Patricia Mestries scite author profile

We have engineered polymers called ReGeneraTing Agents (RGTAs), which mimic the protecting and potentiating properties of heparan sulfates toward heparin-binding growth factors (HBGF). RGTAs have been shown to optimize cell growth and regulate collagen production in vitro. Here, we studied relationships between RGTA structure and collagen-type expression in aortic smooth muscle cells by using two RGTAs, the carboxylmethylsulfate dextran RG-1503 and the carboxylmethylsulfate dextran with added benzylamide RG-1192. RG-1192 specifically induced a fivefold decrease in collagen III synthesis. This effect was abolished by FGF-2 neutralizing antibody. RG-1192 and FGF-2 acted synergistically to decrease collagen III. RG-1192 was more effective than heparin in this process. RG-1192 increased the pericellular localization of FGF-2 and protected FGF-2 from proteolysis. Surface plasmon resonance analysis indicated a Kd of 15.7 nM for the RG-1192/FGF-2 interaction (10.6 nM for the heparin/FGF-2 interaction). The structurally different RG-1503 (without benzylamide) did not interact with FGF-2 and worked synergistically with TGF-beta1 to specifically induce a twofold increase in collagen V. RGTAs with different structures exert different modulating effects on the collagen phenotype. Selection of appropriate RGTAs, which had been shown to enhance in vivo tissue repair, may provide a mean of correcting collagen abnormalities in vascular disorders and more generally in fibrotic diseases.

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Chemically modified dextrans modulate expression of collagen phenotype by cultured smooth muscle cells in relation to the degree of carboxymethyl, benzylamide, and sulfation substitutions

Mestries

Borchiellini

Barbaud

et al. 1998

J. Biomed. Mater. Res.

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We developed regenerating agents (RGTAs) corresponding to polysaccharides derived from dextran and containing defined amounts of carboxymethyl (CM), carboxymethyl sulfate (CMS), carboxymethyl benzylamide (CMB), or carboxymethyl benzylamide sulfate (CMBS) groups with varying degrees of substitution. These compounds mimicked some effects of heparin on smooth muscle cell (SMC) proliferation and promoted in vivo tissue remodeling. We demonstrated that only RGTAs containing both CM and sulfate groups decreased SMC proliferation, in correlation with increased sulfation level. This effect was amplified by the presence of benzylamide. Independent of this activity on cell proliferation (i.e., with postconfluent cells), RGTAs modulated collagen biosynthesis by SMCs. On the one hand, CMBS more than CMS RGTAs induced a decrease of collagen III synthesis at the level of mRNA steady state and protein production. On the other hand, CMS to a greater extent than CMBS RGTAs increased both collagen V mRNA and protein production. In addition, only benzylamide-containing RGTAs increased accumulation of collagen I and III in the cell layer. In conclusion, RGTA bioactivities required the presence of CM functions, increased with the sulfation level, and varied with benzylamide substitution. RGTAs that modulate cell proliferation and collagen biosynthesis by differential mechanisms may represent potential antifibrotic agents.

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Heparan mimetic regulates collagen expression and TGF‐β1 distribution in gamma‐irradiated human intestinal smooth muscle cells

et al. 2001

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Radiation-induced intestinal fibrosis is characterized by collagen accumulation, a process in which TGF-beta1 plays a key role. We analyzed the effects of gamma radiation on collagen expression and TGF-beta1 distribution in human intestinal smooth muscle cells (HISM). We investigated the activity of a carboxymethylated and sulfated dextran (RG-1503), exhibiting antifibrotic properties and promoting in vivo intestinal tissue repair, on irradiated HISM. After (60)Co irradiation (10 Gy), HISM were labeled with [(3)H] proline (+/-RG-1503). Radiolabeled collagen I, III, and V were quantified by SDS-PAGE. TGF-beta1 was quantified by ELISA in culture medium, pericellular and intracellular compartments. Irradiation induced a specific 2.85-fold increase in collagen III production by HISM. Collagen V decreased by 80% 72 h after irradiation. Pericellular TGF-beta1 was increased (up to twofold) in irradiated HISM. RG-1503 added before or after irradiation reversed both mRNA and protein levels of collagen III and V to control values. RG-1503 decreased the amount of TGF-beta1 in the cell layer below the control values. Irradiation of HISM induced the development of a fibrotic phenotype in terms of collagen production and TGF-beta1 distribution. The antifibrotic RG-1503 restored HISM physiological characteristics and may represent a promising therapeutic approach for radiation-induced intestinal fibrosis.

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