Proteoglycan synthesis by rat lung cells cultured in vitro

Cells having a fibroblast-like morphology were cultured from explants of adult rat lung tissue. (35S)Sulfate was incorporated into sulfated proteoglycans in the medium at a linear rate for up to 96 h, while the rate of incorporation into the cell layer increased gradually until reaching a plateau at 40 h. The culture medium contained proteoglycans which migrated as a single peak with Kav = 0.10 on Bio-Gel A-15. Their glycosaminoglycan components (Kav = 0.70 on Bio-Gel A-15) contained predominantly chondroitin sulfate (33 to 44% of the total galactosaminoglycans) or dermatan sulfate chains. Based on the results of chondroitinase AC-II and periodate degradation, disaccharide repeating units of the dermatan sulfate were composed of 36% iduronic acid, 50% 2-sulfoiduronate, and 14% glucuronic acid. A similar composition was found for the dermatan sulfate in the cell fraction. Almost one-half of the sulfate label in the cell fraction was in a heparan sulfate proteoglycan which migrated on Bio-Gel A-15 with Kav = 0.30. The heparan sulfate chains (Kav = 0.81 on Bio-Gel A-15) had few, if any, sulfated N-acetylglucosamine residues and did not contain 2-sulfoiduronic acid in neighboring disaccharide repeat sequences. These results indicate that fibroblast-like lung cells synthesize several types of multichain sulfated proteoglycans which have properties in common with those found in lung tissues.     

Production of endothelin-1 by rat cultured mesangial cells

We investigated whether ET-1 is synthesized by and released from mesangial cells. ET-1-like immunoreactivity (LI) released into medium increased time-dependently under a serum-free condition. The amounts of ET-1-LI released into the medium was augmented in the presence of fetal calf serum. Reverse-phase HPLC profile of the conditioned media revealed a major component coeluting with standard ET-1. Northern blot analysis of poly(A) +RNA extracted from mesangial cells showed a single major band corresponding to the size of preproET-1 mRNA (2.3 kb). These findings demonstrate that ET-1 is synthesized by and released from rat mesangial cells and suggest a possibility that it acts on their own cells as an autocrine factor.     

Ecto-5'-nucleotidase of cultured rat mesangial cells

Because adenosine plays a role in the regulation of glomerular filtration rate and of the release of renin, we examined the possibility of a local source for this mediator. We found that rat cultured glomerular mesangial cells converted 5'-AMP into adenosine. The properties of the enzyme involved in the reaction were those of an ecto-5' nucleotidase: (1) the products of the reaction were generated in the extracellular fluid although no 5'-nucleotidase was released by the cells into the medium; (2) identical activities were found for cultured cells in situ and sonicated cells; (3) the diazonium salt of sulfanilic acid which is a nonpenetrating reagent inhibited up to 75% of the enzyme activity. Ecto-5'-nucleotidase activity of intact cells obeyed Michaelis-Menten kinetics. Apparent Km for 5'-AMP was 0.32 mM. 5'-UMP was a strictly competitive inhibitor. ADP exerted a very powerful inhibitory effect and behaved also as a competitive inhibitor. ATP was inhibitory both by increasing Km and by decreasing Vmax. Ecto-5'-nucleotidase was active in the absence of divalent cations. However, Mg2+, Ca2+, Co2+ and Mn2+ were stimulatory. Zn2+ and Cu2+ suppressed the activity. Concanavalin A, a plant lectin, was markedly inhibitory, suggesting that a glycoprotein moiety was necessary to express enzyme activity. Ecto-5'-nucleotidase activity was not modified during phagocytosis of serum-treated zymosan by mesangial cells. Rat cultured glomerular epithelial cells exhibited a 5'-nucleotidase activity which was 4 times lower than that of the mesangial cells in primary culture.(ABSTRACT TRUNCATED AT 250 WORDS)     

The effects of endotoxin on platelet-activating factor synthesis in cultured rat glomerular mesangial cells

Platelet-activating factor (PAF), a potent vasoactive phospholipid, may contribute to acute renal failure and septic shock accompanying endotoxemia. Rat glomerular mesangial cells in culture synthesize PAF and contract after the addition of PAF. We thus investigated the potential of mesangial cells to respond to Escherichia coli lipopolysaccharide endotoxin with enhanced PAF synthesis in vitro. The mesangial cells were incubated with [3H]acetate, substrate for lyso-PAF: acetyl-CoA acetyltransferase, and endotoxin at different concentrations for various periods of time at 37 degrees C. Lipids were extracted and PAF was isolated by thin-layer chromatography. Endotoxin stimulated PAF generation in a time- and dose-related manner. Whereas most of the PAF was associated with the cells, endotoxin more than doubled the amount of PAF released into the extracellular medium as compared to control. Furthermore, the PAF-like material obtained from endotoxin-stimulated mesangial cells irreversibly aggregated washed rabbit platelets. This effect was lost after alkaline methanolysis and was totally blocked by L-652,731, a specific PAF-receptor antagonist. Finally, the PAF-like material exerted a hypotensive effect, which was abolished by L-652,731, when infused intravenously into healthy rats. These data indicate that rat glomerular mesangial cells have the ability to synthesize PAF in response to endotoxin. This suggests that PAF, so generated within the glomerulus, may contribute to acute decrements of glomerular filtration rate in endotoxemia.     

Effects of somatomedin and other factors on glycosaminoglycan synthesis in cultured rat chondrocytes

We have investigated the effects of hormones and serum on glycosaminoglycan (GAG) synthesis, using cultured rat chondrocytes isolated from growing cartilage. Somatomedin A stimulated GAG synthesis at a physiological concentration, however in the case of insulin the dose required to stimulate GAG synthesis was 500 times as great as the physiological concentration. Parathyroid hormone also increased GAG synthesis. In contrast, hydrocortisone inhibited GAG synthesis at a pharmacological dosage. None of the following had any effect on GAG synthesis: epidermal growth factor, fibroblast growth factor, triiodothyronine, growth hormone, sex steroid or vitamin D3. Human serum up to a concentration of 1% stimulated GAG synthesis. Serum from patients with acromegaly stimulated GAG synthesis more than that from those with hypopituitarism.     

Elevation of cytosolic free calcium by platelet-activating factor in cultured rat mesangial cells

Rat glomerular mesangial cell monolayers loaded with the fluorescent probe fura-2 responded to exogenous platelet-activating factor (PAF) with a rapid increase in cytosolic free calcium concentration ([Ca2+]i). PAF-induced [CA2+]i transients consisted of a dose-dependent phasic peak response followed by a sustained tonic phase of increased [Ca2+]i. Chelation of extracellular calcium with EGTA suppressed the tonic phase of increased [Ca2+]i but did not affect the phasic peak response. This suggests two mechanisms for the elevation of [Ca2+]i: a transient mobilization from intracellular stores and an enhanced calcium influx across the plasma membrane, possibly mediated by receptor-operated channels. Lyso-PAF had no effect on basal [Ca2+]i and the PAF-receptor antagonist L652,731 selectively inhibited responses to PAF. PAF-stimulated mesangial cells displayed homologous desensitization to reexposure to PAF while still being responsive to other calcium-mobilizing agonists. Preincubation of cells with the protein kinase C (PKC) activator phorbol myristate acetate diminished the PAF-induced [Ca2+]i transient, suggesting a regulatory role for PKC in PAF-activation of mesangial cells. An increase in [Ca2+]i, as a result of receptor-linked activation of phospholipase C, may mediate PAF-induced hemodynamic and inflammatory events in renal glomeruli.     

Calcium-activated, phospholipid-dependent protein kinase in cultured rat mesangial cells

The analysis of the 100 000 X g supernatant fraction of cultured rat glomerular mesangial cells with DEAE-cellulose ion-exchange chromatography revealed a large peak showing the activity of a protein kinase (protein kinase C) which depended on phospholipid and diolein as well as Ca2+. Furthermore, it was shown that angiotensin II (AII) (10(-6)M) induced rapid hydrolysis of phosphatidylinositol 4,5-bisphosphate, leading to production of diacylglycerol rich in arachidonic acid, in the cultured rat mesangial cells. These results suggest that activation of protein kinase C resulting from enhancement of phosphoinositide metabolism may be important as an intracellular regulatory mechanism of AII upon cultured mesangial cells.     

Effect of polycations on prostaglandin synthesis in cultured glomerular mesangial cells

The presence of uniform negative charges on the surface of cultured rat glomerular mesangial cells was demonstrated by an ultrastructural marker, cationized ferritin. Interaction between cell surface negative charges and protamine sulfate, stimulated the synthesis of prostaglandins E₂, F_{2 α}, 6-keto-PGF_1α and thromboxane B₂ (TXB₂) in a dose-dependent manner, reaching a maximum response at protamine concentration of 50 μg/ml. The effect of protamine sulfate was reversed by 25 units/ml heparin. The polyanions, l-glutamic and l-aspartic acids, reversed the protamine effect in a dose-dependent manner. Excess substrate, arachidonic acid, masked the protamine sulfate-stimulated PGE₂ synthesis by mesangial cells. The effect of protamine sulfate on PGE₂ synthesis was rapid, peaked in 5 min and was independent of extracellular Ca²⁺. A synthetic cation, poly(l-lysine) hydrobromide, exerted a similar effect on cellular PGE₂ synthesis in mesangial cells. The effect of poly(l-lysine) was dependent on the molecular mass of the cationic species employed and was maximum at 17 to 90 kDa. The use of large molecular mass polymers of l-lysine (175 and 565 kDa) resulted in a decline in PGE₂ synthesis. These observation indicate that, in mesangial cells, changes in cell membrane electrical charge are linked to enhanced biosynthetic activity and eicosanoid synthesis.     

Proteoglycan synthesis by normal and neoplastic human transitional epithelial cells

Metabolically 35S-labeled proteoglycans were isolated from cell-associated matrices and media of confluent cultures of human normal transitional epithelial cells and HCV-29T transitional carcinoma cells. On Sepharose CL-4B columns, the cell-associated proteoglycans synthesized from both cell types separated into three identical size classes, termed CI, CII, and CIII. Normal epithelial cell C-fractions eluted in a 22:34:45 proportion and contained 64%, 64%, and 72% heparan sulfate, whereas corresponding HCV-29T fractions eluted in a 29:11:60 proportion, and contained 91%, 77%, and 70% heparan sulfate, respectively. Medium proteoglycans from normal cells separated into two size classes in a proportion of 6:94 and were composed of 35% and 50% heparan sulfate. HCV-29T medium contained only one size class of proteoglycans consisting of 23% heparan sulfate. The remaining percentages were accounted for by chondroitin/dermatan sulfate. On isopycnic CsCl gradients, proteoglycan fractions from normal cells had buoyant densities that were higher than the corresponding fractions from HCV-29T cells. DEAE-Sephacel chromatography showed that cell and medium associated heparan sulfate from HCV-29T cells was consistently of lower charge density (undersulfated) than that from normal epithelial cells. In contrast, the chondroitin/dermatan sulfate of HCV-29T was of a charge density similar to that of normal cells. These as well as other structural and compositional differences in the proteoglycan may account, at least in part, for the altered behavioral traits of highly invasive carcinoma cells.     

Depression by hyaluronic acid of glycosaminoglycan synthesis by cultured chick embryo chondrocytes

Proteins synthesized during the preimplantation period of mouse embryogenesis were labeled with radioactive tyrosine and lysine and fractionated by electrophoresis on polyacrylamide disc gels containing sodium dodecyl sulfate. For interstage comparisons and comparisons of the incorporation of different amino acids at the same developmental stages, the embryos were incubated with either ³H- or ¹⁴C-labeled amino acids. The embryos were then combined, and the proteins were isolated and electrophoresed simultaneously. The data were analyzed with a dual isotope computer program and expressed in the form of ${}^{14}\text{C}{}^3\text{H}$ ratios.Approximately 20–25 labeled protein components of apparent molecular weights between 25,000 and 115,000 can be defined, and 5 are most significant quantitatively. Of the latter, there are developmental increases in the rates of synthesis of 3 (with apparent molecular weights of 35,000 to 37,000, 37,000 to 41,000, and 66,000 to 70,000), a decrease in the rate of synthesis of another (53,000 to 57,000), and little change in the last (46,000 to 49,000). Developmental changes in the rates of synthesis of several other components are also demonstrated by the ${}^{14}\text{C}{}^3\text{H}$ incorporation ratios. The relative amounts of the different proteins synthesized by day 3 (early blastocyst) embryos over an 8-hr period remain constant, as does the relative labeling by lysine and tyrosine at each developmental stage examined. Similarly, there is no change in the pattern of the radioactive proteins when day 2 (8–16 cell) embryos are labeled for 2 hr and then incubated for an additional 24 hr. The greatest change in the overall pattern of protein synthesis occurs quite early, between day 1 (2 cell) and day 2, and lesser changes occur at later stages. These findings are in contrast to the major change in the rate of protein synthesis which occurs after day 2.     

Stimulation of cytosolic free calcium and inositol phosphates by prostaglandins in cultured rat mesangial cells

We studied the effects of four products of arachidonate cyclo-oxygenation on a phospholipase C-dependent signal transduction system in cultured rat glomerular mesangial cells. PGF2 alpha, PGE2 and the thromboxane A2/endoperoxide analogue U-46619 rapidly increased cytosolic free Ca2+, measured in monolayers loaded with the fluorescent intracellular probe fura-2. Peak responses were dose-dependent and unaffected by chelation of extracellular Ca2+, indicating release from internal stores. The thromboxane A2-receptor antagonist SQ 27,427 selectively inhibited responses to U-46619. The PGI2 analogue Iloprost had no effect on cytosolic Ca2+. PGF2 alpha, PGE2 and U-46619 also stimulated accumulation of total inositol phosphates during 15 min incubations. We conclude that phospholipase C activation mediates the effects of certain eicosanoids on the glomerular mesangium.     

Troglitazone induces a cellular acidosis by inhibiting acid extrusion in cultured rat mesangial cells

We studied the effect of troglitazone on cellular acid-base balance and alanine formation in isolated rat mesangial cells. Mesangial cells were grown to confluency in RPMI 1640 media on 30-mm chambers used to monitor both cellular pH using the pH-sensitive dye 2'7'-bis(2-carboxyethyl)-5,6-carboxyfluorescein and metabolic acid production as well as glutamine metabolism. Troglitazone (10 microM) induced a spontaneous cellular acidosis (6.95 +/- 0.02 vs. 7.47 +/- 0.04, respectively; P < 0.0001) but without an increase in lactic acid production. Alanine production was reduced 64% (P < 0.01) consistent with inhibition of the glutamate transamination. These findings pointed to a decrease in acid extrusion rather than an increase in acid production as the underlying mechanism leading to the cellular acidosis. To test their acid extrusion capabilities, mesangial cells were acid loaded with NH and then allowed to recover in Krebs-Henseleit media or in Krebs-Henseleit media minus bicarbonate (HEPES substituted), and the recovery response (Delta pH(i)/min) was monitored. In the presence of 10 microM troglitazone, the recovery response to the NH acid load was virtually eliminated in the bicarbonate-buffered media (0.00 +/- 0.001 vs. 0.06 +/- 0.02 pH(i)/min, P < 0.0001 vs. control) and reduced 75% in HEPES-buffered media (0.01 +/- 0.01 vs. 0.04 +/- 0.02 pH(i)/min, P < 0.002 vs. control). These results show that troglitazone induces a spontaneous cellular acidosis resulting from a reduction in cellular acid extrusion.     

Morin hydrate protects cultured rat glomerular mesangial cells against oxyradical damage

Cultured rat glomerular mesangial cells were damaged when exposed to oxyradicals generated either from xanthine oxidase plus hypoxanthine, or by superoxide radicals formed from menadione. Morin hydrate is an antioxidant extracted from yellow Brazil wood. When morin hydrate was added to cultured rat glomerular mesangial cells which were attacked by oxyradicals generated by xanthine oxidase plus hypoxanthine, the survival time of the cells was doubled. However, this protective effect of morin hydrate was less marked when the cells were attacked by menadione. Note that the protective effects of Trolox which is a polar analogue of vitamin E were miniscule relative to those of morin hydrate with both oxidants.     

Signal transduction mechanism of interleukin 6 in cultured rat mesangial cells

Interleukin 6 (IL-6) is one of the potent autocrine growth factors for mesangial cells. We investigated the signal transduction mechanism of IL-6 in cultured rat mesangial cells. IL-6 induced a transient increase of inositol 1,4,5-trisphosphate (Ins 1,4,5-P3) followed by a transient and sustained increase of intracellular calcium concentration, suggesting that IL-6 stimulates phosphoinositide turnover. IL-6 also stimulated prostaglandin E2 (PGE2) production. The IL-6-concentration dependency in PGE2 production was similar to that in Ins 1,4,5-P3 production. We concluded that the action of IL-6 on mesangial cells is exerted at least partially through the enhancement of phosphoinositide turnover and PGE2 production.     

Heterogeneity of protein kinase C in cultured rat mesangial cells.

Two forms of protein kinase C (PKC) activity in cytosol of cultured rat mesangial cells have been characterized in vitro by using histone H1 or endogenous proteins as substrates. Histones H1-phosphorylation was significantly increased only when calcium, phosphatidylserine (PS) and 1,2-diacylglycerol (DAG) or phorbol myristate acetate (PMA) were present together in the incubation medium. EGTA, a calcium chelator, completely inhibited this activity. Upon hydroxyapatite chromatography (HPLC), the PKC activity was eluted as a main peak at 150 mM potassium phosphate with a shoulder at 180 mM. Both peaks corresponded to the type III PKC from rat brain and were identified as PKC alpha isoform by immunoblot analysis. In contrast with what was observed using histone H1, the increased phosphorylation of endogenous proteins in the presence of a mixture of Ca2+/PS, plus either DAG or PMA, was only partly reduced by EGTA. Moreover, the level of the PKC activity detected in the presence of EGTA was comparable to the level of kinase activity, measured in the presence of PS alone or associated with DAG or PMA. This suggests that mesangial cells contain PKC activity which does not absolutely require calcium. Polyacrylamide gel electrophoresis revealed that patterns of phosphorylated mesangial cell proteins are different depending on whether calcium was added or not. In the presence of calcium, PKC strongly phosphorylated the proteins of 53,000 molecular weight, a doublet of 37,000-39,000, the 24,000 and the triplet of 17,000-20,000-22,000 molecular weight. The addition of EGTA to the assays suppressed completely the labelling of most proteins; only the 20,000 molecular weight protein remained strongly labelled, while the 39,000 molecular weight band was only faintly visible. The same patterns of phosphorylations were obtained after omission of calcium in the assays containing only PS and DAG (or PMA). So, the main substrates of calcium-dependent PKC are proteins of 53,000, 39,000, 37,000, 22,000, 24,000 and 17,000 molecular weight while the protein of 20,000 molecular weight appears to be the main substrate of calcium-independent PKC. The existence in mesangial cells of at least two forms of PKC, which phosphorylate specific endogenous proteins, emphasizes the complexity of the phospholipid-dependent regulatory cascade and raises the possibility that actions of different regulators may be transduced through distinct PKC isozymes.