共查询到20条相似文献,搜索用时 15 毫秒
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L. MAUGE D. ISRAËL‐BIET C. L. GUERIN I. BIECHE J. C. KOVACIC A.‐M. FISCHER P. GAUSSEM D. M. SMADJA 《Journal of thrombosis and haemostasis》2012,10(4):670-679
Summary. Background: Transforming growth factor‐β1 (TGF‐β1) is a profibrotic cytokine that plays a major role in vascular biology, and is known to regulate the phenotype and activity of various vascular cell populations. Because most fibrotic diseases, such as idiopathic pulmonary fibrosis (IPF), are associated with vascular remodeling, and as endothelial progenitor cells (EPCs) may be involved in this process, we investigated the impact of TGF‐β1 modulation of EPC angiogenic properties. Methods: TGF‐β1 plasma levels were determined in 64 patients with IPF and compared with those in controls. The effect of TGF‐β1 on angiogenesis was studied in vivo in a Matrigel plug model and in vitro on endothelial colony‐forming cells (ECFCs). We studied the effects of inhibiting the expression of the three main receptors of TGF‐β1 in ECFCs by using short interfering RNA. Results: Total TGF‐β1 plasma levels were significantly increased in patients with IPF as compared with controls (P < 0.0001). TGF‐β1 had proangiogenic effects in vivo by increasing hemoglobin content and blood vessel formation in Matrigel plugs implanted in C57/Bl6 mice, and in vitro by enhancing ECFC viability and migration. The effects were abolished by silencing the three main TGF‐β1 receptors. Conclusions: TGF‐β1 is proangiogenic in vivo and induces ECFC angiogenic properties in vitro, suggesting that TGF‐β1 may play a role during vascular remodeling in fibrotic disease states via EPCs. 相似文献
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Deborah L.W. Chong Sarah Trinder Myriam Labelle Manuel Rodriguez‐Justo Sian Hughes Alan M. Holmes Chris J. Scotton Joanna C. Porter 《Journal of tissue engineering and regenerative medicine》2020,14(4):645-649
Platelets are a recognised potent source of transforming growth factor‐β1 (TGFβ1), a cytokine known to promote wound healing and regeneration by stimulating dermal fibroblast proliferation and extracellular matrix deposition. Platelet lysate has been advocated as a novel personalised therapeutic to treat persistent wounds, although the precise platelet‐derived growth factors responsible for these beneficial effects have not been fully elucidated. The aim of this study was to investigate the specific role of platelet‐derived TGFβ1 in cutaneous wound healing. Using a transgenic mouse with a targeted deletion of TGFβ1 in megakaryocytes and platelets (TGFβ1fl/fl.PF4‐Cre), we show for the first time that platelet‐derived TGFβ1 contributes to epidermal and dermal thickening and cellular turnover after excisional skin wounding. In vitro studies demonstrate that human dermal fibroblasts stimulated with platelet lysate containing high levels of platelet‐derived TGFβ1 did not exhibit enhanced collagen deposition or proliferation, suggesting that platelet‐derived TGFβ1 is not a key promoter of these wound healing processes. Interestingly, human keratinocytes displayed enhanced TGFβ1‐driven proliferation in response to platelet lysate, reminiscent of our in vivo findings. In summary, our novel findings define and emphasise an important role of platelet‐derived TGFβ1 in epidermal remodelling and regeneration processes during cutaneous wound healing. 相似文献
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An in vitro priming step increases the expression of numerous epidermal growth and migration mediators in a tissue‐engineering construct 下载免费PDF全文
David Fiore Paul J. Thompson Jane K. Goodrich Tatyana Yufit Aleksandra M. Michalowski Julie Deschenes Polly Carson Marta Otero‐Vinas Vincent Falanga 《Journal of tissue engineering and regenerative medicine》2017,11(3):713-723
An FDA‐approved, prototypic, living, bilayered skin construct (BSC) has been used for non‐healing wounds. Using this particular construct as proof of principle, we hypothesized that an in vitro ‘priming’ step may enhance its repertoire of expression of key mediators and genes. The priming step used here was incubation in Dulbecco's modified Eagle's medium (DMEM) for 24 h at 37°C and 5% CO2, with or without construct meshing. Microarray and ingenuity pathway analysis (IPA) showed that >1000 genes were overexpressed by the priming step, including interleukin 6 (IL‐6), which plays important roles in wound healing. Genes highly overexpressed by priming were those involved in epidermal proliferation and migration. Quantitative real‐time PCR (qRT–PCR), immunostaining and western blots verified the results. An epiboly assay (epidermal migration over dermis) showed that BSC epiboly was inhibited by IL‐6 neutralizing antibody. Back wounds of nude mice were treated with primed or control BSCs for 3 days prior to harvesting; primed BSCs showed a significantly (p = 0.006) greater level of epidermal migration vs unprimed. Our study demonstrates that an in vitro priming step induces wound healing‐related genes in the BSC, leading to a construct that could prove more effective in stimulating wound healing. Copyright © 2014 John Wiley & Sons, Ltd. 相似文献
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Human corneal fibroblast migration and extracellular matrix synthesis during stromal repair: Role played by platelet‐derived growth factor‐BB,basic fibroblast growth factor,and transforming growth factor‐β1 下载免费PDF全文
Patricia Gallego‐Muñoz Lucía Ibares‐Frías José A. Garrote María Cruz Valsero‐Blanco Roberto Cantalapiedra‐Rodríguez Jesús Merayo‐Lloves M. Carmen Martínez‐García 《Journal of tissue engineering and regenerative medicine》2018,12(2):e737-e746
The development of treatments that modulate corneal wound healing to avoid fibrosis during tissue repair is important for the restoration of corneal transparency after an injury. To date, few studies have studied the influence of growth factors (GFs) on human corneal fibroblast (HCF) expression of extracellular matrix (ECM) proteins such as collagen types I and III, proteoglycans such as perlecan, or proteins implicated in cellular migration such as α5β1‐integrin and syndecan‐4. Using in vitro HCFs, a mechanical wound model was developed to study the influence of the GFs basic fibroblast GF (bFGF), platelet‐derived GF (PDGF‐BB) and transforming GF‐β1 (TGFβ1) on ECM protein production and cellular migration. Our results show that mechanical wounding provokes the autocrine release of bFGF and TGFβ1 at different time points during the wound closure. The HCF response to PDGF‐BB was a rapid closure due to fast cellular migration associated with a high focal adhesion replacement and a high expression of collagen and proteoglycans, producing nonfibrotic healing. bFGF stimulated nonfibrotic ECM production and limited the migration process. Finally, TGFβ1 induced expression of the fibrotic markers collagen type III and α5β1 integrin, and it inhibited cellular migration due to the formation of focal adhesions with a low turnover rate. The novel in vitro HCF mechanical wound model can be used to understand the role played by GFs in human corneal repair. The model can also be used to test the effects of different treatments aimed at improving the healing process. Copyright © 2016 John Wiley & Sons, Ltd. 相似文献
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Corneal keratocyte transition to mesenchymal stem cell phenotype and reversal using serum‐free medium supplemented with fibroblast growth factor‐2, transforming growth factor‐β3 and retinoic acid 下载免费PDF全文
Laura E. Sidney Andrew Hopkinson 《Journal of tissue engineering and regenerative medicine》2018,12(1):e203-e215
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Mesenchymal stem cells can be recruited to wounded tissue via hepatocyte growth factor‐loaded biomaterials 下载免费PDF全文
M. Wöltje M. Böbel J. Jaekel B. Rath N. Labude R. Knüchel W. Jahnen‐Dechent Sabine Neuss 《Journal of tissue engineering and regenerative medicine》2017,11(11):2988-2998
Mesenchymal stem cells (MSC) are precursor cells of mesodermal tissue and, because of their trophic phenotype, they are known to play beneficial roles in wound healing. In addition, various tissue engineering strategies are based on MSC/biomaterial constructs. As the isolation and expansion of MSCs is a long‐term process, a major goal is to develop an endogenous stem cell recruitment system that circumvents all ex vivo steps generally used for tissue engineering. Therefore collagen and silk fibroin were loaded with hepatocyte growth factor (HGF), a chemoattractant for MSCs. Collagen was mixed with HGF during polymerization, while silk fibroin and HGF were produced as fusion proteins by transgenic silkworms. To demonstrate release of active HGF, enzyme‐linked immunosorbent assay, in vitro migration assays and animal studies were performed to demonstrate MSC migration in vivo, followed by detailed examinations of the immunological effects of the biomaterials. Hepatocyte growth factor was released burst‐like, both from silk fibroin and collagen during the first 8 h and gradually for up to 168 h in vitro. Directed migration in vitro was demonstrated when MSCs were exposed to HGF. In vivo, HGF‐loaded collagen and silk fibroin were tolerated as subcutaneous implants. In addition, it was proved that endogenous MSCs were recruited from the local environment. These results show for the first time recruitment of endogenous MSCs to HGF‐loaded collagen (fast degradable) and silk fibroin scaffolds (long‐term degradable) in vitro and in vivo. This knowledge could be applied to make off‐the‐shelf, readily available constructs for use in patients with chronic wound or burns. Copyright © 2016 John Wiley & Sons, Ltd. 相似文献
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Michael D. Hoffman Danielle S.W. Benoit 《Journal of tissue engineering and regenerative medicine》2015,9(11):E13-E26
Promoting mesenchymal stem cell (MSC) proliferation has numerous applications in stem cell therapies, particularly in the area of regenerative medicine. In order for cell‐based regenerative approaches to be realized, MSC proliferation must be achieved in a controlled manner without compromising stem cell differentiation capacities. Here we demonstrate that 6‐bromoindirubin‐3′‐oxime (BIO) increases MSC β‐catenin activity 106‐fold and stem cell‐associated gene expression ~33‐fold, respectively, over untreated controls. Subsequently, BIO treatment increases MSC populations 1.8‐fold in typical 2D culture conditions, as well as 1.3‐fold when encapsulated within hydrogels compared to untreated cells. Furthermore, we demonstrate that BIO treatment does not reduce MSC multipotency where MSCs maintain their ability to differentiate into osteoblasts, chondrocytes and adipocytes using standard conditions. Taken together, our results demonstrate BIO's potential utility as a proliferative agent for cell transplantation and tissue regeneration. Copyright © 2013 John Wiley & Sons, Ltd. 相似文献
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《Medicinal research reviews》2018,38(2):426-503
Due to the widespread emergence of resistant bacterial strains, an urgent need for the development of new antibacterial agents with novel modes of action has emerged. The discovery of naturally occurring monocyclic β‐lactams in the late 1970s, mainly active against aerobic Gram‐negative bacteria, has introduced a new approach in the design and development of novel antibacterial β‐lactam agents. The main goal was the derivatization of the azetidin‐2‐one core in order to improve their antibacterial potency, broaden their spectrum of activity, and enhance their β‐lactamase stability. In that respect, our review covers the updates in the field of monocyclic β‐lactam antibiotics during the last three decades, taking into account an extensive collection of references. An overview of the relationships between the structural features of these monocyclic β‐lactams, classified according to their N‐substituent, and the associated antibacterial or β‐lactamase inhibitory activities is provided. The different paragraphs disclose a number of well‐established classes of compounds, such as monobactams, monosulfactams, monocarbams, monophosphams, nocardicins, as well as other known representative classes. Moreover, this review draws attention to some less common but, nevertheless, possibly important types of monocyclic β‐lactams and concludes by highlighting the recent developments on siderophore‐conjugated classes of monocyclic β‐lactams. 相似文献
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Raffaele Spanò Anita Muraglia Maria R. Todeschi Marta Nardini Paolo Strada Ranieri Cancedda Maddalena Mastrogiacomo 《Journal of tissue engineering and regenerative medicine》2018,12(1):e82-e96
Chronic skin ulcers, consequence of diabetes and other pathological conditions, heavily compromise the patient life quality and represent a high and constantly growing cost for National Health Services. Autologous platelet‐rich plasma (PRP), has been proposed to treat these lesions. The absence of guidelines for the PRP production and the need of a fresh preparation for each treatment lead us to develop a protocol for the production of an allogenic PRP‐based bioactive membrane (BAM), standardized for platelet concentration and growth factor release. This work compares BAMs obtained starting from two different platelet concentrations. There was no direct correlation between the amount of growth factors released by BAM in vitro and the initial platelet count. However, different release kinetics were noticed for different growth factors, suggesting that they were differently retained by the two BAMs. The angiogenic potential of both BAMs was determined by Luminex Angiogenesis Assay. The biological activity of the factors released by the two BAMs was confirmed by cell proliferation and migration. A diabetic mouse chronic ulcer model was used to define the best PRP therapeutic dose in vivo. Both BAMs induced wound healing by increasing the thickness of the regenerated epidermis and the vessel number. However, a too high platelet concentration resulted in a slowdown of the membrane resorption that interfered with the skin healing. Overall, the results indicate that the BAMs could represent a natural and effective wound healing tool for the treatment of skin ulcers. Copyright © 2016 John Wiley & Sons, Ltd. 相似文献
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Heenam Kwon Siobhan A. O'Leary Jerry C. Hu Kyriacos A. Athanasiou 《Journal of tissue engineering and regenerative medicine》2019,13(2):283-294
Strategies to overcome the limited availability of human articular chondrocytes and their tendency to dedifferentiate during expansion are required to advance their clinical use and to engineer functional cartilage on par with native articular cartilage. This work sought to determine whether a biochemical factor (transforming growth factor‐β1 [T]), a biophysical agent (chondroitinase‐ABC [C]), and a collagen crosslinking enzyme (lysyl oxidase‐like 2 [L]) are efficacious in forming three‐dimensional human neocartilage from expanded human articular chondrocytes. Among the treatment regimens, the combination of the three stimuli (TCL treatment) led to the most robust glycosaminoglycan content, total collagen content, and type II collagen production. In particular, TCL treatment synergistically increased tensile stiffness and strength of human neocartilage by 3.5‐fold and 3‐fold, respectively, over controls. Applied to two additional donors, the beneficial effects of TCL treatment appear to be donor independent; tensile stiffness and strength were increased by up to 8.5‐fold and 3‐fold, respectively, over controls. The maturation of human neocartilage in response to TCL treatment was examined following 5 and 8 weeks of culture, demonstrating maintenance or further enhancement of functional properties. The present study identifies a novel strategy for engineering human articular cartilage using serially passaged chondrocytes. 相似文献
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The calcification potential of human MSCs can be enhanced by interleukin‐1β in osteogenic medium 下载免费PDF全文
Claudia Loebel Ewa M. Czekanska Judith Staudacher Gian Salzmann R. Geoff Richards Mauro Alini Martin J. Stoddart 《Journal of tissue engineering and regenerative medicine》2017,11(2):564-571
Inflammation is one of the key regulators of the repair process in bone tissues. Current data about the effect of interleukin‐1β (IL‐1β) on MSCs and osteoblasts are conflicting. We investigated the long‐term effect of IL‐1β on direct osteogenic differentiation of hMSCs in vitro. IL‐1β‐stimulated cells showed enhanced proliferation and entered maturation prior to non‐stimulated ones, as monitored by ALP activity. The process of calcification was accelerated during long‐term stimulation of hMSCs with IL‐1β. Since donor variability is a well‐known issue, we suggest a new method to illustrate global changes of a random chosen donor population through collative analysis. We further demonstrate an absorbance assay to evaluate the degree of calcification during in vitro culture of monolayer expanded hMSCs. Our findings support the importance of IL‐1β in osteogenic differentiation of hMSCs in an in vitro monolayer culture model. A new online absorbance assay is a useful method to evaluate the osteogenic differentiation of hMSCs at early stages. These findings will be helpful in optimizing predifferentiation of hMSCs in vitro for bone tissue engineering. Copyright © 2014 John Wiley & Sons, Ltd. 相似文献
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Autoantibody against integrin αvβ3 contributes to thrombocytopenia by blocking the migration and adhesion of megakaryocytes 下载免费PDF全文
D. F. Zeng F. Chen S. Wang S. L. Chen Y. Xu M. Q. Shen C. H. Du C. Wang P. Y. Kong T. M. Cheng Y. P. Su J. P. Wang 《Journal of thrombosis and haemostasis》2018,16(9):1843-1856
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Sebastian Frischholz Oliver Berberich Thomas Bck Rainer H. Meffert Torsten Blunk 《Journal of tissue engineering and regenerative medicine》2020,14(7):897-908
When aiming at cell‐based therapies in osteoarthritis (OA), proinflammatory conditions mediated by cytokines such as IL‐1β need to be considered. In recent studies, the phytoalexin resveratrol (RSV) has exhibited potent anti‐inflammatory properties. However, long‐term effects on 3D cartilaginous constructs under inflammatory conditions with regard to tissue quality, especially extracellular matrix (ECM) composition, have remained unexplored. Therefore, we employed long‐term model cultures for cell‐based therapies in an in vitro OA environment and evaluated effects of RSV. Pellet constructs made from expanded porcine articular chondrocytes were cultured with either IL‐1β (1–10 ng/ml) or RSV (50 μM) alone, or a cotreatment with both agents. Treatments were applied for 14 days, either directly after pellet formation or after a preculture period of 7 days. Culture with IL‐1β (10 ng/ml) decreased pellet size and DNA amount and severely compromised glycosaminoglycan (GAG) and collagen content. Cotreatment with RSV distinctly counteracted the proinflammatory catabolism and led to partial rescue of the ECM composition in both culture systems, with especially strong effects on GAG. Marked MMP13 expression was detected in IL‐1β‐treated pellets, but none upon RSV cotreatment. Expression of collagen type I was increased upon IL‐1β treatment and still observed when adding RSV, whereas collagen type X, indicating hypertrophy, was detected exclusively in pellets treated with RSV alone. In conclusion, RSV can counteract IL‐1β‐mediated degradation and distinctly improve cartilaginous ECM deposition in 3D long‐term inflammatory cultures. Nevertheless, potential hypertrophic effects should be taken into account when considering RSV as cotreatment for articular cartilage repair techniques. 相似文献