Human mesenchymal stromal cells exert HGF dependent cytoprotective effects in a human relevant pre-clinical model of COPD

Kennelly, Helen; Mahon, Bernard P.; English, Karen

doi:10.1038/srep38207

Cited by 73 publications

(69 citation statements)

References 55 publications

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“…While recent years have seen progress in clarifying the manner by which MSC and macrophages interact, the underlying mechanisms behind the phenomena observed in inflammatory diseases are less clear. The current candidates for cell therapy (including MSC and MAPC) suppress inflammation effectively in murine models of inflammatory disease [4,7,13,41,[49][50][51][52]. Efficacy is linked to migration of MSC to target organs, suppression of T cell proliferation, induction of T reg , cytoprotection of damaged tissue and suppression of inflammation.…”

Section: Msc and Macrophages: Effects At Secondary Sitesmentioning

confidence: 99%

“…A role for PGE 2 has been demonstrated in MSC-and MAPC-mediated suppression of pathology in murine models of GVHD [53,54], while in murine models of colitis TSG-6 production is required for efficacy of BM-MSC [41]. Similarly, preclinical studies using MSC in pulmonary disorders have provided promising results [2,4,26,[55][56][57][58][59][60], with MSC therapy being associated with expansion of T reg , promotion of antiinflammatory macrophages, suppression of Th2-and Th17-associated cytokines and enhanced microbial clearance by macrophages in ARDS [45,48,61].…”

Section: Msc and Macrophages: Effects At Secondary Sitesmentioning

confidence: 99%

“…Both BM-MSC and AD-MSC administered intravenously and intratracheally have shown efficacy in a murine model of elastase-induced emphysema [4,59]. However, while BM-MSC and AD-MSC reduced the number of M1 macrophages in the lung, intratracheally administered MSC from either tissue source did not [59].…”

Section: Msc and Macrophages: Effects At Secondary Sitesmentioning

confidence: 99%

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The influence of macrophages on mesenchymal stromal cell therapy: passive or aggressive agents?

Carty

Mahon

English

2017

Clinical and Experimental Immunology

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SummaryMesenchymal stromal cells (MSC) have emerged as promising cell therapies for multiple conditions based on demonstrations of their potent immunomodulatory and regenerative capacities in models of inflammatory disease. Understanding the effects of MSC on T cells has dominated the majority of work carried out in this field to date; recently, however, a number of studies have shown that the therapeutic effect of MSC requires the presence of macrophages. It is timely to review the mechanisms and manner by which MSC modulate macrophage populations in order to design more effective MSC therapies and clinical studies. A complex crosstalk exists through which MSC and macrophages communicate, a communication that is not controlled exclusively by MSC. Here, we examine the evidence that suggests that MSC not only respond to inflammatory macrophages and adjust their secretome accordingly, but also that macrophages respond to encounters with MSC, creating a feedback loop which contributes to the immune regulation observed following MSC therapy. Future studies examining the effects of MSC on macrophages should consider the antagonistic role that macrophages play in this exchange.

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Section: Msc and Macrophages: Effects At Secondary Sitesmentioning

confidence: 99%

Section: Msc and Macrophages: Effects At Secondary Sitesmentioning

confidence: 99%

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The influence of macrophages on mesenchymal stromal cell therapy: passive or aggressive agents?

Carty

Mahon

English

2017

Clinical and Experimental Immunology

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“…Furthermore, human- derived BM-MSCs were recently shown to reduce alveolar damage in an elastase mouse model of emphysema (6 doses over 2 weeks [19]).…”

Section: Msc Treatment In Preclinical Models Of Emphysemamentioning

confidence: 99%

Mesenchymal Stromal Cells to Regenerate Emphysema: On the Horizon?

et al. 2018

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Mesenchymal stem or stromal cells (MSCs) are multipotent cells that play a pivotal role in various phases of lung development and lung homeostasis, and potentially also lung regeneration. MSCs do not only self-renew and differentiate into renew tissues, but also have anti-inflammatory and paracrine properties to reduce damage and to support tissue regeneration, constituting a promising cell-based treatment strategy for the repair of damaged alveolar tissue in emphysema. This review discusses the current state of the art regarding the potential of MSCs for the treatment of emphysema. The optimism regarding this treatment strategy is supported by promising results from animal models. Still, there are considerable challenges before effective stem cell treatment can be realized in emphysema patients. It is difficult to draw definitive conclusions from the available animal studies, as different models, dosage protocols, administration routes, and sources of MSCs have been used with different measures of effectiveness. Moreover, the regrowth potential of differentiated tissues and organs differs between species. Essential questions about MSC engraftment, retention, and survival have not been sufficiently addressed in a systematic manner. Few human studies have investigated MSC treatment for chronic obstructive pulmonary disease, demonstrating short-term safety but no convincing benefits on clinical outcomes. Possible explanations for the lack of beneficial effects on clinical outcomes could be the source (bone marrow), route, dosage, frequency of administration, and delivery (lack of a bioactive scaffold). This review will provide a comprehensive overview of the (pre)clinical studies on MSC effects in emphysema and discuss the current challenges regarding the optimal use of MSCs for cell-based therapies.

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“…Human bone marrow-derived (bm)MSCs reduced fibrosis as analysed by histological scoring of lung sections using the Ashcroft scale; apoptosis as measured by a reduction of DNA strand breaks; and inflammation as seen by a reduction of interleukin (IL)-1β, IL-6 and tumour necrosis factor (TNF)-α levels in an elastase-induced mouse model of COPD [10]. Interestingly, findings from our own laboratory indicate that the efficacy of bmMSCs in this model can be improved further if the cells are genetically modified to express the potent protease inhibitor α 1 -antitrypsin [37,38] (S. Geiger, unpublished data).…”

Section: Introductionmentioning

confidence: 99%

Cell therapy for lung disease

2017

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Besides cancer and cardiovascular diseases, lung disorders are a leading cause of morbidity and death worldwide. For many disease conditions no effective and curative treatment options are available. Cell therapies offer a novel therapeutic approach due to their inherent anti-inflammatory and anti-fibrotic properties. Mesenchymal stem/stromal cells (MSC) are the most studied cell product. Numerous preclinical studies demonstrate an improvement of disease-associated parameters after MSC administration in several lung disorders, including chronic obstructive pulmonary disease, acute respiratory distress syndrome and idiopathic pulmonary fibrosis. Furthermore, results from clinical studies using MSCs for the treatment of various lung diseases indicate that MSC treatment in these patients is safe. In this review we summarise the results of preclinical and clinical studies that indicate that MSCs are a promising therapeutic approach for the treatment of lung diseases. Nevertheless, further investigations are required.

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Human mesenchymal stromal cells exert HGF dependent cytoprotective effects in a human relevant pre-clinical model of COPD

Cited by 73 publications

References 55 publications

The influence of macrophages on mesenchymal stromal cell therapy: passive or aggressive agents?

The influence of macrophages on mesenchymal stromal cell therapy: passive or aggressive agents?

Mesenchymal Stromal Cells to Regenerate Emphysema: On the Horizon?

Cell therapy for lung disease

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