Modulation of Human Mesenchymal Stem Cell Immunogenicity through Forced Expression of Human Cytomegalovirus US Proteins

Soland, Melisa; Bego, Mariana G.; Colletti, Evan; Porada, Christopher D.; Zanjani, Esmail D.; Jeor, Stephen St.; Almeida-Porada, Graça

doi:10.1371/journal.pone.0036163

Cited by 36 publications

(34 citation statements)

References 63 publications

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“…However, the mechanism of hMSC evasion from NK cells was not fully elucidated. These engineered hMSCs, after injection into the liver of pre-immune fetal sheep, were less susceptible to NK cell–mediated lysis and had a 1.8-fold increase in engraftment (in terms of percent of donor cells found in the liver 66 days after injection) compared to unmodified hMSCs 94 . Whether these virus-inspired strategies will prevent immune memory in a fully immune-competent host or enhance the therapeutic effect of MSCs in disease models remains to be determined.…”

Section: Strategies To Prolong Msc Persistencementioning

confidence: 99%

“…However MSC immune evasion was achieved only after NK cell depletion, as the lack of MHC class I expression made hMSCs susceptible to ‘missing self ’ NK cell-mediated lysis 93 . Soland et al also infected hMSCs with immunoevasins from HCMV 94 (US2, US3, US6 or US11). Expression of either US6 or US11 resulted in significant suppression of MHC class I surface expression, and facilitated hMSC evasion of recognition by cytotoxic lymphocytes.…”

Section: Strategies To Prolong Msc Persistencementioning

confidence: 99%

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Mesenchymal stem cells: immune evasive, not immune privileged

2014

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The diverse immunomodulatory properties of mesenchymal stem/stromal cells (MSCs) may be exploited for treatment of a multitude of inflammatory conditions. MSCs have long been reported to be hypoimmunogenic or ‘immune privileged’; this property is thought to enable MSC transplantation across major histocompatibility barriers and the creation of off-the-shelf therapies consisting of MSCs grown in culture. However, recent studies describing generation of antibodies against and immune rejection of allogeneic donor MSCs suggest that MSCs may not actually be immune privileged. Nevertheless, whether rejection of donor MSCs influences the efficacy of allogeneic MSC therapies is not known, and no definitive clinical advantage of autologous MSCs over allogeneic MSCs has been demonstrated to date. Although MSCs may exert therapeutic function through a brief ‘hit and run’ mechanism, protecting MSCs from immune detection and prolonging their persistence in vivo may improve clinical outcomes and prevent patient sensitization toward donor antigens.

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Section: Strategies To Prolong Msc Persistencementioning

confidence: 99%

Section: Strategies To Prolong Msc Persistencementioning

confidence: 99%

Mesenchymal stem cells: immune evasive, not immune privileged

2014

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“…In addition, since MSC, despite their immunomodulatory properties, can still be a target of activated NK 14-16 and cytotoxic T cells, 15 it is possible that overexpression of HLA-G1 could lead to increased survival of MSC after infusion. 17 Therefore, here we investigated which gene transfer system is best suited for delivering this molecule while maintaining its immunomodulatory effect by performing a side-by-side comparison between a lentiviral vector (Lv-HLA-G1), a murine retroviral vector (Rv-HLA-G1), and three nonviral plasmid constructs including a conventional plasmid (pmax-HLA-G1), a minicircle (MC-HLA-G1), and an episomal plasmid (pEP-HLAG1).…”

Section: Introductionmentioning

confidence: 99%

Evaluation of gene delivery strategies to efficiently overexpress functional HLA-G on human bone marrow stromal cells

Boura¹,

Vance

Yin

et al. 2014

Molecular Therapy - Methods & Clinical Development

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Mesenchymal stromal cells (MSC) constitutively express low levels of human leukocyte antigen-G (HLA-G), which has been shown to contribute to their immunomodulatory and anti-inflammatory properties. Here, we hypothesized that overexpression of HLA-G on bone marrow-derived MSC would improve their immunomodulatory function, thus increasing their therapeutic potential. Therefore, we investigated which gene transfer system is best suited for delivering this molecule while maintaining its immuno-modulatory effects. We performed a side-by-side comparison between three nonviral plasmid-based platforms (pmax-HLA-G1; MC-HLA-G1; pEP-HLA-G1) and a viral system (Lv-HLA-G1) using gene transfer parameters that yielded similar levels of HLA-G1-expressing MSC. Natural killer (NK) cell-mediated lysis assays and T cell proliferation assays showed that MSC modified with the HLA-G1 expressing viral vector had significantly lower susceptibility to NK-lysis and significantly reduced T cell proliferation when compared to nonmodified cells or MSC modified with plasmid. We also show that, in plasmid-modified MSC, an increase in Toll-like receptor (TLR)9 expression is the mechanism responsible for the abrogation of HLA-G1’s immunomodulatory effect. Although MSC can be efficiently modified to overexpress HLA-G1 using viral and nonviral strategies, only viral-based delivery of HLA-G1 is suitable for improvement of MSC’s immunomodulatory properties.

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“…Furthermore, HCMV has been shown to up-regulate the host-encoded CD55 and CD46 after infection of human fibroblasts [15]. We and others have previously shown that genetically engineering mesenchymal, and other cell populations, with retroviral vectors encoding HCMV proteins US2, US3, US6, and US11 down-modulated HLA-I expression [16], [17], [18], leading to a decrease in allogeneic cytotoxic T lymphocyte (CTL) activation and natural killer cell (NK) killing [19]. In this study, we investigated the role of the HCMV US proteins US2, 3, 6 and 11 in protecting MSC from complement lysis, and demonstrated that different US proteins up-regulate the expression of complement regulatory proteins at different levels, but that overexpression of US2 protein on MSC enhanced the production of all of the complement regulatory molecules expressed on these cells.…”

Section: Introductionmentioning

confidence: 99%

Mesenchymal Stem Cells Engineered to Inhibit Complement-Mediated Damage

et al. 2013

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Mesenchymal stem cells (MSC) preferentially migrate to damaged tissues and, due to their immunomodulatory and trophic properties, contribute to tissue repair. Although MSC express molecules, such as membrane cofactor protein (CD46), complement decay-accelerating factor (CD55), and protectin (CD59), which confer protection from complement-mediated lysis, MSC are recruited and activated by anaphylatoxins after transplantation, potentially causing MSC death and limiting therapeutic benefit. We have previously demonstrated that transduction of MSC with a retrovirus encoding HCMV-US proteins resulted in higher levels of MSC engraftment due to decreased HLA-I expression. Here, we investigate whether engineering MSC to express US2 (MSC-US2), US3 (MSC-US3), US6 (MSC-US6), or US11 (MSC-US11) HCMV proteins can alter complement recognition, thereby better protecting MSC from complement attack and lysis. HCMV-US proteins increased MSC CD59 expression at different levels as determined by flow cytometric evaluation of the median fluorescence intensity ratio (MFI). A significant increase in CD59 expression was seen in MSC-US2, MSC-US3, and MSC-US6, but not in MSC-US11. Only MSC-US2 displayed increased expression of CD46, while US2 and US3 proteins were both able to augment the percentage of MSC expressing this molecule. Regardless of the HCMV protein expressed, none changed CD55 MFI; however, expression of US6, US11, and US2 each increased the percentage of MSC that were positive for this molecule. Because US2 protein was the most efficient in up-regulating all three complement regulatory proteins, we used a functional complement-mediated cytotoxicity assay to investigate whether MSC-US2 were protected from complement-mediated lysis. We demonstrated that over-expression of the US2 protein reduced complement lysis by 59.10±12.89% when compared to untransduced MSC. This is the first report, to our knowledge, describing a role of HCMV-US proteins in complement evasion, and our data shows that over-expression of US2 protein on MSC could serve as a strategy to protect these cells from complement lysis.

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Modulation of Human Mesenchymal Stem Cell Immunogenicity through Forced Expression of Human Cytomegalovirus US Proteins

Cited by 36 publications

References 63 publications

Mesenchymal stem cells: immune evasive, not immune privileged

Mesenchymal stem cells: immune evasive, not immune privileged

Evaluation of gene delivery strategies to efficiently overexpress functional HLA-G on human bone marrow stromal cells

Mesenchymal Stem Cells Engineered to Inhibit Complement-Mediated Damage

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