Your search keyword '"THROMBOSPONDIN-1"' showing total 26 results

1. Thrombospondin-1 promotes mechanical stress-mediated ligamentum flavum hypertrophy through the TGFβ1/Smad3 signaling pathway.

Author

Zhao, Run, Dong, Jiale, Liu, Chunlei, Li, Mingheng, Tan, Ruiqian, Fei, Chengshuo, Chen, Yanlin, Yang, Xinxing, Shi, Jiawei, Xu, Jiajia, Wang, Liang, Li, Peng, and Zhang, Zhongmin

Subjects

*THROMBOSPONDIN-1, *CELLULAR signal transduction, *SPINAL stenosis, *HYPERTROPHY, *PROTEOMICS, *TRANSFORMING growth factors, *TRANSFORMING growth factors-beta

Abstract

• The expression of thrombospondin-1 is significantly increased with the development of LFH. • Thrombospondin-1 promotes the development of LFH through the TGFβ1/Smad3 signaling pathway. • Sestrin2 significantly restrains the fibrotic process of LF cells through the THBS1/TGFβ1 pathway. • The inhibition of THBS1 expression could be a new therapeutic target for treating LFH. Lumbar spinal canal stenosis is primarily caused by ligamentum flavum hypertrophy (LFH), which is a significant pathological factor. Nevertheless, the precise molecular basis for the development of LFH remains uncertain. The current investigation observed a notable increase in thrombospondin-1 (THBS1) expression in LFH through proteomics analysis and single-cell RNA-sequencing analysis of clinical ligamentum flavum specimens. In laboratory experiments, it was demonstrated that THBS1 triggered the activation of Smad3 signaling induced by transforming growth factor β1 (TGFβ1), leading to the subsequent enhancement of COL1A2 and α-SMA, which are fibrosis markers. Furthermore, experiments conducted on a bipedal standing mouse model revealed that THBS1 played a crucial role in the development of LFH. Sestrin2 (SESN2) acted as a stress-responsive protein that suppressed the expression of THBS1, thus averting the progression of fibrosis in ligamentum flavum (LF) cells. To summarize, these results indicate that mechanical overloading causes an increase in THBS1 production, which triggers the TGFβ1/Smad3 signaling pathway and ultimately results in the development of LFH. Targeting the suppression of THBS1 expression may present a novel approach for the treatment of LFH. [ABSTRACT FROM AUTHOR]

Published

2024

2. The endocytic receptor uPARAP is a regulator of extracellular thrombospondin-1.

Author

Nørregaard, Kirstine S., Jürgensen, Henrik J., Ingvarsen, Signe Z., Heltberg, Signe S., Hagensen, Christina E., Gårdsvoll, Henrik, Madsen, Daniel H., Jensen, Ole N., Engelholm, Lars H., and Behrendt, Niels

Subjects

*THROMBOSPONDIN-1, *PLASMINOGEN activators, *DATA libraries, *UROKINASE, *THROMBOSPONDINS

Abstract

Thrombospondin-1 (TSP-1) is a matricellular protein with a multitude of functions in the pericellular and extracellular environment. We report a novel pathway for the regulation of extracellular TSP-1, governed by the endocytic collagen receptor, uPARAP (urokinase plasminogen activator receptor-associated protein; MRC2 gene product, also designated Endo180, CD280). First, using a novel proteomic approach for unbiased identification of ligands for endocytosis, we identify TSP-1 as a candidate ligand for specific uptake by uPARAP. We then show that uPARAP can efficiently internalize TSP-1 for lysosomal degradation, that this capability is not shared by other, closely related endocytic receptors and that uPARAP serves to regulate the extracellular levels of TSP-1 in vitro. Using wild type and uPARAP null mice, we also demonstrate uPARAP-mediated endocytosis of TSP-1 in dermal fibroblasts in vivo. Unlike other uPARAP ligands, the interaction with TSP-1 is sensitive to heparin and the responsible molecular motifs in uPARAP are overlapping, but not identical with those governing the interaction with collagens. Finally, we show that uPARAP can also mediate the endocytosis of TSP-2, a thrombospondin closely related to TSP-1, but not the more distantly related members of the same protein family, TSP-3, -4 and -5. These findings indicate that the role of uPARAP in ECM remodeling is not limited to the uptake of collagen for degradation but also includes an orchestrator function in the regulation of thrombospondins with numerous downstream effects. This is likely to be an important factor in the physiological and pathological roles of uPARAP in bone biology, fibrosis and cancer. The proteomic data has been deposited to the ProteomeXchange Consortium via the PRIDE partner repository with the data set identifier PXD031272. [Display omitted] • Novel proteomics approach identifies ligands for endocytosis by specific receptors. • Extracellular thrombospondin-1 is regulated by uPARAP-mediated endocytosis. • uPARAP is also a receptor for thrombospondin-2 but not for thrombospondins 3-5. • Endocytosis of thrombospondins by uPARAP is not shared by other highly similar receptors. [ABSTRACT FROM AUTHOR]

Published

2022

3. Peritoneal restoration by repurposing vitamin D inhibits ovarian cancer dissemination via blockade of the TGF-β1/thrombospondin-1 axis.

Author

Kitami, Kazuhisa, Yoshihara, Masato, Tamauchi, Satoshi, Sugiyama, Mai, Koya, Yoshihiro, Yamakita, Yoshihiko, Fujimoto, Hiroki, Iyoshi, Shohei, Uno, Kaname, Mogi, Kazumasa, Ikeda, Yoshiki, Yokoi, Akira, Yoshikawa, Nobuhisa, Nishino, Kimihiro, Niimi, Kaoru, Nawa, Akihiro, Enomoto, Atsushi, and Kajiyama, Hiroaki

Subjects

*VITAMIN D receptors, *CANCER invasiveness, *OVARIAN cancer, *VITAMIN D, *VITAMINS, *CELL adhesion, *THROMBOSPONDIN-1

Abstract

• In patients with ovarian cancer, peritoneal mesothelial cells are transformed into cancer-associated mesothelial cells via mesenchymal transition and form a favorable microenvironment for tumors to promote metastasis. • Vitamin D inhibits mesenchymal transition of mesothelial cells and suppressed thrombospondin-1 (THBS1) expression, a key molecule promoting cancer cell adhesion, via vitamin D receptor/Smad3 competition in TGF-β signaling, resulting in marked reduction in peritoneal dissemination. • Vitamin D restores cancer-associated mesothelial cells to an epithelial state with normalization of THBS1 expression in preclinical models that mimic cancerous peritonitis in vivo. • This study suggests that peritoneal restoration and normalization of THBS1 expression may be a novel strategy for preventing ovarian cancer dissemination. Ovarian cancer (OvCa), a lethal gynecological malignancy, disseminates to the peritoneum. Mesothelial cells (MCs) act as barriers in the abdominal cavity, preventing the adhesion of cancer cells. However, in patients with OvCa, they are transformed into cancer-associated mesothelial cells (CAMs) via mesenchymal transition and form a favorable microenvironment for tumors to promote metastasis. However, attempts for restoring CAMs to their original state have been limited. Here, we investigated whether inhibition of mesenchymal transition and restoration of MCs by vitamin D suppressed the OvCa dissemination in vitro and in vivo. The effect of vitamin D on the mutual association of MCs and OvCa cells was evaluated using in vitro coculture models and in vivo using a xenograft model. Vitamin D restored the CAMs, and thrombospondin-1 (component of the extracellular matrix that is clinically associated with poor prognosis and is highly expressed in peritoneally metastasized OvCa) was found to promote OvCa cell adhesion and proliferation. Mechanistically, TGF-β1 secreted from OvCa cells enhanced thrombospondin-1 expression in CAMs via Smad-dependent TGF-β signaling. Vitamin D inhibited mesenchymal transition in MCs and suppressed thrombospondin-1 expression via vitamin D receptor/Smad3 competition, contributing to the marked reduction in peritoneal dissemination in vivo. Importantly, vitamin D restored CAMs from a stabilized mesenchymal state to the epithelial state and normalized thrombospondin-1 expression in preclinical models that mimic cancerous peritonitis in vivo. MCs are key players in OvCa dissemination and peritoneal restoration and normalization of thrombospondin-1 expression by vitamin D may be a novel strategy for preventing OvCa dissemination. [ABSTRACT FROM AUTHOR]

Published

2022

4. Tumor vascular remodeling by thrombospondin-1 enhances drug delivery and antineoplastic activity.

Author

Pinessi, Denise, Resovi, Andrea, Sangalli, Fabio, Morosi, Lavinia, Zentilin, Lorena, Borsotti, Patrizia, Carlessi, Elena, Passoni, Alice, Davoli, Enrico, Belotti, Dorina, Giavazzi, Raffaella, Giacca, Mauro, Valbusa, Giovanni, Berndt, Alexander, Zucchetti, Massimo, and Taraboletti, Giulia

Subjects

*VASCULAR remodeling, *THROMBOSPONDIN-1, *PACLITAXEL, *ANTINEOPLASTIC agents, *NEOVASCULARIZATION inhibitors, *TUMOR growth

Abstract

• The abnormal morphological and functional properties of the tumor vasculature are a major hindrance to the distribution and efficacy of antineoplastic therapies. • This study describes the ability of a domain of the matricellular protein thrombospondin-1 (TSP-1) to remodel the tumor vasculature, restrain tumor growth, and boost drug delivery and efficacy. • These findings indicate a new role for TSP-1 in tumor vessel remodeling and open new perspectives for the development of TSP-1-based therapies. The disorganized and inefficient tumor vasculature is a major obstacle to the delivery and efficacy of antineoplastic treatments. Antiangiogenic agents can normalize the tumor vessels, improving vessel function and boosting the distribution and activity of chemotherapy. The type III repeats (T3R) domain of thrombospondin-1 contains different potential antiangiogenic sequences. We therefore hypothesized that it might affect the tumor vasculature. Ectopic expression of the T3R domain by the tumor cells or by the host, or administration of recombinant T3R, delayed the in vivo growth of experimental tumors. Tumors presented marked reorganization of the vasculature, with abundant but smaller vessels, associated with substantially less necrosis. Mechanistically, the use of truncated forms of the domain, containing different active sequences, pointed to the FGF2/FGFR/ERK axis as a target for T3R activity. Along with reduced necrosis, the expression of T3R promoted tumor distribution of chemotherapy (paclitaxel), with a higher drug concentration and more homogeneous distribution, as assessed by HPLC and MALDI imaging mass spectrometry. T3R-expressing tumors were more responsive to paclitaxel and cisplatin. This study shows that together with its known role as a canonical inhibitor of angiogenesis, thrombospondin-1 can also remodel tumor blood vessels, affecting the morphological and functional properties of the tumor vasculature. The ability of T3R to reduce tumor growth and improve the response to chemotherapy opens new perspectives for therapeutic strategies based on T3R to be used in combination therapies. [ABSTRACT FROM AUTHOR]

Published

2021

5. N-Terminomics identifies HtrA1 cleavage of thrombospondin-1 with generation of a proangiogenic fragment in the polarized retinal pigment epithelial cell model of age-related macular degeneration.

Author

Chen, Chia-yi, Melo, Esther, Jakob, Peter, Friedlein, Arno, Elsässer, Brigitta, Goettig, Peter, Kueppers, Verena, Delobel, Frederic, Stucki, Corinne, Dunkley, Tom, Fauser, Sascha, Schilling, Oliver, and Iacone, Roberto

Subjects

*RETINAL degeneration, *SERINE proteinases, *THROMBOSPONDIN-1, *NEOVASCULARIZATION, *PROTEOMICS

Abstract

Age-related macular degeneration (AMD) is the leading cause of irreversible blindness in the elderly population. Variants in the HTRA1-ARMS2 locus have been linked to increased AMD risk. In the present study we investigated the impact of elevated HtrA1 levels on the retina pigment epithelial (RPE) secretome using a polarized culture system. Upregulation of HtrA1 alters the abundance of key proteins involved in angiogenesis and extracellular matrix remodeling. Thrombospondin-1, an angiogenesis modulator, was identified as a substrate for HtrA1 using terminal amine isotope labeling of substrates in conjunction with HtrA1 specificity profiling. HtrA1 cleavage of thrombospondin-1 was further corroborated by in vitro cleavage assays and targeted proteomics together with small molecule inhibition of HtrA1. While thrombospondin-1 is anti-angiogenic, the proteolytically released N-terminal fragment promotes the formation of tube-like structure by endothelial cells. Taken together, our findings suggest a mechanism by which increased levels of HtrA1 may contribute to AMD pathogenesis. The proteomic data has been deposited to the ProteomeXchange Consortium via the PRIDE partner repository with the data set identifier. For quantitative secretome analysis, project accession: PXD007691, username: reviewer45093@ebi.ac.uk , password: 1FUpS6Yq. For TAILS analysis, project accession: PXD007139, username: reviewer76731@ebi.ac.uk , password: sNbMp7xK. [ABSTRACT FROM AUTHOR]

Published

2018

6. Thrombospondin-1 regulation of latent TGF-β activation: A therapeutic target for fibrotic disease.

Author

Murphy-Ullrich, Joanne E. and Suto, Mark J.

Subjects

*FIBROSIS, *THROMBOSPONDIN-1, *TRANSFORMING growth factors, *TARGETED drug delivery, *GENETIC regulation, *CLINICAL trials, *THERAPEUTICS

Abstract

Transforming growth factor-β (TGF-β) is a central player in fibrotic disease. Clinical trials with global inhibitors of TGF-β have been disappointing, suggesting that a more targeted approach is warranted. Conversion of the latent precursor to the biologically active form of TGF-β represents a novel approach to selectively modulating TGF-β in disease, as mechanisms employed to activate latent TGF-β are typically cell, tissue, and/or disease specific. In this review, we will discuss the role of the matricellular protein, thrombospondin 1 (TSP-1), in regulation of latent TGF-β activation and the use of an antagonist of TSP-1 mediated TGF-β activation in a number of diverse fibrotic diseases. In particular, we will discuss the TSP-1/TGF-β pathway in fibrotic complications of diabetes, liver fibrosis, and in multiple myeloma. We will also discuss emerging evidence for a role for TSP-1 in arterial remodeling, biomechanical modulation of TGF-β activity, and in immune dysfunction. As TSP-1 expression is upregulated by factors induced in fibrotic disease, targeting the TSP-1/TGF-β pathway potentially represents a more selective approach to controlling TGF-β activity in disease. [ABSTRACT FROM AUTHOR]

Published

2018

7. Syndecan-1 inhibits early stages of liver fibrogenesis by interfering with TGFβ1 action and upregulating MMP14.

Author

Regős, Eszter, Abdelfattah, Hadeer Hesham, Reszegi, Andrea, Szilák, László, Werling, Klára, Szabó, Gábor, Kiss, András, Schaff, Zsuzsa, Kovalszky, Ilona, and Baghy, Kornélia

Subjects

*SYNDECANS, *LIVER diseases, *DISEASE progression, *TRANSFORMING growth factors, *MATRIX metalloproteinases, *CELLULAR signal transduction

Abstract

Increased expression of syndecan-1 is a characteristic feature of human liver cirrhosis. However, no data are available on the significance of this alteration. To address this question we designed a transgenic mouse strain that driven by albumin promoter, expresses human syndecan-1 in the hepatocytes. Liver cirrhosis was induced by thioacetamide in wild type and hSDC1 +/+ mice of the identical strain. The process of fibrogenesis, changes in signal transduction and proteoglycan expression were followed. In an in vitro experiment, the effect of syndecan-1 overexpression on the action of TGFβ1 was determined. Human syndecan-1 and TGFβ1 levels were measured by ELISA in the circulation. Without challenge, no morphological differences were observed between wild type and transgenic mice livers, although significant upregulation of phospho-Akt and FAK was observed in the latter. Fibrogenesis in the transgenic livers, characterized by picrosirius staining, collagen type I, and SMA levels, lagged behind that of control in the first and second months. Changes in signal transduction involved in the process of fibrogenesis, as SMAD, MAPK, Akt and GSK, pointed to the decreased effect of TGFβ1, and this was corroborated by the decreased mRNA expression of TIEG and the growth factor itself. In vitro experiments exposing the LX2 hepatic stellate cell line to conditioned media of wild type and syndecan-1 transfected Hep3B cell lines proved that medium with high syndecan-1 content inhibits TGFβ1-induced upregulation of SMA, TIEG, collagen type I and thrombospondin-1 expression. Detection of liver proteoglycans and heparan sulfate level revealed that their amounts are much higher in control transgenic liver, than that in the wild type. However, it decreases dramatically as a result of shedding after hepatic injury. Shedding is likely promoted by the upregulation of MMP14. As syndecan-1 can bind thrombospondin-1, and as our result demonstrated that the same is true for TGFβ1, shed syndecan-1 can remove the growth factor and its activator together into the systemic circulation.Taking together, our results indicate that the effect of syndecan-1 is accomplished on two levels: a , the shedded syndecan can bind, inhibit and remove TGFβ1; b , interferes with the activation of TGFβ1 by downregulation and binding thrombospondin-1, the activator of the growth factor. However, by the end of the fourth month the protective effect was lost, which is explained by the considerable decrease of syndecan-1 and the almost complete loss of heparan sulfate from the surface of hepatocytes. [ABSTRACT FROM AUTHOR]

Published

2018

8. Dissecting the interaction between tissue inhibitor of metalloproteinases-3 (TIMP-3) and low density lipoprotein receptor-related protein-1 (LRP-1): Development of a “TRAP” to increase levels of TIMP-3 in the tissue.

Author

Scilabra, Simone D., Yamamoto, Kazuhiro, Pigoni, Martina, Sakamoto, Kazuma, Müller, Stephan A., Papadopoulou, Alkmini, Lichtenthaler, Stefan F., Troeberg, Linda, Nagase, Hideaki, and Kadomatsu, Kenji

Subjects

*TISSUE inhibitors of metalloproteinases, *LOW density lipoprotein receptor-related proteins, *MATRIX metalloproteinases, *THROMBOSPONDIN-1, *BIOAVAILABILITY, *ENDOCYTOSIS, *TREATMENT of arthritis

Abstract

Tissue inhibitor of metalloproteinases 3 (TIMP-3) is a key regulator of extracellular matrix turnover for its ability to inhibit matrix metalloproteinases (MMPs), adamalysin-like metalloproteinases (ADAMs) and ADAMs with thrombospondin motifs (ADAMTSs). TIMP-3 is a secreted protein whose extracellular levels are regulated by endocytosis via the low-density-lipoprotein receptor-related protein-1 (LRP-1). In this study we developed a molecule able to “trap” TIMP-3 extracellularly, thereby increasing its tissue bioavailability. LRP-1 contains four ligand-binding clusters. In order to investigate the TIMP-3 binding site on LRP-1, we generated soluble minireceptors (sLRPs) containing the four distinct binding clusters or part of each cluster. We used an array of biochemical methods to investigate the binding of TIMP-3 to different sLRPs. We found that TIMP-3 binds to the ligand-binding cluster II of the receptor with the highest affinity and a soluble minireceptor containing the N-terminal half of cluster II specifically blocked TIMP-3 internalization, without affecting the turnover of metalloproteinases. Mass spectrometry-based secretome analysis showed that this minireceptor, named T3TRAP, selectively increased TIMP-3 levels in the extracellular space and inhibited constitutive shedding of a number of cell surface proteins. In conclusion, T3TRAP represents a biological tool that can be used to modulate TIMP-3 levels in the tissue and could be potentially developed as a therapy for diseases characterized by a deficit of TIMP-3, including arthritis. [ABSTRACT FROM AUTHOR]

Published

2017

9. Thrombospondin-1 promotes mesenchymal stromal cell functions via TGFβ and in cooperation with PDGF.

Author

Belotti, Dorina, Capelli, Chiara, Resovi, Andrea, Introna, Martino, and Taraboletti, Giulia

Subjects

*THROMBOSPONDIN-1, *MESENCHYMAL stem cells, *STROMAL cells, *PLATELET-derived growth factor, *TRANSFORMING growth factors, *ANTI-inflammatory agents, *REGENERATIVE medicine, *PHYSIOLOGY

Abstract

Mesenchymal stromal cells (MSC) are characterized by unique tropism for wounded tissues, high differentiating capacity, ability to induce tissue repair, and anti-inflammatory and immunoregulatory activities. This has generated interest in their therapeutic use in severe human conditions as well as in regenerative medicine and tissue engineering. Identification of factors involved in the regulation of MSC proliferation, migration and differentiation could provide insights into the pathophysiological regulation of MSC and be exploited to optimize clinical grade expansion protocols for therapeutic use. Here we identify thrombospondin-1 (TSP-1) as a major regulator of MSC. TSP-1 induced MSC proliferation. This effect was mediated by TSP-1-induced activation of endogenous TGFβ, as shown by the inhibitory effects of anti-TGFβ antibodies and by the lack of activity of TSP-2 — that does not activate TGFβ. Moreover, TSP-1 strongly potentiated the proliferative and migratory activity of PDGF on MSC. TSP-1 directly bound to PDGF, through a site located within the TSP-1 type III repeats, and protected the growth factor from degradation by MSC-derived proteases, hence increasing its stability and bioavailability. The studies presented here identify a more comprehensive picture of the pleiotropic effect of TSP-1 on MSC behavior, setting the basis for further studies aimed at investigating the possible use of PDGF and TSP-1 in the in vitro expansion of MSC for therapeutic applications. [ABSTRACT FROM AUTHOR]

Published

2016

10. Thrombospondin-1 and CD47 signaling regulate healing of thermal injury in mice.

Author

Soto-Pantoja, David R., Shih, Hubert B., Maxhimer, Justin B., Cook, Katherine L., Ghosh, Arunima, Isenberg, Jeffrey S., and Roberts, David D.

Subjects

*THROMBOSPONDIN-1, *CD47 antigen, *CELLULAR signal transduction, *TREATMENT for burns & scalds, *WOUND healing, *PUBLIC health, *SKIN grafting

Abstract

More than 2.5 million Americans suffer from burn injuries annually, and burn management is a major public health problem. Treatments have been developed to manage wound injuries employing skin grafts, various dressings and topical and systemic agents. However, these often achieve limited degrees of success. We previously reported that targeting the interaction of thrombospondin-1 with its signaling receptor CD47 or deletion of the genes encoding either of these proteins in mice improves recovery from soft tissue ischemic injuries as well as tissue injuries caused by ionizing radiation. We now demonstrate that the absence of CD47 improves the rate of wound closure for a focal dermal second-degree thermal injury, whereas lack of thrombospondin-1 initially delays wound closure compared to healing in wild type mice. Doppler analysis of the wounded area showed increased blood flow in both CD47 and thrombospondin-1 null mice. Accelerated wound closure in the CD47 null mice was associated with increased fibrosis as demonstrated by a 4-fold increase in collagen fraction. Wound tissue of CD47 null mice showed increased thrombospondin-1 mRNA and protein expression and TGF-β1 mRNA levels. Activation of latent TGF-β1 was increased in thermally injured CD47-null tissue as assessed by phosphorylation of the TGF-β1 receptor-regulated transcription factors SMAD-2 and -3. Overall these results indicate that targeting CD47 may improve the speed of healing thermal injuries, but some level of CD47 expression may be required to limit the long term TGF-β1-dependent fibrosis of these wounds. [ABSTRACT FROM AUTHOR]

Published

2014

11. Revisiting the matricellular concept.

Author

Murphy-Ullrich, Joanne E. and Sage, E. Helene

Subjects

*THROMBOSPONDIN-1, *TENASCIN, *PHENOTYPES, *EXTRACELLULAR matrix proteins, *REGENERATIVE medicine, *LOW density lipoprotein receptor-related proteins, *PIGMENT epithelium-derived factor

Abstract

The concept of a matricellular protein was first proposed by Paul Bornstein in the mid-1990s to account for the non-lethal phenotypes of mice with inactivated genes encoding thrombospondin-1, tenascin-C, or SPARC. It was also recognized that these extracellular matrix proteins were primarily counter or de-adhesive. This review reappraises the matricellular concept after nearly two decades of continuous investigation. The expanded matricellular family as well as the diverse and often unexpected functions, cellular location, and interacting partners/receptors of matricellular proteins are considered. Development of therapeutic strategies that target matricellular proteins are discussed in the context of pathology and regenerative medicine. [ABSTRACT FROM AUTHOR]

Published

2014

12. Thrombospondin-1 and CD47 regulation of cardiac, pulmonary and vascular responses in health and disease.

Author

Rogers, Natasha M., Sharifi-Sanjani, Maryam, Csányi, Gábor, Pagano, Patrick J., and Isenberg, Jeffrey S.

Subjects

*THROMBOSPONDIN-1, *CD47 antigen, *HOMEOSTASIS, *CARDIOVASCULAR diseases, *BLOOD flow, *VASCULAR smooth muscle contraction, *CELLULAR signal transduction

Abstract

Cardiovascular homeostasis and health is maintained through the balanced interactions of cardiac generated blood flow and cross-talk between the cellular components that comprise blood vessels. Central to this cross-talk is endothelial generated nitric oxide (NO) that stimulates relaxation of the contractile vascular smooth muscle (VSMC) layer of blood vessels. In cardiovascular disease this balanced interaction is disrupted and NO signaling is lost. Work over the last several years indicates that regulation of NO is much more complex than previously believed. It is now apparent that the secreted protein thrombospondin-1 (TSP1), that is upregulated in cardiovascular disease and animal models of the same, on activating cell surface receptor CD47, redundantly inhibits NO production and NO signaling. This inhibitory event has implications for baseline and disease-related responses mediated by NO. Further work has identified that TSP1-CD47 signaling stimulates enzymatic reactive oxygen species (ROS) production to further limit blood flow and promote vascular disease. Herein consideration is given to the most recent discoveries in this regard which identify the TSP1-CD47 axis as a major proximate governor of cardiovascular health. [ABSTRACT FROM AUTHOR]

Published

2014

13. Current understanding of the thrombospondin-1 interactome.

Author

Resovi, Andrea, Pinessi, Denise, Chiorino, Giovanna, and Taraboletti, Giulia

Subjects

*THROMBOSPONDINS, *LIGANDS (Biochemistry), *EXTRACELLULAR matrix proteins, *CELL receptors, *CYTOKINES, *PROTEOLYTIC enzymes, *PROTEIN-protein interactions

Abstract

The multifaceted action of thrombospondin-1 (TSP-1) depends on its ability to physically interact with different ligands, including structural components of the extracellular matrix, other matricellular proteins, cell receptors, growth factors, cytokines and proteases. Through this network, TSP-1 regulates the ligand activity, availability and structure, ultimately tuning the cell response to environmental stimuli in a context-dependent manner, contributing to physiological and pathological processes. Complete mapping of the TSP-1 interactome is needed to understand its diverse functions and to lay the basis for the rational design of TSP-1-based therapeutic approaches. So far, large-scale approaches to identify TSP-1 ligands have been rarely used, but many interactions have been identified in small-scale studies in defined biological systems. This review, based on information from protein interaction databases and the literature, illustrates current knowledge of the TSP-1 interactome map. [ABSTRACT FROM AUTHOR]

Published

2014

14. CD47-dependent immunomodulatory and angiogenic activities of extracellular vesicles produced by T cells.

Author

Kaur, Sukhbir, Singh, Satya P., Elkahloun, Abdel G., Wu, Weiwei, Abu-Asab, Mones S., and Roberts, David D.

Subjects

*CD47 antigen, *IMMUNOLOGICAL adjuvants, *NEOVASCULARIZATION, *VESICLES (Cytology), *T cells, *CELL communication, *VASCULAR endothelial cells

Abstract

Intercellular communication is critical for integrating complex signals in multicellular eukaryotes. Vascular endothelial cells and T lymphocytes closely interact during the recirculation and trans-endothelial migration of T cells. In addition to direct cell–cell contact, we show that T cell derived extracellular vesicles can interact with endothelial cells and modulate their cellular functions. Thrombospondin-1 and its receptor CD47 are expressed on exosomes/ectosomes derived from T cells, and these extracellular vesicles are internalized and modulate signaling in both T cells and endothelial cells. Extracellular vesicles released from cells expressing or lacking CD47 differentially regulate activation of T cells induced by engaging the T cell receptor. Similarly, T cell-derived extracellular vesicles modulate endothelial cell responses to vascular endothelial growth factor and tube formation in a CD47-dependent manner. Uptake of T cell derived extracellular vesicles by recipient endothelial cells globally alters gene expression in a CD47-dependent manner. CD47 also regulates the mRNA content of extracellular vesicles in a manner consistent with some of the resulting alterations in target endothelial cell gene expression. Therefore, the thrombospondin-1 receptor CD47 directly or indirectly regulates intercellular communication mediated by the transfer of extracellular vesicles between vascular cells. [ABSTRACT FROM AUTHOR]

Published

2014

15. Thrombospondin-1 is a CD47-dependent endogenous inhibitor of hydrogen sulfide signaling in T cell activation.

Author

Miller, Thomas W., Kaur, Sukhbir, Ivins-O'Keefe, Kelly, and Roberts, David D.

Subjects

*THROMBOSPONDIN-1, *CD47 antigen, *ENZYME inhibitors, *HYDROGEN sulfide, *T cells, *CELLULAR signal transduction, *SUPPRESSOR cells

Abstract

Abstract: Thrombospondin-1 is a potent suppressor of T cell activation via its receptor CD47. However, the precise mechanism for this inhibition remains unclear. Because H2S is an endogenous potentiator of T cell activation and is necessary for full T cell activation, we hypothesized that thrombospondin-1 signaling through CD47 inhibits T cell activation by antagonizing H2S signaling. Primary T cells from thrombospondin-1 null mice were more sensitive to H2S-dependent activation assessed by proliferation and induction of interleukin-2 and CD69 mRNAs. Exogenous thrombospondin-1 inhibited H2S responses in wild type and thrombospondin-1 null T cells but enhanced the same responses in CD47 null T cells. Fibronectin, which shares integrin and glycosaminoglycan binding properties with thrombospondin-1 but not CD47 binding, did not inhibit H2S signaling. A CD47-binding peptide derived from thrombospondin-1 inhibited H2S-induced activation, whereas two other functional sequences from thrombospondin-1 enhanced H2S signaling. Therefore, engaging CD47 is necessary and sufficient for thrombospondin-1 to inhibit H2S-dependent T cell activation. H2S stimulated T cell activation by potentiating MEK-dependent ERK phosphorylation, and thrombospondin-1 inhibited this signaling in a CD47-dependent manner. Thrombospondin-1 also limited activation-dependent T cell expression of the H2S biosynthetic enzymes cystathionine β-synthase and cystathionine γ-lyase, thereby limiting the autocrine role of H2S in T cell activation. Thus, thrombospondin-1 signaling through CD47 is the first identified endogenous inhibitor of H2S signaling and constitutes a novel mechanism that negatively regulates T cell activation. [Copyright &y& Elsevier]

Published

2013

16. Thrombospondin-1 expression in melanoma is blocked by methylation and targeted reversal by 5-Aza-deoxycytidine suppresses angiogenesis.

Author

Lindner, Daniel J., Wu, Yan, Haney, Rebecca, Jacobs, Barbara S., Fruehauf, John P., Tuthill, Ralph, and Borden, Ernest C.

Subjects

*THROMBOSPONDIN-1, *MELANOMA, *METHYLATION, *DEOXYCYTIDINE, *NEOVASCULARIZATION inhibitors, *PHARMACOLOGY

Abstract

Abstract: Background: Reversibility of aberrant methylation via pharmacological means is an attractive target for therapies through epigenetic reprogramming. To establish that pharmacologic reversal of methylation could result in functional inhibition of angiogenesis, we undertook in vitro and in vivo studies of thrombospondin-1 (TSP1), a known inhibitor of angiogenesis. TSP1 is methylated in several malignancies, and can inhibit angiogenesis in melanoma xenografts. We analyzed effects of 5-Aza-deoxycytidine (5-Aza-dC) on melanoma cells in vitro to confirm reversal of promoter hypermethylation and restoration of TSP1 expression. We then investigated the effects of TSP1 expression on new blood vessel formation and tumor growth in vivo. Finally, to determine potential for clinical translation, the methylation status of TSP1 promoter regions of nevi and melanoma tissues was investigated. Results: 5-Aza-dC reduced DNA (cytosine-5)-methyltransferase 1 (DNMT1) protein, reversed promoter hypermethylation, and restored TSP1 expression in five melanoma cell lines, while having no effect on TSP1 protein levels in normal human melanocytes. In in vivo neovascularization studies, mice were implanted with melanoma cells (A375) either untreated or treated with 5Aza-dC. Vessels at tumor sites were counted by an observer blinded to treatments and the number of tumor vessels was significantly decreased at pretreated tumor sites. This difference occurred before a significant difference in tumor volumes was seen, yet in further studies the average tumor volume in mice treated in vivo with 5-Aza-dC was decreased by 55% compared to untreated controls. Knockdown of TSP1 expression with shRNA enhanced tumor-induced angiogenesis by 68%. Analyses of promoter methylation status of TSP1 in tumors derived from untreated and treated mice identified 67% of tumors from untreated and 17% of tumors from treated mice with partial methylation consistent with the methylation specific PCR analysis of A375 cells. Examination of methylation patterns in the promoter of TSP1 and comparison of aberrantly methylated TSP1 in melanoma with non-malignant nevi identified a significantly higher frequency of promoter methylation in tumor samples from melanoma patients. Conclusions: Pharmacological reversal of methylation silenced TSP1 had functional biological consequences in enhancing angiogenesis inhibition and inducing antitumor effects to decrease murine melanoma growth. Angiogenesis inhibition is an additional mechanism by which epigenetic modulators can have antitumor effects. [Copyright &y& Elsevier]

Published

2013

17. A disintegrin-like and metalloprotease domain containing thrombospondin type 1 motif-like 5 (ADAMTSL5) is a novel fibrillin-1-, fibrillin-2-, and heparin-binding member of the ADAMTS superfamily containing a netrin-like module

Author

Bader, Hannah L., Wang, Lauren W., Ho, Jason C., Tran, Thu, Holden, Paul, Fitzgerald, Jamie, Atit, Radhika P., Reinhardt, Dieter P., and Apte, Suneel S.

Subjects

*DISINTEGRINS, *METALLOPROTEINASES, *THROMBOSPONDIN-1, *FIBRILLIN, *HEPARIN, *BINDING agents, *NETRINS, *GLYCOPROTEINS

Abstract

Abstract: ADAMTS-like proteins are related to ADAMTS metalloproteases by their similarity to ADAMTS ancillary domains. Here, we have characterized ADAMTSL5, a novel member of the superfamily with a unique modular organization that includes a single C-terminal netrin-like (NTR) module. Alternative splicing of ADAMTSL5 at its 5′ end generates two transcripts that encode different signal peptides, but the same mature protein. These transcripts differ in their translational efficiency. Recombinant ADAMTSL5 is a secreted, N-glycosylated 60kDa glycoprotein located in the subcellular matrix, on the cell-surface, and in the medium of transfected cells. RT-PCR and western blot analysis of adult mouse tissues showed broad expression. Western blot analysis suggested proteolytic release of the NTR module in transfected cells as well as in some mouse tissues. Immunostaining during mouse organogenesis identified ADAMTSL5 in musculoskeletal tissues such as skeletal muscle, cartilage and bone, as well as in many epithelia. Affinity-chromatography demonstrated heparin-binding of ADAMTSL5 through its NTR-module. Recombinant ADAMTSL5 bound to both fibrillin-1 and fibrillin-2, and co-localized with fibrillin microfibrils in the extracellular matrix of cultured fibroblasts, but without discernible effect on microfibril assembly. ADAMTSL5 is the first family member shown to bind both fibrillin-1 and fibrillin-2. Like other ADAMTS proteins implicated in microfibril biology through identification of human and animal mutations, ADAMTSL5 could have a role in modulating microfibril functions. [Copyright &y& Elsevier]

Published

2012

18. Adhesion-modulating/matricellular ECM protein families: A structural, functional and evolutionary appraisal

Author

Mosher, Deane F. and Adams, Josephine C.

Subjects

*EXTRACELLULAR matrix proteins, *THROMBOSPONDIN-1, *CYSTEINE, *GLYCOPROTEINS, *CELL membranes, *PROTEOLYTIC enzymes, *GROWTH factors

Abstract

Abstract: The thrombospondins are a family of secreted, oligomeric glycoproteins that interact with cell surfaces, multiple components of the extracellular matrix, growth factors and proteases. These interactions underlie complex roles in cell interactions and tissue homeostasis in animals. Thrombospondins have been grouped functionally with SPARCs, tenascins and CCN proteins as adhesion-modulating or matricellular components of the extracellular milieu. Although all these multi-domain proteins share various commonalities of domains, the grouping is not based on structural homologies. Instead, the terms emphasise the general observations that these proteins do not form large-scale ECM structures, yet act at cell surfaces and function in coordination with the structural ECM and associated extracellular proteins. The designation of adhesion-modulation thus depends on observed tissue and cell culture ECM distributions and on experimentally identified functional properties. To date, the evolutionary relationships of these proteins have not been critically compared: yet, knowledge of their evolutionary histories is clearly relevant to any consideration of functional similarities. In this article, we survey briefly the structural and functional knowledge of these protein families, consider the evolution of each family, and outline a perspective on their functional roles. [Copyright &y& Elsevier]

Published

2012

19. Thrombospondin1 in tissue repair and fibrosis: TGF-β-dependent and independent mechanisms

Author

Sweetwyne, Mariya T. and Murphy-Ullrich, Joanne E.

Subjects

*THROMBOSPONDIN-1, *FIBROSIS, *TRANSFORMING growth factors, *CALRETICULIN, *EPIDERMAL growth factor, *WOUND healing

Abstract

Abstract: Thrombospondin 1 (TSP1) plays major roles in both physiologic and pathologic tissue repair. TSP1 through its type 1 repeats is a known regulator of latent TGF-β activation and plays a role in wound healing and fibrosis. Binding of the TSP N-terminal domain to cell surface calreticulin in complex with LDL-receptor related protein 1 stimulates intermediate cell adhesion, cell migration, anoikis resistance, collagen expression and matrix deposition in an in vivo model of the foreign body response. There is also emerging evidence that TSP EGF-like repeats alter endothelial cell–cell interactions and stimulate epithelial migration through transactivation of EGF receptors. The mechanisms underlying these functions of TSP1 and the implications for physiologic and pathologic wound repair and fibrosis will be discussed. [Copyright &y& Elsevier]

Published

2012

20. The matricellular protein thrombospondin-1 globally regulates cardiovascular function and responses to stress via CD47

Author

Roberts, David D., Miller, Thomas W., Rogers, Natasha M., Yao, Mingyi, and Isenberg, Jeffrey S.

Subjects

*THROMBOSPONDIN-1, *EXTRACELLULAR matrix proteins, *CD47 antigen, *GROWTH factors, *LABORATORY mice, *NITRIC oxide

Abstract

Abstract: Matricellular proteins play diverse roles in modulating cell behavior by engaging specific cell surface receptors and interacting with extracellular matrix proteins, secreted enzymes, and growth factors. Studies of such interactions involving thrombospondin-1 have revealed several physiological functions and roles in the pathogenesis of injury responses and cancer, but the relatively mild phenotypes of mice lacking thrombospondin-1 suggested that thrombospondin-1 would not be a central player that could be exploited therapeutically. Recent research focusing on signaling through its receptor CD47, however, has uncovered more critical roles for thrombospondin-1 in acute regulation of cardiovascular dynamics, hemostasis, immunity, and mitochondrial homeostasis. Several of these functions are mediated by potent and redundant inhibition of the canonical nitric oxide pathway. Conversely, elevated tissue thrombospondin-1 levels in major chronic diseases of aging may account for the deficient nitric oxide signaling that characterizes these diseases, and experimental therapeutics targeting CD47 show promise for treating such chronic diseases as well as acute stress conditions that are associated with elevated thrombospondin-1 expression. [Copyright &y& Elsevier]

Published

2012

21. Thrombospondin-1 and CD47 regulate blood pressure and cardiac responses to vasoactive stress

Author

Isenberg, Jeff S., Qin, Yan, Maxhimer, Justin B., Sipes, John M., Despres, Daryl, Schnermann, Jurgen, Frazier, William A., and Roberts, David D.

Subjects

*REGULATION of blood pressure, *THROMBOSPONDINS, *HEART physiology, *PHYSIOLOGICAL stress, *LABORATORY mice, *NITRIC oxide, *CARDIAC output

Abstract

Abstract: Nitric oxide (NO) locally regulates vascular resistance and blood pressure by modulating blood vessel tone. Thrombospondin-1 signaling via its receptor CD47 locally limits the ability of NO to relax vascular smooth muscle cells and increase regional blood flow in ischemic tissues. To determine whether thrombospondin-1 plays a broader role in central cardiovascular physiology, we examined vasoactive stress responses in mice lacking thrombospondin-1 or CD47. Mice lacking thrombospondin-1 exhibit activity-associated increases in heart rate, central diastolic and mean arterial blood pressure and a constant decrease in pulse pressure. CD47-deficient mice have normal central pulse pressure but elevated resting peripheral blood pressure. Both null mice show exaggerated decreases in peripheral blood pressure and increased cardiac output and ejection fraction in response to NO. Autonomic blockade also induces exaggerated hypotensive responses in awake thrombospondin-1 null and CD47 null mice. Both null mice exhibit a greater hypotensive response to isoflurane, and autonomic blockage under isoflurane anesthesia leads to premature death of thrombospondin-1 null mice. Conversely, the hypertensive response to epinephrine is attenuated in thrombospondin-1 null mice. Thus, the matricellular protein thrombospondin-1 and its receptor CD47 serve as acute physiological regulators of blood pressure and exert a vasopressor activity to maintain global hemodynamics under stress. [Copyright &y& Elsevier]

Published

2009

22. Calcium indirectly regulates immunochemical reactivity and functional activities of the N-domain of thrombospondin-1

Author

Calzada, Maria J., Kuznetsova, Svetlana A., Sipes, John M., Rodrigues, Rui G., Cashel, Jo Anne, Annis, Douglas S., Mosher, Deane F., and Roberts, David D.

Subjects

*CONNECTIVE tissues, *BIOCHEMISTRY, *CELL adhesion, *EPITOPES

Abstract

Abstract: Conformational changes induced in thrombospondin-1 by removal of calcium regulate interactions with some ligands of its N-modules. Because calcium binds primarily to elements of the C-terminal signature domain of thrombospondin-1, which are distant from the N-modules, such regulation was unexpected. To clarify the mechanism for this regulation, we compared ligand binding to the N-modules of thrombospondin-1 in the full-length protein and recombinant trimeric thrombospondin-1 truncated prior to the signature domain. Three monoclonal antibodies were identified that recognize the N-modules, two of which exhibit calcium-dependent binding to native thrombospondin-1 but not to the truncated trimeric protein. These antibodies or calcium selectively modulate interactions of fibronectin, heparin, sulfatide, α3β1 integrin, tumor necrosis factor-α-stimulated gene-6 protein, and, to a lesser extent, α4β1 integrin with native thrombospondin-1 but not with the truncated protein. These results indicate connectivity between calcium binding sites in the C-terminal signature domain and the N-modules of thrombospondin-1 that regulates ligand binding and functional activities of the N-modules. [Copyright &y& Elsevier]

Published

2008

23. Endogenous thrombospondin-1 is not necessary for proliferation but is permissive for vascular smooth muscle cell responses to platelet-derived growth factor

Author

Isenberg, J. Scott, Calzada, Maria J., Zhou, Longen, Guo, Nenghua, Lawler, Jack, Wang, Xue-Qing, Frazier, William A., and Roberts, David D.

Subjects

*THROMBOSPONDINS, *GLYCOPROTEINS, *GROWTH factors, *CYTOKINES

Abstract

Abstract: We have reexamined the role of endogenous thrombospondin-1 (TSP1) in growth and motility of vascular smooth muscle cells (SMCs). Based on the ability of aortic-derived SMCs isolated from TSP1 null mice and grown in the absence of exogenous TSP1 to grow at comparable rates and to a slightly higher density than equivalent cells from wild-type mice, TSP1 is not necessary for their growth. Low concentrations of exogenous TSP1 stimulate growth of TSP1 null SMCs, but higher doses of TSP1 or its C-terminal domain are inhibitory. However, SMCs from TSP1 null mice are selectively deficient in chemotactic and proliferative responses to platelet-derived growth factor and in outgrowth in three-dimensional cultures. Recombinant portions of the N- and C-terminal domains of TSP1 stimulate SMC chemotaxis through different integrin receptors. Based on these data, the relative deficiency in SMC outgrowth during an ex vivo angiogenic response of muscle tissue from TSP1 null mice is probably due to restriction of platelet-derived growth factor dependent SMC migration and/or proliferation. [Copyright &y& Elsevier]

Published

2005

24. Opposite effects of thrombospondin-1 via CD36 and CD47 on homotypic aggregation of monocytic cells

Author

Yamauchi, Yasushi, Kuroki, Motomu, Imakiire, Takayuki, Uno, Koichi, Abe, Hironori, Beppu, Richiko, Yamashita, Yuichi, Kuroki, Masahide, and Shirakusa, Takayuki

Subjects

*EXTRACELLULAR matrix proteins, *CELL aggregation

Abstract

Thrombospondin-1 (TSP-1), an extracellular matrix protein, has a multimodular structure and each domain specifies a distinct biological function through interaction with a specific ligand. In this study we found that exogenously added TSP-1 inhibits phorbol myristate acetate (PMA)/LPS-induced homotypic aggregation of human monocytic U937 cells, whereas the 70-kDa fragment of TSP-1 generated by the proteolytic cleavage of the intact molecule promotes the homotypic aggregation. The aggregation was also inhibited by anti-CD47 mAb or the 4N1K peptide, of which sequence is derived from the CD47-binding site of TSP-1 and absent in the 70-kDa fragment. In contrast, the augmented cell aggregation by the 70-kDa fragment was hampered by anti-CD36 mAb or antibody against the CD36-binding site of TSP-1. The cell aggregation of U937 cells was completely blocked, even in the presence of the 70-kDa fragment, by mAb against leukocyte function associated antigen-1 (LFA-1) or intercellular adhesion molecule-1 (ICAM-1). We therefore propose that TSP-1 may regulate LFA-1/ICAM-1-mediated cell adhesion of monocytes/macrophages by either the inhibitory effect through CD47 or the promoting effect through CD36 depending on which domain/fragment is functional in a given biological setting. [Copyright &y& Elsevier]

Published

2002

25. CD47-dependent immunomodulatory and angiogenic activities of extracellular vesicles produced by T cells

Author

Weiwei Wu, Abdel G. Elkahloun, David D. Roberts, Mones Abu-Asab, Satya P. Singh, and Sukhbir Kaur

Subjects

T-Lymphocytes, T cell, Blotting, Western, CD47 Antigen, Cell Communication, Biology, Article, Thrombospondin 1, Jurkat Cells, Human Umbilical Vein Endothelial Cells, medicine, Humans, Immunologic Factors, Immunoprecipitation, Cytotoxic T cell, IL-2 receptor, CD47, Transport Vesicles, Molecular Biology, DNA Primers, Analysis of Variance, ZAP70, Angiogenesis Modulating Agents, Endothelial Cells, Biological Transport, Extracellular vesicles, Flow Cytometry, Microvesicles, Extracellular Matrix, Cell biology, Endothelial stem cell, Intercellular communication, medicine.anatomical_structure, Intracellular, Thrombospondin-1

Abstract

Intercellular communication is critical for integrating complex signals in multicellular eukaryotes. Vascular endothelial cells and T lymphocytes closely interact during the recirculation and trans-endothelial migration of T cells. In addition to direct cell-cell contact, we show that T cell derived extracellular vesicles can interact with endothelial cells and modulate their cellular functions. Thrombospondin-1 and its receptor CD47 are expressed on exosomes/ectosomes derived from T cells, and these extracellular vesicles are internalized and modulate signaling in both T cells and endothelial cells. Extracellular vesicles released from cells expressing or lacking CD47 differentially regulate activation of T cells induced by engaging the T cell receptor. Similarly, T cell-derived extracellular vesicles modulate endothelial cell responses to vascular endothelial growth factor and tube formation in a CD47-dependent manner. Uptake of T cell derived extracellular vesicles by recipient endothelial cells globally alters gene expression in a CD47-dependent manner. CD47 also regulates the mRNA content of extracellular vesicles in a manner consistent with some of the resulting alterations in target endothelial cell gene expression. Therefore, the thrombospondin-1 receptor CD47 directly or indirectly regulates intercellular communication mediated by the transfer of extracellular vesicles between vascular cells.

Published

2014

26. Thrombospondin-1 and CD47 signaling regulate healing of thermal injury in mice

Author

Hubert B. Shih, Justin B. Maxhimer, Katherine L. Cook, David D. Roberts, Arunima Ghosh, David R. Soto-Pantoja, and Jeffrey S. Isenberg

Subjects

Pathology, medicine.medical_specialty, CD47 Antigen, Smad2 Protein, Real-Time Polymerase Chain Reaction, Article, Morpholinos, Thrombospondin 1, Transforming Growth Factor beta1, Mice, Fibrosis, TGF-β1, Laser-Doppler Flowmetry, medicine, Animals, Smad3 Protein, Phosphorylation, CD47, Receptor, Molecular Biology, Transcription factor, Skin, Wound Healing, Thermal injury, business.industry, Soft tissue, medicine.disease, Immunohistochemistry, Mice, Inbred C57BL, Collagen, Burns, business, Wound healing, Thrombospondin-1, Signal Transduction

Abstract

More than 2.5 million Americans suffer from burn injuries annually, and burn management is a major public health problem. Treatments have been developed to manage wound injuries employing skin grafts, various dressings and topical and systemic agents. However, these often achieve limited degrees of success. We previously reported that targeting the interaction of thrombospondin-1 with its signaling receptor CD47 or deletion of the genes encoding either of these proteins in mice improves recovery from soft tissue ischemic injuries as well as tissue injuries caused by ionizing radiation. We now demonstrate that the absence of CD47 improves the rate of wound closure for a focal dermal second-degree thermal injury, whereas lack of thrombospondin-1 initially delays wound closure compared to healing in wild type mice. Doppler analysis of the wounded area showed increased blood flow in both CD47 and thrombospondin-1 null mice. Accelerated wound closure in the CD47 null mice was associated with increased fibrosis as demonstrated by a 4-fold increase in collagen fraction. Wound tissue of CD47 null mice showed increased thrombospondin-1 mRNA and protein expression and TGF-β1 mRNA levels. Activation of latent TGF-β1 was increased in thermally injured CD47-null tissue as assessed by phosphor-ylation of the TGF-β1 receptor-regulated transcription factors SMAD-2 and -3. Overall these results indicate that targeting CD47 may improve the speed of healing thermal injuries, but some level of CD47 expression may be required to limit the long term TGF-β1-dependent fibrosis of these wounds.

Published

2014