Relative content of isoaccepting tRNAs for glycine and proline in avian tendon cells with different rates of procollagen synthesis

The relative amounts of iso-tRNAs^Gly and iso-tRNAs^Pro existing in chick embryo tendon are indicative of a specialization of the tRNA population for collagen synthesis. These amounts are not modified (i) in primary avian tendon (PAT) cells in culture for which the procollagen production varies from about 10% of total protein synthesis to 60% and (ii) in tendons from immature chicks, which show a 3-fold decrease of procollagen production with increasing age. The characteristic tRNA pattern was not maintained in cells which had lost the ability to make high levels of collagen as observed in the cases of: (i) PAT cells reaching confluency; (ii) virus-transformed PAT cells and (iii) tendon from adult chick. Our data are consistent with the idea that tendon tRNA specialization for collagen synthesis is a differentiation feature independent of the expression level of the collagenic function but related to its maintenance.     

Relative content of isoaccepting tRNAs for glycine and proline in avian tendon cells with different rates of procollagen synthesis

The relative amounts of iso-tRNAsGly and iso-tRNAsPro existing in chick embryo tendon are indicative of a specialization of the tRNA population for collagen synthesis. These amounts are not modified (i) in primary avian tendon (PAT) cells in culture for which the procollagen production varies from about 10% of total protein synthesis to 60% and (ii) in tendons from immature chicks, which show a 3-fold decrease of procollagen production with increasing age. The characteristic tRNA pattern was not maintained in cells which had lost the ability to make high levels of collagen as observed in the cases of: (i) PAT cells reaching confluency; (ii) virus-transformed PAT cells and (iii) tendon from adult chick. Our data are consistent with the idea that tendon tRNA specialization for collagen synthesis is a differentiation feature independent of the expression level of the collagenic function but related to its maintenance.     

Subpopulation of nestin positive glial precursor cells occur in primary adult human brain cultures

Glial fibrillary acidic protein (GFAP) is an intermediate filament protein considered to be the best astroglial marker. However, the predominant cell population in adult human brain tissue cultures does not express GFAP; these cells have been termed “glia-like” cells. The basic question about histological origin of adult human brain cultures remains unanswered. Some authors showed that “glia-like” cells in adult human brain cultures might be of non-glial origin. We examined primary explant tissue cultures derived from 70 adult human brain biopsies. Within first 5–10 days approximately 5–10% of the small explants became attached. Outgrowing cells were mostly flat cells. These cells formed confluent layer over 3–6 weeks in culture. At confluence the cultures contained 2–5% of microglial cells, 0.1% GFAP-positive astrocytes, less than 0.01% oligodendrocytes and 95–98% GFAP-negative “glia-like” cells. This population of flat “glia-like” cells was positively stained for vimentin, fibronectin, and 20–30% of these cells stained for nestin. Our findings revealed that 1 mM dibutyryl-cAMP addition, in serum free conditions, induced a reversible stellation in 5-10% of the flat “glia-like” cells but did not induce the expression of GFAP or nestin in morphologically changed stellate cells. These results demonstrate that “glia-like” cells in primary adult human brain cultures constitute heterogeneous cell populations albeit with similar morphological features. Two distinct subpopulations have been shown: (i) the one immunostained for nestin; and (ii) the other reactive for dibutyryl-cAMP treatment.     

Transient alterations in cellular permeability in cultured human proximal tubule cells: Implications for transport studies

Summary Primary cultures of human proximal tubule (HPT) cells possess the characteristics of a tight epithelium and retain the characteristics of in vivo renal function. HPT cells from confluent monolayers when grown on collagen-coated polycarbonate inserts in a hormonally defined serum-free medium. However, initial studies of transepithelial transport observed large bidirectional fluxes of the paracellular probe inulin. The present studies were designed to assess the transformation of HPT cell tight junctions to a “leaky” state and subsequent recovery. The apparent transepithelial electrical resistance of HPT cells at confluence was 952.0±70.0 ohms*cm², suggesting a well-developed tight junction-mediated paracellular pathway in this epithelium. However, replacement of the growth media produced an immediate 90% drop in the initial resistance, which was paralleld by an increased flux of inulin and of phenol red. This transient abolition of barrier function spontaneously reestablished over 1–2 h by a process that was dependent on the ionic composition of the added media. Complete recovery of cellular resistance was paralleled by markedly decreased fluxes of inulin and of phenol red. The recovery of cellular barrier function was inhibited by cytochalasin B suggesting an intracellular action, not a physical disruption of the monolayer. These results suggest that the tight junctions in these cells appear to transiently produce a leaky state during removal of the media, but rearrange to a “tight conformation” when incubated in the appropriate media.     

Human bone marrow stromal cells express an osteoblastic phenotype in culture

Summary This study reports the selection and characterization of osteogenic precursors from human bone marrow which were isolated by two “clonings” and successive subculturing. These cell lines express alkaline phosphatase activity. Gel electrophoresis of [³H]-proline labeled cultures showed that the cloned cells produce only type I collagen. They synthetize osteocalcin and osteonectin. They respond to 1,25 dihydroxy vitamin D₃ by increasing osteocalcin synthesis and secretion, and to parathyroid hormone by increasing cyclic AMP synthesis. After the third subculture in the absence of β-glycerophosphate, these cell lines formed lots of clusters which exhibit high alkaline phosphatase activity and positive von Kossa staining. X-ray energy spectrum shows that these cells are surrounded by “budding” structures containing calcium and phosphorus with a ratio Ca:P identical to those of pure hydroxyapatite. This process was associated with⁴⁵Ca uptake into the cells. All these data support the selection of osteogenic cells which may be of considerable clinical importance.     

Collagen prolyl hydroxylation in WI-38 fibroblast cultures: Action of hydralazine

Summary The action of hydralazine on collagen prolyl hydroxylation was studied in a cell culture system using WI-38 fibroblasts. The prolyl hydroxylation level was determined by a method involving the digestion of collagen by bacterial collagenase and the examination of specific peptides. The presence of low concentrations of hydralazine (0.2 mM) in both “young” and “old” fibroblast cultures strongly inhibited collagen prolyl hydroxylation. The degree of inhibition was greater in serum-deficient cultures. No significant improvement in the degree of hydroxylation was observed by increasing either ascorbate or iron levels in the hydralazine-containing cultures in which hydroxylation was inhibited. Some of the reported side effects of hydralazine seen in patients might be related to its inhibitory effects on mixed function oxidative (MFO) hydroxylation systems. While the ascorbate dependence of the prolyl hydroxylase system of WI-38 decreased with the “age” of the culture, hydralazine inhibition of hydroxylation was dramatic with cultures of all “ages”. This work was supported by NIH grants nos. AM15671, AM1675 and HD07376, and fellowship no. HD01998.     

Colocalization of laminin and fibronectin in bovinelens epithelial cells in vitro

Summary The distribution and organization of the extracellular matrix (ECM) proteins laminin, fibronectin, entactin, and type IV collagen were investigated in primary colonies and secondary cultures of bovine lens epithelial cells using species-specific antisera and indirect immunofluorescence microscopy. Primary cell colonies fixed in formaldehyde and permeabilized with Triton X-100 displayed diffuse clonies. In contrast, thick bundles of laminin and fibronectin were located on the basal cellsurfaces and in between cells in the densely packed center of the colonies, and as “adhesive plaques” and fine extracellular matrix cords in the sparsely populated (migratory) outer edge of the colonies. The distribution of ECM proteins observed in secondary lens epithelial cell cultures was similar to that observed at the periphery of the primary colony. Extraction of the secondary cell cultures with sodium deoxycholate confirmed that laminin and fibronectin were deposited on the basal cell surface. Indeed, the patterns of laminin and fibronectin deposition suggested that these proteins codistribute. These results establish that lens epithelial cells in culture can be used as a model system to study the synthesis and extracellular deposition of the basement membrane proteins, laminin and fibronectin. Supported by Public Health Service grant EY05570 from the National Eye Institute Bethesda, MD.     

Long-term primary culture of epithelial cells from rainbow trout (Oncorhynchus mykiss) liver

Summary Long-term primary cultures of epithelial cells from rainbow trout (Oncorhynchus mykiss) liver have been established. Nearly homogenous (>97%) populations of hepatocytes were placed into primary culture and remained viable and proliferative for at least 70 d. In addition to hepatocytes, proliferative biliary cells persisted in the cultures for at least 30 d. Finally, a third type of epithelial cell, which we have termed a “spindle cell,” consistently appeared and proliferated to confluence in these cultures. The confluent cultures of spindle cells were successfully subcultured and passaged. The initial behavior, growth, and optimization of serum and media requirements for these cells is described. All three cell types proliferated as measured by thymidine incorporation, autoradiography, proliferating cellular nuclear antigen analysis, and propidium iodine staining. Further efforts to characterize the cells included western blotting and immunohistochemical staining with antibodies to cytokeratins previously reported in fish liver. From these data, it appears that all three cell populations are epithelial in nature. Furthermore, significant changes in actin organization, often indicative of transformation or pluripotent cells, were observed with increased time in primary culture.     

Attachment and extracellular matrix differences between tendon and synovial fibroblastic cells

Summary Fibroblasts of the synovium of sheathed tendons were isolated, and their biochemical properties were compared with those of the fibroblasts of the remaining tendon. The synovial cells had a lower attachment efficiency than did the tendon cells. On the day of cell isolation the synovial cells synthesized collagen as 10% of their total protein, whereas the tendon cells synthesized 30% collagen. After growth in fetal bovine serum (FBS), the percentage of collagen synthesized by both populations decreased; however, the synovial cells still made less collagen than did the tendon cells (5 versus 11%). On the basis of cyanogen bromide peptide analysis, the synovial cells were found to synthesize Types I and III collagen in primary culture, whereas the tendon cells synthesized only Type I. The synovial cells aslo synthesized two to three times less sulfated glycosaminoglycans in culture than did the tendon cells. Thus, the two cell, populations differed in attachment efficiency and in their biosynthesis of collagen and sulfated glycosaminoglycans. These differences reflect extracellular matrix differences that have been observed in the tendon in vivo. In addition, the results augment existing data showing that not all fibroblasts have identical phenotypes. This investigation was supported by National Institutes of Health Grant AM 25749.     

Regulation of collagen production and collagen mRNA amounts in fibroblasts in response to culture conditions.

Collagen synthesis and mRNA amounts for the alpha 1 and alpha 2 polypeptide chains of Type I collagen were measured in embryonic-chick tendons and in tendon cells both in suspension and in primary cultures. The percentage of protein production represented by collagen in suspension-cultured cells was initially the same as in the intact tendon; however, on an hourly basis, there was actually a steady decline in collagen production by suspended cells. Collagen production in primary cultures of chick tendon fibroblasts was decreased when compared with intact tendon, even though ascorbate-supplemented primary cultures were able to maintain higher rates of collagen production than were non-supplemented cultures. The amounts of mRNA for alpha 1(I) and alpha 2(I) polypeptide chains of collagen responded in similar fashions to different culture conditions and were compared with the amounts of mRNA for beta-actin. In primary cultures the available alpha 1 and alpha 2 collagen mRNAs support proportionately higher collagen production than in the intact tendon. However, the ratio of alpha 1/alpha 2 mRNA and polypeptide-chain synthesis did not remain 2:1, but increased with the concomitant production of Type I trimers composed of three alpha 1 chains. Removal of fibroblasts from their environment in vivo appears to alter the amounts of mRNA for alpha 1 and alpha 2 chains and to alter the utilization of those mRNAs for polypeptide synthesis.     

Cell-to-cell signaling in the regulation of procollagen expression in primary avian tendon cells

Summary High cell density is required for high procollagen expression (50% of total protein synthesis) in primary avian tendon (PAT) cells but the signaling mechanism that triggers this response has been difficult to decipher. By using a quantitative in situ hybridization assay for procollagen mRNA, cell density dependent changes in procollagen expression can be followed at the single cell level. PAT cells can then be shown to respond to the presence of their neighbors over ∼1-mm distance. The cell density signal remains effective independent of the medium volume to cell ratio but becomes sensitive to dispersion and dilution when the medium is agitated. PAT cells respond to a reduction in cell density, when neighboring cells are scraped away, by outgrwoth (∼1 mm) and reestablishment of a cell density gradient in cellular procollagen mRNA levels. However, removing neighboring cells while preventing migration off of their own extracellular matrix retards the drop in procollagen mRNA levels. The evidence, taken as a whole, is consistent with a model whereby the cell density signal is a loosely bound component of the cell layer thereby restricting its diffusion to two dimensions but making it susceptible to dispersion by medium agitation. This work was supported in part by grant CA 37958 from the National Institutes of Health, Bethesda, MD, and in part by the Office of Health and Environmental Research, U.S. Dept. of Energy, Washington, DC, under contract DE-AC03-76SF00098.     

Primary avian tendon cells in culture. An improved system for understanding malignant transformation

Primary avian tendon (PAT) cells which maintain their differentiated state in culture are rapidly transformed by Rous sarcoma virus. By criteria of morphology, increased rate of 2-deoxyglucose uptake, and loss of density dependent growth control, PAT cells transform as well as their less differentiated counterpart, chick embryo fibroblasts. In addition, the percentage of collagen produced by PAT cells drops on transformation by an order of magnitude, from 23 to 2.5%, but is unaffected by viral replication of a transformation-defective mutant. The responsiveness of normal and transformed PAT cells to various environmental factors changes dramatically upon transformation. Normal PAT cells respond to the presence of ascorbate and high cell density by raising the level of collagen synthesis from 5 to 23%. Transformed PAT cells are totally unresponsive. These and previously reported results lead us to postulate that the break-down in the normal regulatory mechanisms used by the cell to maintain the differentiated state is related to or is responsible for the onset of malignant transformation.     

Growth of preadipocyte cell lines and cell strains from rodents in serum-free hormone-supplemented medium

Summary Ob17 is a clonal cell line isolated from the epididymal fat pad of C57 BL/6J ob/ob mouse that differentiates into adiposelike cells in serum-supplemented medium. In serum-free medium, this cell line shows increased growth under the addition of insulin, transferrin, fibroblast growth factor (FGF), and a factor present in extract of rat submaxillary gland (SMGE). This medium is referred to as 4F. Epidermal growth factor or nerve growth factor cannot replace SMGE, whereas partially purified platelet extract can substitute for FGF but only partially for SMGE. 4F Medium is able to support the proliferation of cells from other established preadipocyte clonal lines, HGFu and 3T3-F442A, and also of preadipocyte cells isolated from the stromal-vascular fraction of rat and mouse adipose tissues. In each case 4F medium is insufficient to support the differentiation of these cells into adipocytes. Ob17 cells grown and maintained in serum-free hormone-supplemented medium retain the ability to convert to adiposelike cells after serum addition. This serum requirement for differentiation cannot be substituted by the addition of growth hormone or of other putative adipogenic factors, or both. The results are discussed with respect to the requirements for growth and differentiation of the 3T3-L1 and 1246 preadipocyte cell lines previously described. This work was supported by the “Centre National de la Recherche Scientifique” (Grant 1208-Biochimie du Développement and Grant 4162-Endocrinologie), by the “Ministère de la Recherce et de la Technologie” (Grant 81-L-1322), by the “Fondation pour la Recherche Médicale,” by NATO (Grant 1704), and by the “Institut National de la Santé et de la Recherche Médicale” (Grant 827006).     

Organized type I collagen influences endothelial patterns during “spontaneous angiogenesis in vitro”: Planar cultures as models of vascular development

Summary Selected strains of vascular endothelial cells, grown as confluent monolayers on tissue culture plastic, generate flat networks of cellular cords that resemble beds of capillaries—a phenomenon referred to as “spontaneous angiogenesis in vitro”. We have studied spontaneous angiogenic activity by a clonal population (clone A) of bovine aortic endothelial cells to indentify processes that mediate the development of cellular networks. Confluent cultures of clone A endothelial cells synthesized type I collagen, a portion of which was incorporated into narrow, extracellular cables that formed a planar network beneath the cellular monolayer. The collagenous cables acted as a template for the development of cellular networks: flattened, polygonal cells of the monolayer that were in direct contact with the cables acquired spindle shapes, associated to form cellular cords, and became elevated above the monolayer. Networks of cables and cellular cords did not form in a strain of bovine aortic endothelial cells that did not synthesize type I collagen, or when traction forces generated by clone A endothelial cells were inhibited with cytochalasin D. In a model of cable development, tension applied by a confluent monolayer of endothelial cells reorganized a sheetlike substrate of malleable type I collagen into a network of cables via the formation and radial enlargement of perforations through the collagen sheet. Our results point to a general involvement of extracellular matrix templates in two-dimensional (planar) models of vascular development in vitro. For several reasons, planar models simulate invasive angiogenesis poorly. In contrast, planar models might offer insights into the growth and development of planar vascular systems in vivo.     

Keratinocytes grown at the air-liquid interface

Summary A procedure is described which allows primary cultures of rat keratinocytes grown at the liquid-air interface to develop and maintain multilayered strata and to produce highly keratinized sheets morphologically similar to those seen in epidermis in situ. Various substrata were tested and compared as to their ability to support growth and stratification of keratinocytes. It was found that when cultured on plastic surfaces, keratinocytes adhered tightly to the substratum and produced a confluent monolayer that later stratified to two to three layers. Cells plated on Vitrogen 100 collagen failed to reach confluence and, in addition, exhibited the “clustering” phenomenon and deterioration of collagen after 3 to 4 d of growth. Significantly better attachment and spreading were observed for cells grown on rat-tail collagen as compared with plastic and Vitrogen 100 collagen. The best results, including maximal and uniform stratification, were seen in cells grown on a mixture, of rat-tail and Vitrogen 100 collagens. The system that was developed in the present study offers a model for use in the study of epidermal toxicity from topically applied environmental chemicals. This investigation was supported by grant 5 T32 AM 07236 and 5 R01 AM 15206 from the National Institutes of Health, contract DAMD17-82-C-2198 from the US Army Medical Research and Development Command, and contract N-2 from the Proctor and Gamble Company The contents of this paper do not represent the opinion of the sponsors nor should findings in this report be construed as their official position.     

Establishment and characterization of a new murine mammary tumor cell line,balb/c-MC

Summary A new murine mammary tumor cell line (BALB/c-MC) was established from a spontaneous mammary tumor in a 17-mo.-old female mouse of the low mammary cancer strain BALB/cHe. The cell line was derived from a papillary adenocarcinoma. In monolayer culture the line exhibits a pavementlike arrangement of cells and forms “domes” or “hemicysts” as the cells become confluent. The cell line rapidly forms tumors when transplanted into young syngeneic BALB/cHe mice. The subcutaneous injection of 10⁶ cells resulted in the development of mammary tumors (typical papillary adenocarcinomas) in 33 of 37 (87% recipients within 2 to 3 mo. after injection. These mammary tumors also metastasize to lung [14 of 33 (42%) of recipients] during this time. The number of chromosomes in this cell line is hyperdiploid (average of 43, range 39 to 44).     

The effect of enrofloxacin on cell proliferation and proteoglycans in horse tendon cells

Fluoroquinolone antibiotics have been used widely in humans and domestic animals, including horses, because of their broad-spectrum bactericidal activity, and relative safety. The use of fluoroquinolones, however, is not without risk. Tendonitis and spontaneous tendon rupture have been reported in people during or following therapy with fluoroquinolones. We have studied the effects of enrofloxacin, a fluoroquinolone antibiotic used commonly in domestic animals, on tendon cell cultures established from equine superficial digital flexor tendons. Effects on cell proliferation and morphology were studied using cell counting and scanning electron microscopy. Monosaccharide content and composition was determined by gas chromatography-mass spectrometry analysis. Western and Northern blot analyses were utilized to evaluate the synthesis and expression of two proteoglycans, biglycan and decorin. Our data demonstrate that enrofloxacin inhibits cell proliferation, induces morphological changes, decreases total monosacharide content and alters small proteoglycan synthesis at the glycosylation level in equine tendon cell cultures. These effects are more pronounced in juvenile tendon cells than in adult equine tendon cells. We hypothesize that morphological changes and inhibition of cell proliferation are a result of impaired production of biglycan and decorin, proteoglycans involved in fibrillogenesis of collagen, the most important structural component of the tendon of enrofloxacin-treated tendon cells. Our findings suggest that fluoroquinolones should be used with caution in horses, especially in foals.     

Modulation of collagen production in cultured fibroblasts by a low-frequency, pulsed magnetic field

Primary cultures of chicken tendon fibroblasts have been exposed for various periods to a low-frequency, pulsed magnetic field, and the effects on protein and collagen synthesis have been examined by radioisotopic incorporation. Total protein synthesis was increased in confluent cells treated with a pulsed magnetic field for the last 24 h of culture as well as in cells treated for a total of 6 days. However, in 6 day-treated cultures, collagen accumulation was specifically enhanced as compared to total protein, whereas after short-term exposure, collagen production was increased only to the same extent as total protein. Levels of cyclic AMP were significantly decreased after 6-day pulsed magnetic field treatment, probably as a consequence of diminished adenylate cyclase activity. Exposure to pulsed magnetic field had no effect on cell proliferation or collagen phenotype. These results indicate that a pulsed magnetic field can specifically increase production of collagen, the major differentiated function of fibroblasts, possibly by altering cyclic-AMP metabolism.     

Cultures of human tracheal gland cells of mucous or serous phenotype

There are two main epithelial cell types in the secretory tubules of mammalian glands: serous and mucous. The former is believed to secrete predominantly water and antimicrobials, the latter mucins. Primary cultures of human airway gland epithelium have been available for almost 20 yr, but they are poorly differentiated and lack clear features of either serous or mucous cells. In this study, by varying growth supports and media, we have produced cultures from human airway glands that in terms of their ultrastructure and secretory products resemble either mucous or serous cells. Of four types of porous-bottomed insert tested, polycarbonate filters (Transwells) most strongly promoted the mucous phenotype. Coupled with the addition of epidermal growth factor (EGF), this growth support produced “mucous” cells that contained the large electron-lucent granules characteristic of native mucous cells, but lacked the small electron-dense granules characteristic of serous cells. Furthermore, they showed high levels of mucin secretion and low levels of release of lactoferrin and lysozyme (markers of native serous cells). By contrast, growth on polyethylene terephthalate filters (Cyclopore) in medium lacking EGF produced “serous” cells in which small electron-dense granules replaced the electron-lucent ones, and the cells had high levels of lactoferrin and lysozyme but low levels of mucins. Measurements of transepithelial resistance and short-circuit current showed that both “serous” and “mucous” cell cultures possessed tight junctions, had become polarized, and were actively secreting Cl.     

Comparative study of the characteristics and properties of tendinocytes derived from three tendons in the equine forelimb

The aim of this study was to determine the characteristic differences in tendinocytes derived from tendons in the equine forelimb, superficial digital flexor tendon (SDFT), deep digital flexor tendon (DDFT) and common digital extensor tendon (CDET), in morphology, proliferation, collagen production ability and ability for synthesis of matrix metalloproteinases (MMPs). Significant differences were observed in cell number in vivo. The cellular number was largest in the SDFT and smallest in the CDET. The values of in vitro proliferation ratios and ability for synthesis of collagen and MMPs were largest in the SDFT and smallest in the CDET. Addition of TNFα to culture of all three types of tendinocytes increased the synthesis of both proMMP-9 (except CDET) and collagen and decreased proMMP-13 synthesis and had no effect on proMMP-2 synthesis. Flexor tendons in forelimbs (SDFT and DDFT) restore energy during locomotion and are more easily injured than are extensor tendons. This structural property would cause active ECM and MMPs synthesis. And CDET have very low turnover potential; in the small number of cells, low cellular proliferation, lower ability for synthesis of collagen and MMPs. The isolated tendinocytes provided much information on the characteristics and properties of tendons for the ECM turnover system and responsiveness of tendinocytes to complex inflammatory responses in tendinopathy.