p-Nitrophenyl-β-d-xyloside modulates proteoglycan synthesis and secretory differentiation in mouse mammary epithelial cell cultures

Summary Primary cultures of mouse mammary epithelial cells synthesize significant quantities of chondroitin and heparan sulfate proteoglycans (16). Long term treatment of such cultures with p-nitrophenyl-β-D-xylopyranoside leads to a 10–20 fold increase in the synthesis and secretion of free chondroitin sulfate glycosaminoglycan (GAG) chains and assembly of a cell-associated matrix that is relatively enriched in heparan sulfate proteoglycan. This modulation of cell-synthesized proteoglycans leads to significant changes in cell morphology and cellular differentiation. Notably cells cultured on plastic culture dishes change from being flattened to cuboidal. The synthesis of the milk proteins α1, α2, and β-casein is also increases as is the formation of fat droplets and fat droplet membrane components. Promotion of differentiation increases with increasing xyloside concentration in the range 0–1.5 mM, but there may be a block in secretion at higher xyloside concentrations. While the detailed mechanisms remain to be elucidated, we conclude that the composition of proteoglycans incorporated into the matrix (and possibly the glycosaminoglycans secreted into the medium), may play a significant role in maintaining the phenotypic characteristics of terminally differentiated mammary epithelial cells. This research was supported by the Office of Health and Environmental Research, Office of Energy Research, U.S. Dept. of Energy under contract No. DEAC-03-76SF00098 and by National Institutes of Health Grant CA44398-01 (G. Parry) Editor's Statement Exogenous elements of extracellular matrix affect expression of cultured mammary cell function. This work reports manipulation of cell-derived endogenous matrix elements and shows correlative changes in cell functions.     

Effect of transforming growth factor-β on lipoprotein lipase in rat mesenchymal heart cell cultures

The effect of recombinant transforming growth factor-β2 (rTGF-β2) on lipoprotein lipase (LPL) synthesis was studied in mesenchymal rat heart cell cultures. Addition of rTGF-β2 to culture medium containing 20% serum resulted in a time-dependent decrease in LPL activity. With 10 ng/ml a 30% fall occurred after 12 h and only 20% of enzyme activity remained after 24 h with 5 or 10 ng/ml. The minimal effective dose of rTGF-β2 was 0.1 ng/ml and a 20% decrease occurred after exposure for 24 h. Antibodies specific to TGF-β2 blocked this effect. The decrease in enzymic activity was accompanied by a decrease in enzume mass and LPL mRNA. Addition of rTGF-β2 was effective only during the first week in culture, when enzyme activity was increasing but not after 12 days when the cultures were overconfluent, and the enzyme activity was high.     

Effects of transforming growth factor-β on collagen gene expression and collagen synthesis level in mineralizing cultures of osteoblast-like cell line,MC3T3-E1

• 1.1. High levels of type I collagen mRNA and [³H]proline incorporation into collagenase digestable protein by MC3T3-E1 cells were detected during the first 7 days of culture, after which they declined.
• 2.2. Type I collagen gene expression was stimulated by TGF-β in the early culture stage when the collagen gene expression was fully functioning.
• 3.3. However, these stimulatory effects disappeared at the differentiation stages. Although collagen gene expression was stimulated by TGF-β (2.0 ng/ml) in early culture, collagen synthesis in medium was not.
• 4.4. This study shows that collagen synthesis and collagen gene expression were affected by the state of differentiation in MC3T3-E1 cells and that the rate of stimulation by TGF-β in collagen gene expression decreased over time in culture.

     

The mode of action of 4-methylumbelliferyl β-d-xyloside on the synthesis of chondroitin sulphate in embryonic-chicken sternum

1. Embryonic-chicken sterna, incubated in medium containing 0.1mm-4-methylumbelliferyl beta-d-xyloside (4-methylcoumarin 7-beta-d-xyloside), synthesize proteochondroitin sulphate that is significantly undersulphated and shorter than usual [Gibson, Segen & Audhya (1977) Biochem. J.162, 217-233]. 2. Neither the beta-d-galactoside nor the beta-d-glucuronide of 4-methylumbelliferone, nor 4-methylumbelliferone itself, produced the effects. The only metabolites of 4-methylumbelliferone that were detected in cartilages exposed to 4-methylumbelliferyl beta-d-xyloside were unchanged xyloside and chondroitin sulphate covalently attached to 4-methylumbelliferone. 3. Gel filtration of salt extracts of sterna incubated in medium containing the xyloside showed that there were two pools of chondroitin sulphate in the tissue. One pool was identified, on the basis of its elution pattern and the linear kinetics of incorporation of sulphate into it, as proteochondroitin sulphate. Incorporation into the other pool, whose properties suggested that it was methylumbelliferyl-chondroitin sulphate, indicated that it underwent partial turnover. The molecular weight of this chondroitin sulphate was about 19000, and it appeared to be about 70% sulphated. 4. When sterna were incubated in medium containing the xyloside, there was a very large incorporation of sulphate and glucose into glycosaminoglycans that were released into the incubation medium. This contrasts with incubations of sterna in the absence of the xyloside, in which less than 5% of the sulphate incorporated could be recovered from the medium. The glycosaminoglycan released into the medium was 4-methylumbelliferyl-chondroitin sulphate, whose average molecular weight was 7000-8000 and degree of sulphation more than 95%. 5. Incorporation of sulphate into proteochondroitin sulphate was stimulated more than 3-fold by addition of 20% (v/v) human serum and 10nm-l-3,3',5-tri-iodothyronine. Incorporation into methylumbelliferyl-chondroitin sulphate, in either the tissue or the medium, was not significantly altered. 6. The decrease in chain length and degree of sulphation of proteochondroitin sulphate is explained in terms of competition between peptide-linked primers and methylumbelliferone-containing primers at the intracellular sites of polysaccharidechain elongation and sulphation. The implications of the results for the mechanism of stimulation of proteoglycan synthesis by serum factors are discussed.     

Effect of alpha-resorcylic acid–l-phenylalanine amide on collagen synthesis and matrix metalloproteinase expression in fibroblasts

Regulation of collagen synthesis and matrix metalloproteinases (MMPs) expression levels has been an important issue in medicinal, pharmaceutical and cosmetic industries. Herein, α-Resorcylic acid–phenylalanine amide (α-RA-F) was prepared and its biological activities were observed. We found that α-RA-F boosted collagen synthesis and reduced MMPs expression levels in human fibroblasts without cytotoxicity.     

Effect of theβ-d-galactoside-binding lectin on cell to substratum and cell to cell adhesion of cells from the extraembryonic endoderm of the early chick blastoderm

Summary Cells from the extraembryonic endoderm of the gastrulating chick embryo contain a -d-galactoside-binding lectin inhibited by thiodigalactoside (TDG). When cell suspensions are cultured in stationary culture in the presence of exogenously added purified blastoderm lectin or TDG, their attachment to the substratum is delayed and decreased compared to controls. The cells take on a fibroblastic-like morphology and cell to cell contact becomes limited to localized areas of the cell surface. Many lectin or TDG-treated cells appear to be migrating over the substratum. This is in contrast to control cultures where the cells appear epithelial in morphology and tend to maximize their areas of apposition. These data suggest that the endogenous lectin may have a role to play in cell to substratum and cell to cell adhesion.     

Paradoxical effects of 17β-estradiol on glucose transport in primary cell cultures of a rat mammary tumor

Primary cell cultures of rat mammary carcinoma R3230AC exhibited a rapid, reversible and dose-related inhibition of carrier-mediated 3-0-methyl-D-glucose transport when estrone, 17β-estradiol, estriol, diethylstilbestrol or phloretin was present during the transport assay. With 17β-estradiol, maximal transport inhibition (66%) was observed at 40μM, a concentration also effective in preventing cell growth when present in the media. Cultures preincubated in growth media containing 5mM glucose plus 40μM 17β-estradiol for one day displayed enhanced rates of carrier mediated 3-0-methyl-D-glucose transport. This increase was prevented by 50mM glucose and can be explained as an adaptive response to a condition simulating glucose starvation.     

Effect of ionophores on the processing of theβ-amyloid precursor protein in different cell lines

Summary 1. Alzheimer's disease is characterized by the deposition in the brain of extracellular amyloid plaques and vascular deposits consisting mostly of amyloid-peptide (A). A, a polypeptide of 39–43 amino acids (M _r, 4 kDa), is derived proteolytically from a family of proteins of 695–770 amino acids (M _r, 110–140 kDa) called-amyloid precursor protein (APP).2.APP, an integral membrane glycoprotein, is extensively posttranslationally modified within the endoplasmic reticulum (ER) and various Golgi compartments.APP is cleaved by proteases in either the trans-Golgi network or the post-Golgi apparatus and then secreted as a truncated soluble form into the conditioned media of cultured cells and cerebrospinal fluid samples from human subjects.APP can be processed either by an antiamyloidogenic secretory pathway or by an endosomal/lysosomal pathway.3. I studied the effect of two ionophores on the processing ofAPP in cultured cells. Monensin and, in some cases, ammonium chloride increase the intracellular accumulation ofAPP in several cell lines and may alter its processing. Monensin, which had the most consistent effects, also inhibited secretion ofAPP in a differentiated (growth factor mediated) cell line. Nigericin, with greater K⁺ selectivity, was less able to alter the accumulation and possible processing of the protein.4. These results suggest that the increase in the accumulation of intracellularAPP observed after treating cells with ionophores has some specificity. The selective effect of these ionophores on the metabolism ofAPP may provide a model system to analyze the pathways for studying maturation, secretion, and degradation ofAPP.     

Effect of β-lactam antibiotics on plant regeneration in carrot protoplast cultures

Protoplasts of three carrot cultivars were isolated from in vitro-grown plantlets by overnight incubation in an enzyme mixture composed of 1% (w/v) cellulase Onozuka R-10 and 0.1% (w/v) pectolyase Y-23. After cell immobilization in modified thin alginate layers, three types of β-lactam antibiotics (cefotaxime, carbenicillin, or timentin) at five different concentrations (100, 200, 300, 400, or 500 mg L^?1) were added to the culture medium. In 20-d-old cultures, a different number of cell colonies had formed and varied on average from 27 to 56% in carbenicillin- and cefotaxime-containing media, respectively. Supplementation of the culture media with antibiotics at concentrations higher than 100 mg L^?1 resulted in a decrease in plating efficiency in comparison with the controls. However, from all antibiotic treatments, except carbenicillin at concentrations of 400–500 mg L^?1, efficient plant regeneration occurred. For this reason, we believe that cefotaxime and timentin in the concentrations analyzed here may be used in complex in vitro procedures or valuable carrot cultures as a prophylactic agent for prevention against occasional contaminations.     

Effect of PLCβ4 in the thalamus on the EEG in REM sleep

Sleep and Biological Rhythms -     

Studies of α-protein in human cell cultures

Summary α-Protein growth fraction (AGF) eliminates the 60- to 90-day adaptive phase required to establish actively growing cultures of HeLa (Gey), human heart (Girardi), KB (Eagle) and other established cell lines in serum-free chemically defined medium A₃. AGF is effective at less than 0.4 μg per ml. By using the procedures described in the text, it is possiblee to culture HeLa cells is very simple media such as Eagle's basal medium. The properties of AGF are such that it may be adsorbed on glass or plastic flasks. Glass flasks treated with AGF retain full activity after washing with acetone, and treatment with ethyl ether and chemically defined medium. Adsorbed AGF is destroyed by trypsin. AGF can detoxify protamines, polylysines or histones. It will reverse the aggregation response induced by adding complexes composed of carboxymethylcellulose (CMC) and basic proteins. The results support the contention that highly adsorptive AGF functions at the cell surface and is capable of modifying the response of the cell to its environment.     

Effect of tobacco extract on surfactant synthesis and its reversal by retinoic acid—role of cell–cell interactions in vitro

Tobacco induces oxidative stress in the alveolar epithelium and causes its damage. Retinoic acid (RA) has a cardinal role in alveolar cell growth, differentiation, and maturation. The aim of the study was to investigate the role of cell–cell interactions and whether RA could reverse the effect of tobacco extract on epithelial function as expressed by surfactant synthesis. For this, an in vitro model, which provides multiple cell type interactions, as seen in vivo, was used. We had used the major lung cell types, alveolar epithelial and mesenchymal cells represented by the cell lines A549 (human lung adenocarcinoma cell line), and human fetal lung fibroblast-1 (HFL-1) for developing the monoculture and co-culture systems and studied the effect of tobacco extract and retinoic acid. The effect of tobacco and retinoic acid both singly and in combination on proliferation and surfactant synthesis was analyzed. Retinoic acid induced proliferation and upregulated surfactant synthesis in monocultures and co-cultures. Tobacco extract at 100 μg/ml concentration decreased A549 proliferation and upregulated surfactant protein mRNA expression. In co-cultures treated with tobacco extract (100 μg/ml), retinoic acid (1 μM), regulated cell proliferation, and surfactant protein mRNA expression vis-à-vis the monoculture system. This clearly points to the fact that cell–cell interactions modulate the effect of additives or stimulants and help in assessing the in vivo combinatorial responses in vitro and that the retinoic acid effect is regenerative.     

High accumulation of dehydrodiconiferyl alcohol-4-β-d-glucoside in free and immobilized Linum usitatissimum cell cultures

As flaxseed mainly accumulates lignans (secoisolariciresinol diglucoside and matairesinol), these compounds were barely or not detected in plant cell suspensions initiated from Linum usitatissimum. In contrast, these cell suspensions were shown to accumulate substantial amounts of a neolignan identified as dehydrodiconiferyl alcohol-4-β-d-glucoside (DCG) (up to 47.7 mg g⁻¹ DW). The formation of this pharmacologically active compound was evaluated as a function of cell growth and in relation to phytohormone balance of the culture media. After establishment of efficient culture conditions, production of DCG was investigated in immobilized plant cell suspensions initiated from plantlet roots of L. usitatissimum. The results indicate that immobilization enhances the DCG production up to 60.0 mg g⁻¹ DW but depresses the cell growth resulting in no improvement of the total DCG yield. Nevertheless, with immobilized cell suspensions, a release of DCG into the medium is observed allowing an easier recovery.     

The effect of β-bungarotoxin, or geniculate ganglion lesion on taste bud development in the chick embryo

Chick taste bud (gemmal) primordia normally appear on embryonic day (E) 16 and incipient immature, spherical-shaped buds at E17. In ovo injection of β-bungarotoxin at E12 resulted in a complete absence of taste buds in lower beak and palatal epithelium at developmental ages E17 and E21. However, putative gemmal primordia (solitary clear cells; small, cell groupings) remained, lying adjacent to salivary gland duct openings as seen in normal chick gemmal development. Oral epithelium was immunonegative to neural cell adhesion molecule (NCAM) suggesting gemmal primordia are nerve-independent. Some NCAM immunoreactivity was evident in autonomic ganglion-like cells and nerve fibers in connective tissue. After unilateral geniculate ganglion/otocyst excision on E2.5, at developmental ages E18 and posthatching day 1, ∼12% of surviving ipsilateral geniculate ganglion cells sustained ∼54% of the unoperated gemmal counts. After E18, proportional stages of differentiation in surviving developing buds probably reflect their degree of innervation, as well as rate of differentiation. Irrespective of the degree of geniculate ganglion damage, the proportion of surviving buds can be sustained at the same differentiated bud stage as on the unoperated side, or may differentiate to a later bud stage, consistent with the thesis that bud maturation, maintenance, and survival are nerve-dependent.     

Effect of TNFα on osteoblastogenesis from mesenchymal stem cells

Background

Bone destruction and osteoporosis are accelerated in chronic inflammatory diseases, such as rheumatoid arthritis (RA) and periodontitis, in which many studies have shown the proinflammatory cytokines, especially TNFα, play an important role; TNFα causes osteoclast-induced bone destruction as well as the inhibition of osteoblastogenesis.

Scope of review

Here we review our current understanding of the mechanism of the effect of TNFα on osteoblastogenesis from mesenchymal stem cells (MSCs). We also highlight the function of MSC in the pathogenesis of autoimmune diseases.

Major conclusions

Many studies have revealed that TNFα inhibits osteoblastogenesis through several mechanisms. On the other hand, it has been also reported that TNFα promotes osteoblastogenesis. These discrepancies may depend on the cellular types, the model animals, and the timing and duration of TNFα administration.

General significance

A full understanding of the role and function of TNFα on osteoblastogenesis from MSC may lead to targeted new therapies for chronic inflammation diseases, such as RA and periodontitis.