Karoline Fechter scite author profile

Although mesenchymal stromal cells (MSCs) possess the capacity to modulate immune responses, little is known about the mechanisms that underpin these processes. In this study, we show that immunosupression is mediated by activation of nuclear factor kappa B (NF-κB) in human MSCs. This pathway is activated by TNF-α that is generated following TCR stimulation of T cells. Inhibition of NF-κB through silencing of IκB kinase β or the TNF-α receptor abolishes the immunosuppressive capacity of MSCs. Our data also indicate that MSC-associated NF-κB activation primarily leads to inhibition of T-cell proliferation with little effect on expression of the activation markers CD69 and CD25. Thus, our data support the hypothesis that the TNF-α/NF-κB signalling pathway is required for the initial priming of immunosuppressive function in human MSCs. Interestingly, drugs that interfere with NF-κB activation significantly antagonise the immunoregulatory effect of MSCs, which could have important implications for immunosuppression regimens in the clinic. Keywords:Immunoregulation r MSC r NF-κB r TNF-α See accompanying Commentary by Pistoia and RaffaghelloAdditional supporting information may be found in the online version of this article at the publisher's web-site IntroductionMesenchymal stromal cells (MSCs) are multipotent progenitor cells that have the capacity to differentiate into multiple lineages. These cells are found in a variety of tissues during development, of which BM represents the most common source for research purposes. From a clinical perspective, MSCs are considered to Correspondence: Dr. César Trigueros e-mail: ctrigueros@inbiomed.org have a potential use in tissue repair for bone, cartilage and tendon. However, due to their immunomodulatory properties and their inclusion as a stromal component of the marrow microenvironment, MSCs are currently utilised in other therapeutic scenarios, such as those encountered in hematopoietic stem cell transplantation, GVH disease or chronic inflammatory diseases [1,2]. These characteristics, together with their low immunogenicity [1,2], have opened up promising new avenues of research for the use of MSCs not only in autologous but also in allogeneic settings.C 2013 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim www.eji-journal.eu Eur. J. Immunol. 2014. 44: 480-488 Immunomodulation 481 The immunomodulatory activity of MSCs, directed against a wide range of effector cells of both the innate and adaptive immune system, has been described. Communication between MSCs and immune cells, through cell-to-cell contact-dependent and/or contact-independent mechanisms, has been shown to lead to increased production of soluble immunomodulatory factors such as indoleamine 2,3-deoxigenase [3,4], prostaglandin E2 [5][6][7], iNOS [8], transforming growth factor β (TGF-β), hepatocyte growth factor [9], human lymphocytes Ag molecule 5 and IL-10 [10]. Thus, the picture is complex, as it is likely that multiple regulatory mechanisms exist without an obvious hierarchy of importance.The inflammatory e...

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Immune Regulatory Processes of the Tumor Microenvironment under Malignant Conditions

Pansy

Uhl

Krstić

et al. 2021

IJMS

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The tumor microenvironment (TME) is a critical regulator of tumor growth, progression, and metastasis. Since immune cells represent a large fraction of the TME, they play a key role in mediating pro- and anti-tumor immune responses. Immune escape, which suppresses anti-tumor immunity, enables tumor cells to maintain their proliferation and growth. Numerous mechanisms, which have been intensively studied in recent years, are involved in this process, and based on these findings, novel immunotherapies have been successfully developed. Here, we review the composition of the TME and the mechanisms by which immune evasive processes are regulated. In detail, we describe membrane-bound and soluble factors, their regulation, and their impact on immune cell activation in the TME. Furthermore, we give an overview of the tumor/antigen presentation and how it is influenced under malignant conditions. Finally, we summarize novel TME-targeting agents, which are already in clinical trials for different tumor entities.

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Human Mesenchymal Stromal Cell-Mediated Immunoregulation: Mechanisms of Action and Clinical Applications

Dorronsoro¹,

Fernández-Rueda²,

Fechter³

et al. 2013

Bone Marrow Research

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Mesenchymal stromal cells (MSCs) are multipotent cells found in connective tissues that can differentiate into bone, cartilage, and adipose tissue. Interestingly, they can regulate immune responses in a paracrine way and allogeneic MSCs do not elicit immune response. These properties have encouraged a number of clinical trials in a broad range of regenerative therapies. Although these trials were first focused on their differentiation properties, in the last years, the immunosuppressive features have gained most of the attention. In this review, we will summarize the up-to-date knowledge about the immunosuppressive mechanisms of MSCs in vivo and in vitro and the most promising approaches in clinical investigation.

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NR4A3 Suppresses Lymphomagenesis through Induction of Proapoptotic Genes

Deutsch

Rinner

Pichler

et al. 2017

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Nuclear orphan receptor NR4A1 exerts an essential tumor suppressor function in aggressive lymphomas. In this study, we investigated the hypothesized contribution of the related NR4A family member NR4A3 to lymphomagenesis. In aggressive lymphoma patients, low expression of NR4A3 was associated with poor survival. Ectopic expression or pharmacological activation of NR4A3 in lymphoma cell lines led to a significantly higher proportion of apoptotic cells. In a mouse NSG xenograft model of lymphoma (stably transduced SuDHL4 cells), NR4A3 expression abrogated tumor growth, compared with vector control and uninduced cells that formed massive tumors. Transcript analysis of four different aggressive lymphoma cell lines overexpressing either NR4A3 or NR4A1 revealed that apoptosis was driven similarly by induction of BAK, Puma, BIK, BIM, BID, and Trail. Overall, our results showed that NR4A3 possesses robust tumor suppressor functions of similar impact to NR4A1 in aggressive lymphomas. .

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Identification of the NF-κB inhibitor A20 as a key regulator for human adipogenesis

Dorronsoro¹,

Lang²,

Jakobsson³

et al. 2013

Cell Death Dis

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The zinc-finger protein A20 is a key player in the negative feedback regulation of the nuclear factor kappa-light-chain-enhancer of activated B-cell (NF-κB) pathway in response to multiple stimuli. Tumor necrosis factor alpha (TNFα), a cytokine with pleiotropic effects on cellular proliferation and differentiation, dramatically increases A20 expression in all tissues. As TNFα inhibits adipocyte differentiation, we have determined the contribution of A20 to the adipogenic capacity of human mesenchymal stromal cells (MSCs). Here we show that A20 is constitutively expressed in MSCs, which previously has been observed only in cells that are either tumor or immune cells (T/B lymphocytes). TNFα stimulation induced a rapid degradation of A20 protein mediated exclusively by the proteasome in MSCs and not by caspases. This degradation is concomitant to the induction of its own mRNA, which suggests that a tight regulation of NF-κB signaling in MSCs is fundamental. On one hand, we demonstrate that the knockdown of A20-mediated transcript dramatically decreases the adipogenic capacity of MSCs, which correlates with the phenotype observed in the presence of TNFα. On the other hand, A20 overexpression blocks NF-κB activation and drives to increased adipogenesis, even in the presence of TNFα treatment. In conclusion, our data demonstrate that the presence of A20 allows MSCs to differentiate into adipocytes by maintaining NF-κB signaling at a basal state.

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