Structural alterations in fibronectin correlated with morphological changes in smooth muscle cells

Nontransformed cultures of vascular smooth muscle cells proliferate until they form a confluent sheet of cells. Subsequently, the cells become reorganized to form multicellular nodules that are loosely attached to the substrate. The formation of nodules is facilitated by the addition of medium conditioned by nodular cultures. Nodulation is inhibited by the addition of fibronectin. Fibronectins derived from monolayer culture conditioned medium or from plasma are maximally effective while fibronectin isolated from nodular cell conditioned medium is inactive. Analysis by NaDodSO4-polyacrylamide gel electrophoresis reveals that the nodular cell fibronectin has a molecular weight that is about 20-30 kd less than that of monolayer cell fibronectin. Further, nodular cell conditioned medium contains an activity that can convert both plasma fibronectin and monolayer cell fibronectin to the lower molecular weight correlated with the loss of biological activity.     

Isolation and characterization of a Mr = 38,000 protein from differentiating smooth muscle cells

In culture, vascular smooth muscle cells grow and form a confluent monolayer of cells. Under appropriate conditions, regions of the monolayer can be induced to draw away from the substrate and form multicellular nodules. The ultrastructure of the cells in the nodules appears to be similar to that of differentiated smooth muscle cells. The process of nodulation is associated with the synthesis of a unique protein whose molecular weight is estimated from gradient gel electrophoresis to be 38,000 (38-kDa Protein). The protein is secreted into the culture medium and can be detected either by metabolic labeling or by staining with Coomassie Blue. Partial purification of 38-kDa Protein was achieved using affinity chromatography. The protein is adsorbed to heparin-agarose, but not to gelatin-agarose. The concentration of 38-kDa Protein in nodular conditioned medium is estimated at 1.9 micrograms/ml and less than 0.01 microgram/ml in conditioned medium made from monolayer cells. The presence of 5% fetal bovine serum in the labeling medium does not affect 38-kDa Protein synthesis. Cross-reactivity with fibronectin was evaluated using polyvalent antibodies to 38-kDa Protein. The 38-kDa Protein is not antigenically related to fibronectin. Furthermore, we establish that the protein is not qualitatively influenced by the presence of ascorbate (50 micrograms/ml), beta-aminoproprionitrile fumarate (50 micrograms/ml) heparin (10 ng/ml), or fibronectin (20 micrograms/ml) in the culture medium. We find that the added components neither suppress 38-kDa Protein synthesis in nodular cultures nor enhance 38-kDa Protein synthesis in monolayer cultures. The 38-kDa Protein is not detected in either monolayer or nodular cell layers and appears to be a secreted protein. Its appearance in nodular conditioned medium during nodulation suggests a relationship with that process.     

In vitro expression of a 38,000 dalton heparin-binding glycoprotein by morphologically differentiated smooth muscle cells

In vitro, high density monolayer cultures of vascular smooth muscle cells can be induced to form multicellular nodules. The nodular cells appear to be morphologically differentiated smooth muscle cells. Sodium dodecyl sulfate (NaDodSO4)-polyacrylamide gel electrophoresis was used to compare the proteins synthesized and secreted by monolayer and nodular cultures of smooth muscle cells. Although most proteins appeared to be similar, the nodular cultures contained a unique heparin binding protein of Mr = 38,000 (38kD protein) (Millis, A.J.T., Hoyle, M., Reich, E., and Mann, D.M., 1985, J. Biol. Chem., 260:3754-3761). The 38kD protein was glycosylated and its apparent molecular weight was shifted to Mr = 32,500 after synthesis in the presence of tunicamycin or digestion with endoglycosidase F. The production of 38kD protein by nodular cell cultures did not appear to result from the degradation of a high molecular weight precursor in nodular conditioned medium. Further, it was not detected in monolayer cell conditioned medium that had been incubated with nodular cells. Finally, its synthesis was not induced in monolayer cell cultures that had been labeled in nodular cell conditioned medium. The 38kD protein appears to be uniquely associated with nodular cultures of smooth muscle cells.     

Clusterin (Apo J) regulates vascular smooth muscle cell differentiation in vitro

Previously we reported a significant and substantial increase in the synthesis and secretion of clusterin in cultured porcine vascular smooth muscle cells (VSMC) during the time when the VSMC culture modulates from a proliferating monolayer morphology to a nodular cell culture morphology. That in vitro process appears to recapitulate some aspects of in vivo vascular remodeling in response to injury and is facilitated by the presence of a well-developed extracellular matrix. To directly test the hypothesis that clusterin regulates VSMC phenotypic modulation, cultured VSMC were stably transfected with an expression plasmid containing the full-length murine clusterin sequence in antisense orientation. Twenty-four clones were selected on the basis of neomycin resistance and characterized for clusterin expression and culture morphology. In contrast to clone SM-CLU18AS, which expresses a high level of clusterin and forms multicellular nodules, clone SM-CLU13AS expresses a low level of clusterin and does not form nodules even in the presence of a preformed collagen gel. Importantly, clusterin-negative SM-CLU13AS retains the ability to form nodules in an environment containing exogenous clusterin. SM-CLU13AS forms nodules when cultured in Matrigel (which contains clusterin) and in the presence of clusterin-containing conditioned media prepared from nodular SMC cultures or SM-CLU18AS cultures. These results demonstrate that clusterin is required for VSMC nodule formation and suggest that it may play a role in smooth muscle cell reorganization in the vascular wall. J. Cell. Physiol. 180:355–364, 1999. © 1999 Wiley-Liss, Inc.     

Culture media conditioned by wounded cells modify the fibronectin localization pattern of unwounded confluent PtK2 cells

A confluent PtK2 cell sheet was incised in a serum-free culture medium, at 15 min, 2 hr and 24 hr after wounding. The culture media were collected in the same way and used as conditioned media. Unwounded confluent cells were cultured in the conditioned medium for 24 hr. They showed a modification of fibronectin localization similar to that which we had previously observed in wounded confluent PtK2 cells: cells lost their normal fibronectin fibrils and were surrounded by fibronectin lace. This finding suggested that during wound healing, the cells released soluble chemical factors which could modify the fibronectin localization pattern of unwounded confluent cells. Subconfluent cells did not respond to conditioned media, showing that confluent cells and subconfluent cells had different susceptibilities.     

Expression of porcine complement cytolysis inhibitor mRNA in cultured aortic smooth muscle cells. Changes during differentiation in vitro.

Porcine smooth muscle cells (SMC) grown to a high density monolayer culture undergo a morphological transition in which the cells draw away from the substrate and form multicellular nodules. The cells within the nodule resemble SMC in the aortic media and in some atherosclerotic plaques. The process of nodule formation is associated with the enhanced production of a secreted 38-kDa glycoprotein. To characterize the 38-kDa protein and its expression, a cDNA clone (pc38K) was isolated by immunological screening of an expression library. The 1646-base pair cDNA contains a single open reading frame encoding 446 amino acids. This sequence shows 72% homology with the human complement cytolysis inhibitor (CLI), also called serum protein-40,40, and 68% identity with rat sulfated glycoprotein-2. Based on this homology, we refer to the protein encoded by pc38K as CLI. This polypeptide includes a potential signal sequence, seven glycosylation sites and 10 cysteines in two clusters of five each. Southern blot analysis reveals that a single copy gene encoding CLI is present in mammals and chicken. In Northern blot analysis of SMC RNA, pc38K hybridizes to a mRNA of about 1.9 kilobases that is preferentially expressed in nodular SMC. The steady state level of this mRNA increases as the cultures begin to form multilayered regions. High levels of the mRNA persist after the cells are trypsin-dissociated. Culture medium conditioned by nodular SMC also induces an increase of CLI mRNA. Analysis of RNA extracted from porcine tissues show the highest levels of CLI mRNA in brain and liver; lower levels are detected in other tissues, including the aorta. Possible functions for the CLI are discussed.     

Anchorage-independent colony formation of SV40 transformed BALB/c-3T3 cells in serum-free medium: role of cell- and serum-derived factors

The colony-forming response of SV40 transformed BALB/c-3T3 cells in agarose suspension culture was studied in a serum-free medium (with insulin, transferrin and serum albumin as the only macromolecular supplements) that was optimized for colony formation of fibronectin-attached monolayer cultures. In this serum-free medium, the SV3T3 cells fail to form colonies in agarose suspension. However, they can be induced to anchorage-independent colony formation by the growth factors that are additionally required by their untransformed counterparts for proliferation in monolayer culture. The SV3T3 cells are also rendered anchorage-independent for colony formation in serum-free medium by conditioned medium from dense monolayer serum-free SV3T3 cultures. These experiments suggest that it is the cell-substrate interaction that is responsible for the growth factor autonomy of fibronectin-attached transformed cells.     

Fibronectin from chicken embryo fibroblasts contains covalently bound phosphate

Fibronectin isolated from cultures of chicken embryo fibroblasts (CEF) contains phosphorus linked to serine and threonine by monoester bonds. Normal and Rous sarcoma virus (RSV)-transformed cells were incubated with [32P]orthophosphate, and fibronectin was isolated from the cell surfaces and conditioned media. 32P was stably associated with fibronectin during immunoprecipitation, SDS-polyacrylamide gel electrophoresis, phospholipid solvent extraction, and hot acid but not alkaline treatment. After a limited acid hydrolysis of fibronectin, both phosphoserine and phosphothreonine were found. The specific radioactivity of the 32P-labeled fibronectin from the conditioned medium of normal CEF was higher than that from the cultures of transformed CEF.     

The mast cell-committed progenitor. I. Description of a cell capable of IL-3-independent proliferation and differentiation without contact with fibroblasts

We have identified a late, committed stage in the differentiation of the mast cell progenitor just before granulation. Mast cell committed progenitors (MCCP) are nongranulated cells with a density of 1.060 to 1.070 g/ml which can be harvested from the mesenteric lymph node of mice infected with Nippostrongylus brasiliensis. Mast cell-committed progenitors are able to proliferate and differentiate in the absence of IL-3 or IL-4 when cultured on a monolayer of embryonic skin or 3T3 fibroblasts and can form colonies in methylcellulose supplemented with fibroblast conditioned medium. Fibroblast conditioned medium appears to contain a soluble MCCP proliferation factor that maintains biologic activity when heated to 56 degrees C for 45 min but is destroyed by incubation with either trypsin or chymotrypsin. It can be selectively precipitated with 60 to 70% saturated ammonium sulfate. The factor is not absorbed by immobilized antibodies to nerve growth factor. The MCCP proliferation activity of the factor could not be mimicked by IL-1, IL-2, IL-4, granulocyte-macrophage-CSF, granulocyte-CSF, macrophage-CSF, IFN-alpha/beta, IFN-gamma, nerve growth factor, epidermal growth factor, serum fibronectin, heparin, or a number of glycosaminoglycans. At high salt concentrations, the factor passes through a 50-kDa membrane and can be concentrated above a 5-kDa membrane. MCCP acquire a connective tissue phenotype when cultured on a fibroblast monolayer and a mucosal phenotype when cloned in the presence of conditioned medium from PWM-stimulated spleen cells. When cultured in the absence of IL-3 on a monolayer of embryonic skin or 3T3 fibroblasts, mast cell-committed progenitors produce mast cells which stain with berberine sulfate suggesting a connective tissue phenotype; however, the mast cells that develop when mast cell-committed progenitors are cultured in the presence of IL-3 or conditioned media from PWM-stimulated spleen cells do not stain with berberine sulfate. MCCP intercalate into monolayers of embryonic skin or 3T3 fibroblasts, but T cells are not able to associate with the monolayer and can be completely washed away. Attempts to enrich mast cell-committed progenitors by intercalation and elution from embryonic skin monolayers proved unsuccessful, but some enrichment of mast cell-committed progenitors could be achieved by discontinuous Percoll gradients. Thus, we have identified a way to obtain late-stage, mast cell-committed progenitors in an environment that is virtually uncontaminated with other hematopoietic progenitors.     

The influence of extra-cellular matrix and stroma remodeling on the productivity of long-term human bone marrow cultures

The stromal cell layer is believed to play an important role in long-term human bone marrow cultures (LTHBMCs). At present, neither the role that the stromal cell extra-cellular matrix (ECM) plays in influencing stroma behavior is well understood nor are the effects of stroma aging. Rapid medium exchanged LTHBMCs were established on surfaces precoated with human natural fibronectin and type 1 rat tail collagen. Although initial adhesion of hematopoietic cells was improved by the presence of both ECMs, the overall progenitor and nonadherent cell productivity was not improved nor did the stroma grow to confluency faster. Thus, the ECMs used did not significantly influence the cell productivity of LTHBMCs. To examine the influence of stromal cell layer aging, conditioned medium was obtained from the first two weeks of LTHBMCs that was subsequently concentrated and used as a medium supplement in a second set of slowly exchanged LTHBMCs. The presence of the concentrated conditioned medium (conCM) enhanced the production of nonadherent cells three-fold compared with control over an eight week culture period. Control cultures that were exposed to conCM after 4 weeks in culture significantly improved their cell productivity during the latter 4 weeks of culture compared with control. The productivity of cultures exposed to conCM for 4 weeks dropped significantly when unsupplemented medium was used for the latter 4 weeks of culture. Interestingly, phytohemagglutin-stimulated leukocyte-conditioned medium stimulated LTHMBCs in a similar fashion, as did conditioned medium from early LTHBMCs. Taken together, these results strongly suggest that the stromal cell layer does produce important factors for active hematopoiesis during its growth to confluence.     

Serum suppresses the expression of hormonally induced functions in cultured granulosa cells

Growth and function of primary cultures of granulosa cells obtained from immature, hypophysectomized, estrogen-treated rats were compared in serum-containing and serum-free media. In serum-free medium (1:1 mixture of DMEM:F-12) supplemented with insulin, hydrocortisone, transferrin and fibronectin (4F medium), the cells remained healthy and steroidogenically responsive for at least 60 days in culture. The growth profile of the granulosa cells in 4F medium was similar to that obtained in serum-containing medium. In both media cell proliferation did not exceed more than one cell doubling. DMEM:F-12 alone did not support the cell viability. Upon FSH stimulation, the cells produced 25 fold more progestin and estrogen per cell in 4F medium than in medium supplemented with 5% serum. This effect was not directly related to serum proteins which mediate cell adhesion since cells cultured in dishes precoated with serum remained steroidogenically responsive to FSH. Cholera toxin and Bt₂-cAMP readily stimulated progestin production in the presence of serum. The inhibitory effect of serum was not reversed by adding the four factors to serum-containing medium. The factors were essential for the FSH-induced steroidogenesis in serum-free medium. After four days of incubation in 4F medium, the cells showed a transient loss of their ability to produce progestin in response to FSH. In both 4F medium as well as in serum-containing medium, the cells regained their hormonal responsiveness after 35 days in culture. Since the loss of hormonal responsiveness occurred at the same time as growth was initiated in the cultures, it is suggested that the FSH-induced steroidogenesis is negatively controlled by growth-related processes.     

Fibronectin from aged fibroblasts is defective in promoting cellular adhesion

Late passage fibroblasts show decreased cell-substrate adhesion. We provide evidence that the reduced adhesion is due to a defect in the adhesive glycoprotein fibronectin. Late passage cells become more adhesive in culture media that has been conditioned by the growth of early passage cells. Analysis of fibronectins purified from early and late passage cell conditioned media indicates that there are striking differences in their abilities to promote cell adhesion. Young cell fibronectin supports the maximal adhesion of both young and old cells. However, old cells require quantitatively more fibronectin. In contrast, old cell fibronectin is less effective in supporting the adhesion of either cell type. In addition, neither cell type achieves a normal morphology in the presence of old cell fibronectin. The results support the conclusion that the fibronectin released by late passage cells is defective and does not support normal cell-substrate interactions.     

Conditioned medium from endothelial cell cultures can restore the normal phenotypic expression of vascular endothelium maintained in vitro in the absence of fibroblast growth factor

Bovine vascular endothelial cells continuously maintained and grown in the presence of FGF adopt at confluence the configuration of a cell monolayer composed of contact-inhibited cells which do not overgrow each other and which are highly flattened and closely apposed. Such cultures exhibit structural and morphological characteristics similar to those observed with their in vivo counterparts. These include the production of an extracellular matrix consisting mostly of basement membrane collagen and fibronectin localized exclusively beneath the cell monolayer, but not on top of it, as well as a nonthrombogenic, blood-compatible apical cell surface. Removal of fibroblast growth factor (FGF) from adult bovine aortic endothelial cell (ABAE) cultures results within three passages in the loss by the cells of their characteristic contact-inhibited morphology. The cells, which during their logarithmic growth phase divide with a greatly increased doubling time, become larger and more elongated. Confluent cultures, instead of adopting the morphology of a contact inhibited cell monolayer, are now composed of overgrowing cells. Parallel with the morphological alterations taking place within the culture, the cells also lose the polarity of cell surfaces characteristics of the vascular endothelium. Formation of an extracellular matrix composed primarily of fibronectin and collagen types I, III, and IV is observed on both the apical and basal cell surfaces. Platelets which previously did not bind to the apical cell surface now become capable of binding to it. CSP-60, a major cell surface protein present in highly confluent and contact-inhibited vascular endothelial cell cultures, can no longer be detected. Exposure of confluent endothelial cell cultures, maintained in the absence of FGF to medium conditioned by cells which had been grown in the presence of FGF, but maintained in its absence upon reaching confluence led, within four to eight days, to a reversion of the altered phenotype. This medium has little or no mitogenic activity and retains a full activity in the absence of serum or after depletion of its fibronectin content by affinity chromatography on a gelatin-Sepharose column. Cultures which were previously composed of cells growing in multiple layers reorganized into a single cell monolayer composed of closely apposed and highly flattened cells. The cultures thereby regained the contact-inhibited morphology characteristic of the vascular endothelium. Concomitant with this cellular reorganization, the extracellular matrix disappeared from the apical cell surface, the cells regained their nonthrombogenic properties, and CSP-60 reappeared as one of the major cell surface proteins. These results suggest that vascular endothelial cells secrete a soluble factor(s) which can restore the normal morphology and function lost following removal of FGF from the medium. Such a factor(s) may be involved in maintaining the differentiated state of the vascular endothelium.     

Effect of Conditioned Media from Several Cell Types on Invasion by Eimeria adenoeides Sporozoites1

ABSTRACT. The effect of conditioned media (media aspirated from a variety of cell cultures after 4 d of growth) on cellular invasion by sporozoites of the turkey coccidium, Eimeria adenoeides, was examined. Conditioned medium from turkey kidney cells and baby hamster kidney cells failed to alter invasion. However, conditioned medium from turkey cecal cell cultures produced a significant (P ≤ 0.05), two-fold increase in invasion over control medium in a variety of cell types. Retentates of conditioned medium from the turkey cecal cells that were passed through microconcentrators having molecular mass cutoffs of 50, 100, and 300 kDa similarly enhanced invasion over retentates from control medium. However, retentates from microconcentrators with a cutoff of 1,000 kDa failed to enhance invasion. Pretreatment in conditioned medium, followed by washing of sporozoites prior to inoculation into cultures, did not result in enhanced invasion. Moreover, when the interval between inoculation of sporozoites into cells and fixation of cultures was reduced to less than 3 h, no enhancement of invasion occurred. Conditioned medium from turkey cecal cells that were grown in the presence of ³⁵S-translabel had at least two labeled bands at 150 kDa and > 200 kDa that were absent in conditioned media from turkey kidney and baby hamster kidney cells.     

Biosynthesis of the third component of complement in rat liver epithelial cell lines and its stimulation by effector molecules from cultured human mononuclear cells

Summary Rat liver epithelial cell lines, growing in a serum-supplemented medium, synthesize and secrete into the culture medium the third component of complement (C₃). We studied the regulation of C₃ production in this system. We found that human peripheral blood mononuclear leukocytes in culture released one or more soluble factors which stimulated rat liver epithelial cells to produce increased quantitites of C₃. This stimulting effect was strongly enhanced when the mononuclear cell cultures were treated with phytohemagglutinin, a T-lymphocyte mitogen. The factor(s) failed to enhance C₃ biosynthesis by rat dermal fibroblasts, which are known to produce this protein. This reveals a tissue-specific differential response between the fibroblasts and the liver epithelial cells. The physical and chemical characteristics, such as heat sensitivity, 2.8M ammonium sulphate precipitation, and lower activity after digestion by proteases unambiguously indicate that the effector molecules are proteins. When the crude supernatant of mononuclear leukocytes was fractionated by gel filtration, the stimulating factor(s) eluted as two peaks with apparent molecular weight of 25 to 60 and 15 to 20 kdalton, respectively. As to the cellular origin of the C₃-stimulating factor(s), several observations were made: (a) in separate cultures containing either T-cells or monocyte-enriched populations from the same sample of blood mononuclear cells, no activity was detected in the presence or absence of phytohemagglutinin, (b) conditioned media from each of these cultures could not substitute for the corresponding intact cell populations, and (c) the addition of purified T-cells to the monocyte-enriched population in the presence of phytohemagglutinin restored the production of the stimulating activity by the mixed culture. Finally, experiments were carried out to verify whether monokine interleukin 1 affects the hepatic C₃ biosynthesis. It was demonstrated that interleukin 1 enhanced this biosynthesis, but could not completely substitute for conditioned medium from stimulated mononuclear cells.     

The mast cell-committed progenitor. II. W/Wv mice do not make mast cell-committed progenitors and S1/S1d fibroblasts do not support development of normal mast cell-committed progenitors

We have previously reported that the population of mesenteric lymph node cells from normal BALB/c mice infected 14 days with the rodent nematode Nippostrongylus brasiliensis (Nb-MLN) contains a nongranulated mast cell-committed progenitor (MCCP) which does not require IL-3 for proliferation and differentiation if either a fibroblast monolayer or soluble factors produced by monolayers of 3T3 fibroblasts or embryonic skin are present in the culture. When Nb-MLN were cloned in a methylcellulose culture system using fibroblast conditioned medium as the only source of growth factors, numerous colonies of pure mast cells developed. We wished to determine whether the mast cell deficiency of W/Wv or S1/S1d mice could be explained by the failure of these mice to make either the MCCP or the factor to support proliferation and differentiation of the MCCP. We found that Nb-MLN from W/Wv mice were only able to produce mast cell colonies in response to a source of IL-3 such as conditioned medium from pokeweed mitogen-stimulated spleen cells (CM), and cultures given fibroblast conditioned medium as the only source of growth factors did not produce mast cell colonies. In contrast, Nb-MLN from mast cell deficient S1/S1d mice developed many mast cell colonies in methylcellulose cultures supplemented with either fibroblast conditioned medium or conditioned medium from PWM-stimulated spleen cells. These data suggest that S1/S1d mice but not W/Wv mice produce the mast cell progenitor that responds to fibroblast conditioned medium. To determine if mast cell deficient mice make the fibroblast derived factors that support development of the MCCP, monolayers were prepared from skin connective tissues of S1/S1d and W/Wv mice and Nb-MLN from normal BALB/c mice were cloned in the presence of conditioned medium from these monolayers. Fibroblast conditioned medium from monolayers prepared from W/Wv but not S1/S1d mice supported development of numerous mast cell colonies. Taken together, these data demonstrate that W/Wv mice are incapable of producing normal MCCP whereas S1/S1d fibroblasts fail to produce the appropriate factor to support the MCCP. In accordance with these data, a candidate for the gene product of each of these mutant alleles is discussed.     

Acanthamoeba culbertsoni: Electron‐Dense Granules in a Highly Virulent Clinical Isolate

The virulence of various amoebic parasites has been correlated with the presence of electron‐dense granules (EDGs) in the cytoplasm of trophozoites. Here, we report the finding by transmission electron microscopy of a large number of EDGs in a recent culture of Acanthamoeba culbertsoni, isolated from a severe case of human keratitis. When this isolate was maintained in culture for 6 mo, the granules almost disappeared. However, after induction of mice brain lesions with the long‐term cultured isolate, recovered amoebas had abundant EDGs. Trophozoites of the original isolate, or those recovered from experimental lesions, secreted EDGs into the medium when incubated with MDCK cells. To analyze a possible cytotoxic effect the conditioned medium was incubated with MDCK monolayers. After 5 h, the media containing EDGs produced opening of the tight junctions; at 24 h, cell viability was compromised, and at 48 h most of the cells were detached from the monolayer. In contrast, trophozoites in long‐term cultures did not release EDGs to the medium during incubation with MDCK cells, and the corresponding conditioned medium did not have any effect on MDCK monolayers. Our observations further support the hypothesis that EDGs play a role in the cytopathogenic mechanisms of A. culbertsoni.     

Effect of Conditioned Media from Chicken and Turkey Intestinal Cell Cultures on Invasion by Sporozoites of Three Species of Avian Coccidia

The effect of conditioned media from cultures of turkey and chicken intestinal cells on cellular invasion by sporozoites of avian Eimeria species was examined in vitro. Media conditioned by the growth of cells from the ceca, mid-intestine (area of the yolk stalk diverticulum), and duodenal loop were examined for their ability to enhance invasion. Conditioned medium from cultures of turkey cecal cells significantly enhanced invasion by the turkey coccidia Eimeria adenoeides, by 2.4-fold, and E. meleagrimitis , by 2.2-fold, as compared with invasion in the presence of control medium. Conditioned medium from mid-intestinal cell cultures enhanced invasion by the two coccidial species by 2.0- and 2.1-fold, respectively. The enhancement occurred with conditioned media from early (1) as well as later (11) passages of cells. This suggests that the enhancing factor was produced by fibroblast-like cells, the predominant cell type at both early and late passages, and not by epithelial-like cells that had disappeared by the first or second passage. Additionally, conditioned media from cultures of chicken cecal and duodenal loop cells significantly enhanced invasion by the turkey cecal coccidium, E. adenoeides , (1.7- and 1.6-fold, respectively). This was less enhancement than was caused by the turkey cell conditioned media. Heat treatment (56° C for 45 min) of conditioned media failed to alter the effect on invasion. Neither the turkey or chicken cecal cell media nor conditioned media from any other chicken intestinal cell cultures enhanced invasion by E. tenella , the chicken cecal coccidium. Although morphologically dissimilar when they were first plated, the gross appearance and growth of the turkey and chicken cells when conditioned media was collected was comparable.     

Enhanced synthesis of a Mr = 55,000 dalton peptide by senescent human fibroblasts

The secretory protein profiles of early and late passage cultures of human fibroblasts were compared using polyacrylamide gel electrophoresis. In comparison with early passage cell cultures (40-50% lifespan completed), late passage (greater than 80% of lifespan completed) cell cultures exhibited enhanced production of several peptides in the Mr range 55-60,000. One of those peptides had an apparent molecular weight of Mr = 55,000 and was constitutively present in the late passage cell conditioned medium. Late passage cell cultures synthesized the Mr = 55,000 peptide in the presence or absence of fetal bovine serum. Serum did not enhance its production by early passage cells. Further, production of the peptide was not induced in early passage cell cultures whose proliferation was arrested either by serum starvation or by contact inhibition. Pulse chase studies demonstrated that the peptide appears in the culture medium within 60 min of labeling. There was no evidence that it is derived via degradation of other proteins present either in early passage or late passage cell conditioned media. Further, the production of the 55,000 dalton peptide did not appear to be regulated by factors present in conditioned media. The peptide was detected in the conditioned media produced by late passage cultures of several different cell strains.     

Inhibition of limb chondrogenesis by fibronectin

Abstract. This study compares the chondrogenic capacity of high density cultures prepared from either the develop-mentally younger, distal region or more advanced proximal region of stage 23/24 limb mesenchyme in high density cultures. Distal cultures undergo extensive chondrogenesis whether in F₁₂ medium supplemented with 10% fetal calf serum, 5% fetal calf serum, or fibronectin. On the other hand, proximal cultures fail to undergo chondrogenesis in medium containing 10% fetal calf serum or fibronectin, but do form cartilage in medium containing a decreased serum concentration or no serum. Furthermore, if the cells are cultured at low densities in native type I collagen gels, proximal cells have a reduced chondrogenic capacity in the presence of fibronectin, while chondrogenesis by distal cells is unaffected by the addition of fibronectin. The results demonstrate that proximal and distal cells respond differentially to serum and to fibronectin, and they suggest that the response of the cell to prevalent components of the extracellular matrix might change with development.