Fibronectin expression in human mesangial cell cultures and its alterations by adriamycin

Human mesangial cell (HMC) cultures synthesize cellular fibronectin (FN), which is secreted and incorporated into a fibrillar extracellular matrix (ECM). The anticancer drug adriamycin (ADR) induces changes in extracellular FN deposition. As revealed by immunofluorescence staining, a 24 h incubation of the cells with 2 g ADR/ml resulted in a marked expansion of the pericellular FN fibers, which may be due to either an increased synthesis or a decreased FN degradation. The effects of ADR on FN mRNA were analysed by northern hybridization andin vitro translation. Steady-state FN mRNA levels were significantly increased by 60% following ADR administration. However, yields of radioactivity incorporated into FN by cell-free translation remained constant (2.3±0.7%,n=24, vs controls 2.2±0.8% of total radioactivity,n=23). The quality of translation products was not affected by the drug, whereas translation efficiency of total RNA from ADR-treated HMC was only 75% of controls. The data presented suggest a negative feedback control of FN expression on the level of translation. Extracellular FN accumulation in the experimental model of ADR-induced progressive glomerulopathy therefore cannot be explained by an increased FN synthesis, but is rather regarded a consequence of proteinase inhibition. This assumption is compatible with a diminished number of FN fragments recently demonstrated in the culture medium of ADR-treated HMC, and is further corroborated by the loss of urinary FN degradation products accompanying the onset of proteinuria in ADR-treated rats.Abbreviations ADR adriamycin - BSA boyine serum albumin - ECM extracellular matrix - EDTA ethylenediamine tetraacetic acid - FITC fluorescein isothiocyanate - FN fibronectin - HMC human mesangial cell - PBS phosphate buffered saline - PMSF phenylmethylsulfonyl fluoride - SDS sodium dodecyl sulfate - SDS-PAGE SDS-polyacrylamide gel electrophoresis - SSC standard saline citrate - SSPE standard saline phosphate ethylenediamine tetraacetic acid disodium salt - TGF- transforming growth factor      

Potential use of isolated glomeruli and cultured mesangial cells as in vitro models to assess nephrotoxicity

The purpose of this short review is to present the potential of using isolated glomeruli and cultured mesangial cells as two differentin vitro models to assess the glomerular effect of molecules with nephrotoxic properties. The advantage of using isolated renal glomeruli is that they conserve the architecture of this anatomical region of the kidney; moreover, they are free of any vascular, nervous or humoral influences derived from other regions of the kidney. Mesangial cells are perivascular pericytes located within the central portion of the glomerular tuft between capillary loops. Mesangial cells have a variety of functions including synthesis and assembly of the mesangial matrix, endocytosis and processing of plasma macromolecules, and control of glomerular hemodynamics, mainly the ultrafiltration coefficient K _f, via mesangial cell contraction or release of vasoactive hormones. Most authors agree that mesangial cells play a major role in glomerular contraction, filtration surface area, and K _f regulation. One of the major effects of toxicants on glomerular structures is contraction. We can assess quantitatively the degree of toxicant-induced mesangial cell contraction or glomerular contraction by measuring the changes in planar cell surface area or apparent glomerular cross-sectional area after exposition to the toxicant. Thesein vitro models can also reveal glomerular effects of xenobiotics that are difficult or impossible to observe in vivo. In addition, these studies permit a fundamental examination of the mechanism of action of xenobiotics on glomerular cells, including the possibility that at least a part of their effects are mediated by local mediators released by glomerular cells. We review the effects and the mechanisms of action of several toxicants such as gentamicin, cyclosporin, cisplatin, and cadmium on isolated glomeruli or cultured mesangial cells. As suchin vitro results confirmin vivo renal hemodynamic changes caused by toxicants, we conclude that these models are fruitful tools for the study of renal toxicity. Thesein vitro systems might also serve as a predictive tool in the evaluation of drugs inducing changes in glomerular filtration rate and as a way to propose protective agents against these dramatic hemodynamic effects. This revised version was published online in July 2006 with corrections to the Cover Date.     

Fibronectin fragment promotes osteoblast-associated gene expression and biological activity of human osteoblast-like cell

A fibronectin fragment, which spans from the ninth to tenth type III domain, showed > 95% biological activity in promoting osteoblast adhesion, proliferation and differentiation level compared with those of native fibronectin (FN) molecule. This suggests that the FN type III ninth-tenth domain fragment serves a good substitute for native FN in biomimetic application for osteogenesis.     

Fibronectin promotes cell cycle entry in smooth muscle cells in primary culture

Smooth muscle cell proliferation after arterial injury is regulated by growth factors and components of the extracellular matrix. We have previously demonstrated that fibronectin promotes a phenotypic modulation of freshly isolated rat smooth muscle cells from a contractile to a synthetic phenotype in primary culture and supports the ability of the cells to respond to growth factors. Here, we analyzed if fibronectin promotes cell cycle entry in freshly isolated rat aortic smooth muscle cells during primary culture. Cell cycle analysis showed that cells seeded on fibronectin remained in the G(0)/G(1) phase of the cell cycle during the first 6 days of culture. During this period, there was an increased expression of cyclin D1 and p27(KIP1) in the absence of exogenous growth factors. Addition of serum was followed by enhanced cyclin D1 expression, decreased p27(KIP1) levels, hyperphosphorylation of Rb protein, induction of cyclin A and cyclin D3 expression, and cell cycle progression into S phase. The results indicate that fibronectin initiates cell cycle entry in freshly isolated smooth muscle cells by promoting the induction of cyclin D1 and thereby facilitates further cell cycle progression together with growth factors.     

Extracellular matrix substrata alter adipocyte yield and lipogenesis in primary cultures of stromal-vascular cells from human adipose

The stromal-vascular fraction of human adipose was subjected to in vitro adipogenesis on different extracellular matrix substrata. Adipose tissue was harvested from the breast of 25 to 45 year-old female patients undergoing elective surgery. After 24 d, less than 5% of stromal-vascular cells had converted to adipocytes on fibronectin, 13% to 28% on tissue culture plastic and collagen I; and 59% +/- 7% on Matrigel. Lipid volume surpassed 4.5 x 10(3) microm3 cell(-1) for Matrigel and was 30% lower for the other substrata. Cell proliferation was evident for Matrigel and fibronectin, and cell spreading was most pronounced for fibronectin with a projected area exceeding 3 x 10(3) microm2 cell(-1). These results are relevant to the design of an adipose implant, providing insight into its feasibility and scaffold composition.     

Fibronectin production by cultured human lung fibroblasts in three-dimensional collagen gel culture

Summary In vivo, fibroblasts are distributed in a three-dimensional (3-D) connective tissue matrix. Fibronectin is a major product of fibroblasts in routine cell culture and is thought to regulate many aspects of fibroblast biology. In this context, we sought to determine if the interaction of fibroblasts with a 3-D matrix might affect fibronectin production. To examine this hypothesis, fibronectin production by fibroblasts cultured in a 3-D collagen gel or on plastic dishes was measured by ELISA. Fibroblasts in 3-D gel culture produced more fibronectin than those in monolayer culture. Fibroblasts in 3-D culture produced increasing amounts of fibronectin when the collagen concentration of the gel was increased. The 3-D nature of the matrix appeared to be crucial because plating the fibroblasts on the surface of a plastic dish underneath a collagen gel was not different from plating them on a plastic dish in the absence of collagen. In addition to increased fibronectin production, the distribution of the fibronectin produced in 3-D culture was different from that of monolayer culture. In monolayer culture, more than half of the fibronectin was released into the culture medium. In 3-D culture, however, approximately two-thirds remained in the collagen gel. In summary, the presence of a 3-D collagen matrix increases fibroblast fibronectin production and results in greater retention of fibronectin in the vicinity of the producing cells.     

Retracted: Effects of microRNA-370 on mesangial cell proliferation and extracellular matrix accumulation by binding to canopy 1 in a rat model of diabetic nephropathy

As one major diabetic complication, diabetic nephropathy (DN) has been reported to be associated with various kinds of microRNA (miRNA). Thus, we conducted this study to explore the potential of miR-370 in a rat model of DN through investigation of mesangial cell proliferation and extracellular matrix (ECM). A total of 40 healthy adult male Sprague–Dawley rats were enrolled and assigned into normal (n = 10) and DN ( n = 30, DN rat model) groups. Dual-luciferase reporter assay was performed for the targeting relationship between miR-370 and canopy 1 (CNPY1). Mesangial cells were collected and transfected with prepared mimic, inhibitor or small interfering RNA (siRNA) for analyzing the effect of miR-370 on DN mice with the help of expression and cell biological processes detection. CNPY1 was confirmed as a target gene of miR-370. DN mice had increased expression of miR-370, fibronectin, type I collagen (Col I), type IV collagen (Col IV), and plasminogen activator inhibitor-1 (PAI-1) but reduced CNPY1 expression. Cells transfected with miR-370 mimic and siRNA–CNPY1 had increased expression of fibronectin, Col I, Col IV, and PAI-1 but decreased CNPY1 expression. The miR-370 mimic and siRNA–CNPY1 groups showed increased cell proliferation, as well as elevated ECM accumulation and declined cell apoptosis rate as compared with the blank and negative control groups, with reverse trends observed in the miR-370 inhibitor group. Our study concludes that overexpression of miR-370 promotes mesangial cell proliferation and ECM accumulation by suppressing CNPY1 in a rat model of DN.     

Basement Membrane Regulates Fibronectin Organization Using Sliding Focal Adhesions Driven by a Contractile Winch

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Fibronectin promotes brain capillary endothelial cell survival and proliferation through alpha5beta1 and alphavbeta3 integrins via MAP kinase signalling

We showed previously that blood vessel maturation in the CNS is associated with a developmental switch in brain capillary endothelial cells (BCEC), from fibronectin signalling during angiogenesis to laminin signalling in the adult. To investigate the functional significance of this switch, we have examined the response of BCEC to different extracellular matrix (ECM) proteins. This showed that BCEC proliferation was significantly promoted by fibronectin (28.2 +/- 4.0%) and by vitronectin (14.8 +/- 2.1%) compared with uncoated glass (7.2 +/- 0.7%), while BCEC survival was significantly promoted by fibronectin (1130 +/- 131 cells), vitronectin (830 +/- 63 cells), collagen IV (703 +/- 77 cells) and laminin (680 +/- 34 cells) compared with the uncoated glass (367 +/- 48 cells). Biochemical studies showed that BCEC express a limited repertoire of integrins, including the beta1 integrins, alpha3beta1, alpha5beta1 and alpha6beta1, and the alphavbeta3 integrin. Function-blocking studies showed that the response to fibronectin was mediated equally by the alpha5beta1 and alphavbeta3 integrins. Analysis of signalling pathways revealed that fibronectin stimulated activation of the p44/p42 MAP kinase signalling pathway and pharmacological inhibitors of this pathway blocked BCEC proliferation on fibronectin. Taken together, these findings show that fibronectin exerts a strong angiogenic influence on endothelial cells (EC) in the CNS, and that this is mediated through the alpha5beta1 and alphavbeta3 integrins via MAP kinase signalling. In addition to a fundamental role in development, these findings may also have implications in pathological conditions of the CNS where fibronectin is re-expressed.     

Enhanced fibronectin-mediated cell adhesion of human osteoblast by fibroblast growth factor, FGF-2

Using specific recombinant human fibronectin peptide (hFNIII9-10) that contains the binding site for integrin, we found that the fibroblast growth factor, FGF-2, enhances fibronectin-mediated adhesion in human osteoblast-like MG63 cells. The mechanism of the synergistic adhesion was due to the activation of extracellular-regulated kinase (ERK)-type MAPK upon interaction of integrin to hFNIII9-10 and its downstream activation of signaling pathways.     

Some paradoxical effects of inhibitors of protein synthesis on protein turnover in cultured human cells

Summary Low concentrations ofcycloheximide, sufficient to block net protein synthesis in growing normal and cancer cells, had no effect on protein turnover, i.e. either the incorporation of labeled amino acids from media lacking other amino acids essential for growth, or the loss to the medium of amino acids from prelabeled cells. At the concentrations that blocked growth, the rate of amino acid incorporation from complete medium was reduced to the “quo;turnover level,” i.e. the rate of incorporation seen in amino acid-deficient media. Protein turnover was inhibited only at higher concentrations of the inhibitor. Qualitatively similar results have been obtained with puromycin, anisomycin, emetin and tylocerebrine.     

Fibronectin-mediated adhesion rescues cell cycle arrest induced by fibroblast growth factor-1 by decreased expression of P21cip/waf in human chondrocytes

Summary In chondrocytes, fibroblast growth factors (FGFs) inhibit chondrocytes proliferation by upregulation of the cell cycle inhibitor p21^cip/waf. In this report, we first investigated the roles of fibronectin (FN)-mediated cell adhesion in the modulation of FGF-1's antiproliferative function in chondrocytes. In this study, we found that FN-mediated signaling could rescue cell cycle arrest induced by FGF-1 in primary human chondrocytes. This prevention of cell cycle arrest induced by FGF-1 was due to the suppression of the cell cycle inhibitor p21^cip/waf expression on adhesion to FN and its downstream activation of signaling pathways. Finally, we showed that this rescue induced by FN-mediated adhesion is dependent on the extracellular regulated kinase (ERK) signaling pathway. Taken together, these studies support that, despite FGF-FGF receptor's growth-inhibitory function, the FN-mediated signaling can collaborate to compensate for its negative effect on chondrocytes proliferation, providing evidence for cross talk between signals emerging from these cell surface molecules in chondrocyte.     

Mesangial cell apoptosis induced by a fibronectin fragment

We previously showed that in passive Heymann nephritis (PHN) rats, a large quantity of fibronectin (FN) fragments containing the central cell-binding (CCB) domain and adjacent domains are generated in the kidney and excreted into urine (Nishizawa et al., Biol Pharm Bull 1998; 21: 429–433). To ascertain whether the FN fragments could affect the progression of PHN, we investigated the effect of a 150 K FN fragment containing the CCB and carboxyl-terminal heparin-binding (Hep 2) domains on cultured rat mesangial cells. When rat mesangial cells cultured on FN-coated plates were exposed to the 150 K FN fragment, some mesangial cells detached from the FN substrate and then underwent apoptosis as judged by nuclear and DNA fragmentations. The 150 K FN fragment competitively inhibited the mesangial cell adhesion to the FN substrate in a dose-dependent manner. Furthermore, gelatinzymography of the conditioned medium of mesangial cells showed that the 150 K FN fragment induced and/or poteintiated the extracellular matrix (ECM)-degrading proteinases including matrix metalloproteinases (MMPs) of mesangial cells. These results indicate that the 150 K FN fragment may elicit mesangial cell apoptosis by disrupting the mesangial cell adhesion through two distinct ways: the inhibition of mesangial cell adhesion and the ECM-degradation by the 150 K FN fragment-induced MMPs. Thus, FN fragments containing the CCB and adjacent domains generated in the kidneys of PHN rats may be involved in the evolution of the renal injury.     

AFM对人乳腺癌细胞外纤连蛋白原纤维的形态学观察

探讨原子力显微镜在研究细胞和细胞外基质间的相互作用及细胞外基质的功能等方面的应用前景。应用原子力显微镜观察培养的人乳腺癌MCF 7 R细胞分泌的纤连蛋白原纤维的分布和排列规律 ,并与其他常规观察技术进行比较。应用原子力显微镜获得了多个乳腺癌细胞和细胞外纤连蛋白原纤维的整体和局部形貌图像 ,发现这些原纤维的分布和排列方式非常有规律 ,而且这些规律与其功能相适应。由于样品制备简单和分辨率较高等优点 ,原子力显微镜较适合于细胞外基质的原位观察     

Degradation of extracellular matrix by the trophoblastic cells of first-trimester human placentas

First-trimester human placental villi were cultured on 3H-leucine-labeled extracellular matrices isolated from the PF HR9 and PYS-2 cell lines. Both cell lines produced an extracellular matrix that contained basement membrane-specific macromolecules, including type IV collagen, laminin and proteoglycan. Both matrices promoted outgrowth of cells from the villi which, according to morphological criteria, were identified as cytotrophoblastic cells. As the cells migrated from the attachment site, they caused a marked focal dissolution of the matrix which was accompanied by a concomitant release of 3H-labeled material into the media. Approximately half of this material chromatographed near the inclusion volume of Sephadex G-50, indicating that the labeled matrix components had been degraded. This phenomenon was dependent on the age of the placenta. Second-trimester placental villi also adhered to the matrix, but no areas of dissolution were formed and no significant amounts of radioactivity were released into the medium. These results suggest that culture of first-trimester human placental villi on extracellular matrices may be useful for the study of some of the early embryonic events leading to human implantation, during which the trophoblastic cells erode the uterine epithelium.     

Synergistic induction of osteopontin by aldosterone and inflammatory cytokines in mesangial cells

Hypertensive nephrosclerosis is characterized by activation of the renin-angiotensin-aldosterone system in combination with an inflammatory response characterized by an infiltration of T-cells and mononuclear cells, which release proinflammatory cytokines like IL-1beta/TNFalpha. In various models of experimental hypertensive disease the chemokine osteopontin (OPN) enhances further leukocyte infiltration. Therefore, we investigated the induction of OPN expression in renal mesangial cells (MCs) by aldosterone and the inflammatory cytokines IL-1beta/TNFalpha. Incubation with aldosterone resulted in a time- and concentration-dependent increase in OPN mRNA and protein. OPN mRNA expression followed a biphasic time course with an early increase between 4 and 8 h and the second phase starting at 14 h. The early phase was independent of protein synthesis, indicating a direct effect of aldosterone. Aldosterone-mediated induction of OPN was prevented by spironolactone, indicative of a receptor-mediated aldosterone effect. The mineralocorticoid receptor (MR) was identified in MCs by RT-PCR and immunoprecipitation, and shown to interact with a putative aldosterone-response element of the OPN promoter. The proinflammatory cytokines IL-1beta and TNFalpha only marginally affected OPN expression in MCs. However, coincubation of aldosterone and the cytokines synergistically increased OPN mRNA and protein levels. Since the synergistic effect on OPN mRNA was inhibited by diphenyleneiodonium, we assume an involvement of reactive oxygen species (ROS). We conclude that the chemokine OPN is a target gene of aldosterone in renal MCs, which is activated via the MR, and that proinflammatory cytokines enhance aldosterone-dependent OPN expression. In vivo, this may result in further leukocyte infiltration aggravating hypertensive nephrosclerosis.     

Fibronectin promotes proplatelet formation in the human megakaryocytic cell line UT-7/TPO

We investigated PPF (proplatelet formation) in the human megakaryocytic cell line UT-7/TPO in vitro and signal transduction pathways responsible for PPF. The megakaryocytic cell lines are useful for studying megakaryocyte biology, although PPF is induced only in the presence of phorbol ester. TPO (thrombopoietin) stimulates megakaryocyte proliferation and differentiation; however, no PPF occurred in the megakaryocytic cell lines, even after the addition of TPO. Therefore, factors other than TPO may play an important role in the process of PPF. As PPF occurs in the bone marrow in vivo, we noted extracellular matrix proteins and found that soluble FN (fibronectin) induced potent PPF in UT-7/TPO without phorbol ester. A Western blot analysis showed that the expression of integrins was not increased by FN treatment. Anti-β1 antibody and the RGD (arginine-glycine-aspartate) peptide inhibited FN-induced PPF. This result indicates that the signal originated from integrin β1, which is essential to inducing PPF in UT-7/TPO. Results of the experiments using several inhibitors suggest that activation of the MEK [MAPK (mitogen-activated protein kinase)/ERK (extracellular-signal-regulated kinase) kinase]-ERK and PI3K (phosphoinositide 3-kinase) pathways are necessary for PPF. The phosphorylation of ERK gradually increased for 2 h after the addition of soluble FN, which suggests that activation of ERK is essential for the initial induction of FN-induced PPF in UT-7/TPO. UT-7/TPO is a useful cell line that enables us to study the signals of PPF without effects of chemical compounds.     

Phenotypic differences in subclones and long-term cultures of clonally derived rat bone cell lines

Previous studies with clonally derived populations of cells have shown that cells released from embryonic rat calvaria by enzymatic digestion are heterogeneous with respect to their hormone responsiveness, morphology, and production of matrix components [Aubin JE et al; J. Cell Biol 92:452, 1982]. Several of these clonal populations have been used to study the effects of long-term culture and inter- and intraclonal cell heterogeneity. During continuous subculture, marked changes in collagen synthesis were observed in two clonal populations. Both of these clones were originally responsive to parathyroid hormone (PTH) and synthesized primarily type I collagen with small amounts of type III and V collagens, although one clone (RCJ 3.2) had a fibroblastic morphology whereas the second clone (RCB 2.2) displayed a more polygonal shape. Following routine subculture over 3 yr, clone RCB 2.2 was found to synthesize exclusively alpha 1(I)-trimer and not other interstitial collagens. When the same cells were maintained at confluence for 1-2 wk, however, they also synthesized type III collagen. Whereas RCJ 3.2 did not show such dramatic changes in collagen synthesis after long-term subculture, two subclones derived from RCJ 3.2 were found to synthesize almost exclusively either type III collagen (RCJ 3.2.4.1) or type V collagen (RCJ 3.2.4.4). Immunocytochemical staining indicated that both subpopulations also produced type IV collagen, laminin, and basement membrane proteoglycan, proteins that are typically synthesized by epithelial cells. The differences in collagen expression by the various clonal cell populations were accompanied by qualitative and quantitative differences in other secreted proteins and differences in cell morphology. The results demonstrate both the inter- and intraclonal heterogeneity of connective tissue cells and their diverse potentiality with respect to extracellular matrix synthesis.