm treatment, suggesting responsiveness of these cells to progesterone. This culture system provides a well-defined model for the study of protein synthesis and secretion by endometrial glandular cells under hormonal control.     

Interferon-tau stimulates secretion of macrophage migration inhibitory factor from bovine endometrial epithelial cells

During early pregnancy in ruminants, the embryo not only prevents prostaglandin F2alpha release, but it also modifies protein synthesis in the endometrium. This is accomplished by the secretion of interferon-tau (IFN-tau) from the embryo. The objective of this study was to identify and characterize specific proteins secreted from endometrial epithelial cells in response to IFN-tau that could be important for endometrial function and/or embryo development. The epithelial cells were prepared and cultured to confluence and then incubated with or without 100 ng/ml IFN-tau. At the end of the incubation, the proteins in the medium were analyzed by two-dimensional PAGE. The result showed that two major protein spots were induced by IFN-tau. One has a molecular mass of approximately 12 kDa and an isoelectric point (pI) of 6.7; the other has a molecular mass of 76 kDa and pI of 4.8. Protein sequence analysis showed that the 12-kDa protein contained a partial amino acid sequence that corresponded to macrophage migration inhibitory factor (MIF). To determine whether MIF is expressed in endometrial cells, isolated stromal or epithelial cells were incubated with or without 100 ng/ml IFN-tau for 0, 3, 6, 12, 24, and 48 h. After incubation, the MIF protein in cells was examined by Western blotting analysis, and the steady-state mRNA for MIF was examined by Northern analysis. Results showed that MIF protein and mRNA were present in the epithelial cells but not the stromal cells. The presence of MIF in the luminal epithelium of endometrial tissue was confirmed by immunohistochemistry. However, there was no effect of IFN-tau on MIF expression in the epithelial cells. The concentration of MIF in the medium was quantified by Western blotting analysis to determine if IFN-tau altered MIF protein secretion from the epithelial cells. The results showed that IFN-tau significantly stimulated the secretion of MIF protein from the cells. These data show that MIF is expressed in the epithelial, but not the stromal, cells of the endometrium and that MIF secretion from the epithelial cells is stimulated by IFN-tau. It is therefore likely that MIF plays a role in early embryo development, and further characterization of MIF expression and its regulation in the endometrium will add significantly to our understanding of early embryo-uterine interactions.     

Prolonged progesterone treatment of endometrial epithelial cells modifies the effect of estradiol on their sensitivity to oxytocin

Estradiol (E2), progesterone (P4), and oxytocin (OT) are important for the initiation of luteolysis in ruminants but the mechanisms involved are still poorly understood. The objective of this study was to determine if duration of exposure of bovine endometrial epithelial cells to P4 affected the response of the cells to E2. Endometrial epithelial cells, from cows at Days 1-3 of the estrous cycle, were cultured for 10, 17, and 21 days in the presence or absence of P4 (100 ng ml(-1)). After culture, each group of cells was incubated for a further 6, 12, 24 or 48 h with or without E2 (100 pg ml(-1)) and then incubated for 6 h with different doses of OT (2, 20, and 200 ng ml(-1)). E2 enhanced OT-stimulated PGF2 alpha secretion in cells cultured with P4 for 17 or 21 days, with a maximum effect after 24-h exposure, but not in cells cultured with P4 for 10 days. To determine the mechanism of action of E2, COX-1 and COX-2 were measured by Western blotting and OTR number was measured by saturation analysis. OT increased COX-2 (P<0.05), but there was no significant effect of E2 on the expression of either COX-1 or COX-2. E2 did, however, increase (P<0.001) the OTR number in cells cultured with P4 for 21 days, whereas it inhibited OTR in cells cultured for 10 days. These data show that E2 can stimulate PGF2 alpha secretion by increasing OTR expression in bovine endometrial cells in vitro, but only after exposure to P4.     

Patterns of proteins synthesized by non-proliferating murine L cells

When L cells were plated at high density (2 × 10⁵/cm²), proliferation ceased within 3 days, but the cells remained viable and capable of reinitiating DNA synthesis for at least 16 days. SDS-polyacrylamide gel electrophoresis of [³⁵S]methionine labeled polypeptides at various intervals after plating revealed distinct changes in the relative abundance of major cellular proteins beginning 9 days after DNA synthesis ceased. An 84 000 mol. wt polypeptide increased markedly in amount while a polypeptide of 94 000 mol. wt disappeared. Autoradiograms following pulse-labeling showed that these changes were due to increased synthesis of the 84 000 mol. wt polypeptide and decreased synthesis of the 94 000 mol. wt polypeptide. Increased synthesis of a 109 000 mol. wt polypeptide occurred without a concomitant change in its relative abundance. These alterations in the pattern of proteins synthesized revert to normal after feeding with serum-free medium even though DNA synthesis does not resume. Therefore, it appears that even though no abrupt changes in the synthesis of major cellular proteins occurred upon cessation of proliferation, eventually a distinct adaptive pattern of protein synthesis develops in response to the changing culture conditions.     

Human endometrial carcinoma cells release factors which inhibit the growth of normal epithelial cells in culture

Autocrine and paracrine interactions between cells are important homeostatic mediators in normal tissues. Alterations to growth factor signalling pathways are likely to play a role in multistep carcinogenesis. In this study normal human endometrial epithelial cells (NHEC) after 3 days in culture were treated with serum-free medium conditioned for 24 h by log phase or confluent cultures of established RL95-2, HEC1A, or AN3CA endometrial carcinoma (EC) cell lines. By day 4, NHEC treated with either log phase or confluent conditioned medium (CM) showed a significant decrease (50–90% of control) in [³H]thymidine ([³H]TdR) incorporation. DNA synthesis was inhibited more by confluent than by log phase CM. By day 7, NHEC treated with CM exhibited fewer colonies per culture, fewer cells per colony, and an increased percentage of single cells. Several growth-regulatory gene products found in the nucleus or at the cell membrane have been shown to be expressed differently in normal and transformed cells. We selected the p53 and c-Ha-ras p21 proteins to further investigate the mechanism of alteration of proliferation in cells treated with carcinoma CM. Thus, by day 7, the percentage of NHEC with nuclear localization of wild type p53 (wt p53) was elevated by treatment with CM. In contrast, CM-treated EC cells continued to proliferate, and showed a decrease in the percentage of cells expressing nuclear wt p53 and an increase in the cytoplasmic expression of c-Ha-ras p21. Our studies show that EC cell lines release factors which inhibit the proliferation of NHEC, thus favoring the proliferation of EC cells.Abbreviations CM conditioned medium - EC endometrial adenocarcinoma - NHEC normal human endometrial epithelial cells     

Neuronal influence on B and H human blood-group antigen expression in rat cochlear cultures

Summary The presence of B and H human blood-group antigens was analyzed by immunocytochemistry in rat cochleas developing either in vivo or in vitro. Developing animals, on embryonic day (E) 18 and postnatal day (P) 3, were used for in vivo studies. For in vitro studies, cochleas were removed at E18 and placed for 3 or 8 days in organotypic culture either directly or after partial spiral ganglion removal. Results from epithelial regions from cochleas developing in vivo were similar to those observed in corresponding areas of direct organotypic cultures where the innervation from spiral ganglion neurons was present. Antibodies to human blood group antigens, anti B and anti AB, selectively labeled hair cells. The intensity of labeling was weak at E18, but increased at P3 in vivo or after 3–8 days in organotypic culture. Anti H antibodies showed weak labeling of the apical surface of hair cells and other epithelial cells at E18; this labeling also increased at P3 or after 3–8 days in culture. In contrast, the non-innervated regions from organotypic cultures, where ganglia were partially removed, exhibited an epithelial disorganization and no hair cell labeling with any of the antibodies studied. The present findings suggest that human blood-group antigen expression on developing cochlear hair cells of rats may be related to afferent nerve fiber influence.     

Cell-specific regulation of protein synthesis in the sea urchin gastrula: A two-dimensional electrophoretic study

Protein synthesis in the two cell types of echinoid early gastrulae was analyzed by two-dimensional polyacrylamide gel electrophoresis and fluorography. Epithelial cells and primary mesenchyme cells were isolated from early gastrulae as described by M. A. Harkey and A. H. Whiteley, 1980 (Wilhelm. Roux's. Arch.189, 111–112). Newly synthesized proteins were labeled with [³H]valine, extracted in SDS buffer, and analyzed electrophoretically. Of the 454 labeled proteins analyzed, 58 incorporated [³H]valine at markedly different relative rates in the two cell types, and 69 were labeled exclusively in one or the other cell type. The most rapidly synthesized proteins in gastrula cells constituted a class which exhibited a much higher degree of cell specificity than the total protein population. Several of these rapidly synthesized proteins were analyzed individually. Among those that were synthesized preferentially in primary mesenchyme cells, two low-molecular-weight, acidic proteins, designated PM28 and PM32, accounted for 9–14% of the total protein synthesis in primary mesenchyme cells but were barely detectable in epithelial cells. Those proteins that were synthesized preferentially in the epithelial cells included several low-molecular-weight species, probably histones, and the cytoskeletal proteins, actin and tubulin. These data indicate that the primary mesenchyme and epithelium of the early gastrula differ profoundly with respect to the synthesis of specific proteins.