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4. Mesenchymal Stem Cells in Solid Organ Transplantation (MiSOT) Fourth Meeting

Author

Franquesa, M., Hoogduijn, M.J., Reinders, M.E., Eggenhofer, E., Engela, A.U., Mensah, F.K., Torras, J., Pileggi, A., Kooten, C. van, Mahon, B., Detry, O., Popp, F.C., Benseler, V., Casiraghi, F., Johnson, C., Ancans, J., Fillenberg, B., delaRosa, O., Aran, J.M., Roemeling-vanRhijn, M., Pinxteren, J., Perico, N., Gotti, E., Christ, B., Reading, J., Introna, M., Deans, R., Shagidulin, M., Farre, R., Rambaldi, A., Sanchez-Fueyo, A., Obermajer, N., Pulin, A., Dor, F.J.M.F., Portero-Sanchez, I., Baan, C.C., Rabelink, T.J., Remuzzi, G., Betjes, M.G.H., Dahlke, M.H., Grinyo, J.M., MiSOT Study Grp, Internal Medicine, and Surgery

Subjects
Oncology, medicine.medical_specialty, Transplantation, Future studies, business.industry, Mesenchymal stem cell, Clinical settings, Preclinical data, Clinical trial, Immunomodulation, Internal medicine, Immunology, medicine, Position paper, Mesenchymal stem cells, Solid organ transplantation, business
Abstract

The Fourth Expert Meeting of the Mesenchymal Stem Cells in Solid Organ Transplantation (MiSOT) Consortium took place in Barcelona on October 19 and 20, 2012. This meeting focused on the translation of preclinical data into early clinical settings. This position paper highlights the main topics explored on the safety and efficacy of mesenchymal stem cells as a therapeutic agent in solid organ transplantation and emphasizes the issues (proper timing, concomitant immunossupression, source and immunogenicity of mesenchymal stem cells, and oncogenicity) that have been addressed and will be followed up by the MiSOT Consortium in future studies.

Published
2013
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7. Mutual interactions between Multipotent Adult Progenitor Cells (Multistem® Cells) and macrophages

Author

Ravanidis, Stelios, Donders, Raf, Bogie, Jeroen F. J., Craeye, D., Gijbels, K., Pinxteren, J., and Hellings, Niels

Abstract

Question: Multiple sclerosis (MS) is a chronic, inflammatory, demyelinating disease of the central nervous system (CNS) in which infiltrated macrophages and microglia are thought to be the primary effector cells. Effector mechanisms of activated macrophages and microglia include the phagocytosis of myelin, secretion of inflammatory and toxic mediators, such as reactive oxygen and nitrogen species, which affect axonal and myelin integrity. Therapeutic strategies to modulate myeloid cell mediated neuroinflammation are currently explored. Among other approaches stem cell based strategies are under investigation. Multistem® (rMS) is a clinical product of cells isolated under Multipotent Adult Progenitor Cells (MAPCs) culture conditions. So far MAPCs and rMS cells have been used in several experimental approaches such as experimental stroke, traumatic brain injury and several others neuro-inflammatory diseases with promising results. In a model of spinal cord injury it was shown that MAPCs can shift macrophages from a proinflammatory M1 to the anti-inflammatory M2 (alternatively activated) phenotype. Mesenchymal stem cells including rMS seem to be more potent in secreting immunomodulatory molecules such as inducible nitric oxide synthase (iNOS) and cyclooxygenase-2 (COX-2) following licensing with pro-inflammatory cytokines. In this project, we aim to explore the mutual interactions between macrophages and rMS cells in vitro in terms of down regulation of macrophage functions relevant for MS disease promotion. Methods: rMS cells derived from Lewis rat and provided by ReGenesys BVBA (Heverlee, Belgium) were seeded in macrophage medium for 24 hours to obtain conditioned media. rMS were seeded in two different conditions: either 50µl (CM50) or 100 µl (CM100). Serial dilutions of rMS conditioned medium were applied to the rat alveolar macrophage cell line NR8383. In each condition 100 ng/ml LPS was added to induce NO production. Cell contact mediated effects of rMS on NO production by NR8383 cells or primary macrophages (isolated from the peritoneum of naïve Lewis rats) were tested in co-culture experiments. Therefore, rMS cells were added in increasing ratios to NR8383 cells, ranging from 1:0.02 to 1:2. Finally, effects of supernatant derived from activated NR8383 cell on rMS NO production and gene expression was explored. Results: While rMS conditioned medium was able to down regulate LPS induced NO production by macrophages in a dose dependent manner, NO production was upregulated in the co-cultures set up. Supernatant of LPS activated NR8383 induced the production of NO by rMS as well as the upregulation of iNOS gene expression, explaining the upregulation in NO production observed in the co-culture set up. Finally,rMS following incubation withsupernatant of LPS activated NR8383 supernatant upregulates molecules such as COX-2, an enzyme responsible for the production of prostaglandin E2 (PGE-2). Conclusions: rMS conditioned medium is able to down regulate the production of NO which is a hallmark of classically activated macrophages. Additionally, macrophages can prime rMS in vitro to express molecules (eg. COX-2) which are involved in PGE-2 mediated mechanisms by which stem cells can modulate the activation of macrophages . Further experiments need to be performed to confirm possible modulation of macrophage phenotype and functionality in vivo as well.

Published
2013

8. Mesenchymal stem cells in solid organ transplantation (MiSOT) fourth meeting: Lessons learned from first clinical trials

Author

Franquesa, M. (Marcella), Hoogduijn, M.J. (Martin), Reinders, M.E. (Marlies), Eggenhofer, E. (Elke), Engela, A.U. (Anja), Mensah, F.K.F. (Fane ), Torras, J., Pileggi, A. (Antonello), Kooten, C. (Cees) van, Mahon, B. (Bernard), Detry, J-M.R. (Jean-Marie), Popp, F. (Felix), Benseler, V. (Volker), Casiraghi, F. (Federica), Johnson, C. (Claire), Ancans, J. (Janis), Fillenberg, B. (Barbara), Delarosa, O. (Olga), Aran, J.M. (Josep), Roemeling-Vanrhijn, M. (Marieke), Pinxteren, J. (Jef), Perico, N. (Norberto), Gotti, E. (Eliana), Christ, B. (Bruno), Reading, C.L. (Chris ), Introna, M. (Martino), Deans, R. (Robert), Shagidulin, M. (Murat), Farré, R. (Ramon), Rambaldi, A. (Alessandro), Sanchez-Fueyo, A. (Albert), Obermajer, N. (Natasha), Pulin, A. (Andrey), Dor, F.J.M.F. (Frank), Portero-Sanchez, I. (Isabel), Baan, C.C. (Carla), Rabelink, T.J. (Ton), Remuzzi, G. (Giuseppe), Betjes, M.G.H. (Michiel), Dahlke, M.H. (Marc), Grinyo, J. (Josep), Franquesa, M. (Marcella), Hoogduijn, M.J. (Martin), Reinders, M.E. (Marlies), Eggenhofer, E. (Elke), Engela, A.U. (Anja), Mensah, F.K.F. (Fane ), Torras, J., Pileggi, A. (Antonello), Kooten, C. (Cees) van, Mahon, B. (Bernard), Detry, J-M.R. (Jean-Marie), Popp, F. (Felix), Benseler, V. (Volker), Casiraghi, F. (Federica), Johnson, C. (Claire), Ancans, J. (Janis), Fillenberg, B. (Barbara), Delarosa, O. (Olga), Aran, J.M. (Josep), Roemeling-Vanrhijn, M. (Marieke), Pinxteren, J. (Jef), Perico, N. (Norberto), Gotti, E. (Eliana), Christ, B. (Bruno), Reading, C.L. (Chris ), Introna, M. (Martino), Deans, R. (Robert), Shagidulin, M. (Murat), Farré, R. (Ramon), Rambaldi, A. (Alessandro), Sanchez-Fueyo, A. (Albert), Obermajer, N. (Natasha), Pulin, A. (Andrey), Dor, F.J.M.F. (Frank), Portero-Sanchez, I. (Isabel), Baan, C.C. (Carla), Rabelink, T.J. (Ton), Remuzzi, G. (Giuseppe), Betjes, M.G.H. (Michiel), Dahlke, M.H. (Marc), and Grinyo, J. (Josep)

Abstract

The Fourth Expert Meeting of the Mesenchymal Stem Cells in Solid Organ Transplantation (MiSOT) Consortium took place in Barcelona on October 19 and 20, 2012. This meeting focused on the translation of preclinical data into early clinical settings. This position paper highlights the main topics explored on the safety and efficacy of mesenchymal stem cells as a therapeutic agent in solid organ transplantation and emphasizes the issues (proper timing, concomitant immunossupression, source and immunogenicity of mesenchymal stem cells, and oncogenicity) that have been addressed and will be followed up by the MiSOT Consortium in future studies.

Published
2013
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9. Heart grafts tolerized through third-party multipotent adult progenitor cells can be retransplanted to secondary hosts with no Immunosuppression

Author

Eggenhofer, E. (Elke), Popp, F. (Felix), Mendicino, A. (Angela), Silber, P. (Paula), Van'T Hof, W. (Wouter), Renner, P. (Philipp), Hoogduijn, M.J. (Martin), Pinxteren, J. (Jef), Rooijen, N. (Nico) van, Geissler, E.K. (Edward), Deans, R. (Robert), Schlitt, H.J. (Hans), Dahlke, M.H. (Marc), Eggenhofer, E. (Elke), Popp, F. (Felix), Mendicino, A. (Angela), Silber, P. (Paula), Van'T Hof, W. (Wouter), Renner, P. (Philipp), Hoogduijn, M.J. (Martin), Pinxteren, J. (Jef), Rooijen, N. (Nico) van, Geissler, E.K. (Edward), Deans, R. (Robert), Schlitt, H.J. (Hans), and Dahlke, M.H. (Marc)

Abstract

Multipotent adult progenitor cells (MAPCs) are an adherent stem cell population that belongs to the mesenchymal-type progenitor cell family. Although MAPCs are emerging as candidate agents for immunomodulation after solid organ transplantation, their value requires further validation in a clinically relevant cell therapy model using an organ donor- and organ recipient-independent, thirdparty cell product. We report that stable allograft survival can be achieved following third-party MAPC infusion in a rat model of fully allogeneic, heterotopic heart transplantation. Furthermore, long-term accepted heart grafts recovered from MAPC-treated animals can be successfully retransplanted to naïve animals without additional immunosuppression. This prolongation of MAPC-mediated allograft acceptance depends upon a myeloid cell population since depletion of macrophages by clodronate abrogates the tolerogenic MAPC effect. We also show that MAPC-mediated allograft acceptance differs mechanistically from drug

Published
2013
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10. Phosphatidylinositol transfer proteins and protein kinase C make separate but non-interacting contributions to the phosphorylation state necessary for secretory competence in rat mast cells

Author

Pinxteren, J A, Gomperts, B D, Rogers, D, Phillips, S E, Tatham, P E, and Thomas, G M

Subjects
Male, Cell Membrane Permeability, Membrane Proteins, Glyceryl Ethers, Neomycin, Phosphatidylinositols, Cyclic AMP-Dependent Protein Kinases, Exocytosis, Rats, Rats, Sprague-Dawley, Adenosine Triphosphate, beta-Adrenergic Receptor Kinases, Animals, Mast Cells, Phospholipid Transfer Proteins, Phosphorylation, Carrier Proteins, Phospholipids, Protein Kinase C, Research Article
Abstract

Mast cells permeabilized by streptolysin O undergo exocytosis when stimulated with Ca(2+) and guanosine 5'-[gamma-thio]triphosphate but become progressively refractory to this stimulus if it is delayed. This run-down of responsiveness occurs over a period of 20-30 min, during which the cells leak soluble and tethered proteins. We show here that withdrawal of ATP during the process of run-down is strongly inhibitory but that as little as 25 microM ATP can extend responsiveness significantly; this effect is maximal at 50 microM. When phosphatidylinositol transfer proteins (PITPs) are provided to cells at the time of permeabilization, run-down is retarded. We conclude that in the presence of ATP they convey substrates for phosphorylation that are essential for exocytosis and thus interact with the regulatory machinery. Furthermore, we show that PITPalpha and PITPbeta have additive effects in this mechanism, suggesting that they are not functionally redundant. Alternatively, secretion from run-down cells can be inhibited by the aminoglycoside antibiotic neomycin, which is understood to bind to phosphoinositide headgroups, and by a PH (pleckstrin homology) domain polypeptide that binds phosphoinositides. The apparent displacement of neomycin by exogenous PITPs suggests that these proteins screen essential lipids. Secretion from run-down cells is also inhibited by 1-O-hexadecyl-2-O-methyl-rac-glycerol (AMG-C(16)), an inhibitor of protein kinase C. The lack of synergy between neomycin and AMG-C(16) suggests that protein kinase C independently provides a second essential component through protein phosphorylation and that there are two independent phosphorylation pathways necessary for secretion competence.

Published
2001

22. Delivering a cell therapy

Author

Giles T. S. Kirby, Liesbeth Vandenpoel, Robert D. Short, Jef Pinxteren, Andrew Michelmore, Kirby, G, Vandenpoel, L, Pinxteren, J, Short, Robert, and Michelmore, Andrew

Subjects
Cancer Research, Transplantation, Chemistry, Immunology, Cell Biology, oral abstract, Cell therapy, Oncology, chronic wounds, bandage, Cancer research, cells, Immunology and Allergy, cell therapy, Genetics (clinical)
Abstract

Background, Chronic wounds are a growing clinical burden on healthcare systems and with increasing incidences of obesity, diabetes and an aging population this problem is set to snowball. Chronic wounds present a hostile environment and unique challenges. Cell therapies may offer a solution with a range of cell based approaches beginning to cross the rift from bench-to-bedside. Supporting data suggests that the appropriate administration of stem cells can accelerate wound healing. The effectiveness of a therapy will depend not only on what we deliver but how we deliver it. Aims or Objectives, Our aim was to generate a method of delivering cells to wounds where injection may not be ideal. We achieved this by manufacturing a cell-laden bandage. This bandage was capable of supporting cell attachment without affecting phenotype. When placed onto a wound, the cells then leave this surface in preference for the wound Materials and Methods, Plasma polymerisation was used to generate a range of functional surfaces on candidate dressings. Coating conditions were varied and these surfaces were then tested with multipotent adult progenitor cells (MAPC). An in vitro transfer assay was used to determine the migration of viable cells from the patch onto a wound model. Results & Discussion, By varying surface treatments we were able to optimise a range of surfaces that supported the attachment of MAPC and subsequently allow these cells to leave in preference for a model wound bed. Conclusions, There is mounting evidence showing that cell therapies are effective in the treatment of chronic wounds. In order to promote clinical uptake of these new approaches, we need to make the use and delivery of cell therapies simple and effective. Our approach aims to create a simple bandage that is non-traumatic and easily applied at the bedside Refereed/Peer-reviewed

Published
2015
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23. Human Wharton's Jelly-Derived Stem Cells Display a Distinct Immunomodulatory and Proregenerative Transcriptional Signature Compared to Bone Marrow-Derived Stem Cells.

Author

Donders R, Bogie JFJ, Ravanidis S, Gervois P, Vanheusden M, Marée R, Schrynemackers M, Smeets HJM, Pinxteren J, Gijbels K, Walbers S, Mays RW, Deans R, Van Den Bosch L, Stinissen P, Lambrichts I, Gyselaers W, and Hellings N

Subjects
Bone Marrow Cells cytology, Cell Adhesion immunology, Cell Line, Tumor cytology, Gene Expression Profiling, Humans, Mesenchymal Stem Cells, Bone Marrow Cells immunology, Cell Line, Tumor immunology, Cell Proliferation physiology, Gene Expression Regulation immunology, Gene Ontology, Immunomodulation
Abstract

Mesenchymal stromal cells (MSCs) are multipotent stem cells with immunosuppressive and trophic support functions. While MSCs from different sources frequently display a similar appearance in culture, they often show differences in their surface marker and gene expression profiles. Although bone marrow is considered the "gold standard" tissue to isolate classical MSCs (BM-MSC), MSC-like cells are currently also derived from more easily accessible extra-embryonic tissues such as the umbilical cord. In this study, we defined the best way to isolate MSCs from the Wharton's jelly of the human umbilical cord (WJ-MSC) and assessed the mesenchymal and immunological phenotype of BM-MSC and WJ-MSC. Moreover, the gene expression profile of established WJ-MSC cultures was compared to two different bone marrow-derived stem cell populations (BM-MSC and multipotent adult progenitor cells or MAPC ® ). We observed that explant culturing of Wharton's jelly matrix is superior to collagenase tissue digestion for obtaining mesenchymal-like cells, with explant isolated cells displaying increased expansion potential. While being phenotypically similar to adult MSCs, WJ-MSC show a different gene expression profile. Gene ontology analysis revealed that genes associated with cell adhesion, proliferation, and immune system functioning are enriched in WJ-MSC. In vivo transplantation confirms their immune modulatory effect on T cells, similar to BM-MSC and MAPC. Furthermore, WJ-MSC intrinsically overexpress genes involved in neurotrophic support and their secretome induces neuronal maturation of SH-SY5Y neuroblastoma cells to a greater extent than BM-MSC. This signature makes WJ-MSC an attractive candidate for cell-based therapy in neurodegenerative and immune-mediated central nervous system disorders such as multiple sclerosis, Parkinson's disease, or amyotrophic lateral sclerosis.

Published
2018
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24. Development of Advanced Dressings for the Delivery of Progenitor Cells.

Author

Kirby GT, Mills SJ, Vandenpoel L, Pinxteren J, Ting A, Short RD, Cowin AJ, Michelmore A, and Smith LE

Subjects
Adult Stem Cells, Animals, Bandages, Cells, Cultured, Humans, Mice, Multipotent Stem Cells, Stem Cells
Abstract

Culture surfaces that substantially reduce the degree of cell manipulation in the delivery of cell sheets to patients are described. These surfaces support the attachment, culture, and delivery of multipotent adult progenitor cells (MAPC). It was essential that the processes of attachment/detachment to the surface did not affect cell phenotype nor the function of the cultured cells. Both acid-based and amine-based surface coatings were generated from acrylic acid, propanoic acid, diaminopropane, and heptylamine precursors, respectively. While both functional groups supported cell attachment/detachment, amine coated surfaces gave optimal performance. X-ray photoelectron spectroscopy (XPS) showed that at a primary amine to carbon surface ratio of between 0.01 and 0.02, greater than 90% of attached cells were effectively transferred to a model wound bed. A dependence on primary amine concentration has not previously been reported. After 48 h of culture on the optimized amine surface, PCR, functional, and viability assays showed that MAPC retained their stem cell phenotype, full metabolic activity, and biological function. Consequently, in a proof of concept experiment, it was shown that this amine surface when coated onto a surgical dressing provides an effective and simple technology for the delivery of MAPC to murine dorsal excisional wounds, with MAPC delivery verified histologically. By optimizing for cell delivery using a combination of in vitro and in vivo techniques, we developed an effective surface for the delivery of MAPC in a clinically relevant format.

Published
2017
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25. Crosstalk with Inflammatory Macrophages Shapes the Regulatory Properties of Multipotent Adult Progenitor Cells.

Author

Ravanidis S, Bogie JFJ, Donders R, Deans R, Hendriks JJA, Stinissen P, Pinxteren J, Mays RW, and Hellings N

Abstract

Macrophages and microglia are key effector cells in immune-mediated neuroinflammatory disorders. Driving myeloid cells towards an anti-inflammatory, tissue repair-promoting phenotype is considered a promising strategy to halt neuroinflammation and promote central nervous system (CNS) repair. In this study, we defined the impact of multipotent adult progenitor cells (MAPC), a stem cell population sharing common mesodermal origin with mesenchymal stem cells (MSCs), on the phenotype of macrophages and the reciprocal interactions between these two cell types. We show that MAPC suppress the secretion of tumor necrosis factor alpha (TNF- α ) by inflammatory macrophages partially through a cyclooxygenase 2- (COX-2-) dependent mechanism. In turn, we demonstrate that inflammatory macrophages trigger the immunomodulatory properties of MAPC, including an increased expression of immunomodulatory mediators (e.g., inducible nitric oxide synthase (iNOS) and COX-2), chemokines, and chemokine receptors. Macrophage-primed MAPC secrete soluble factors that suppress TNF- α release by macrophages. Moreover, the MAPC secretome suppresses the antigen-specific proliferation of autoreactive T cells and the T cell stimulatory capacity of macrophages. Finally, MAPC increase their motility towards secreted factors of activated macrophages. Collectively, these in vitro findings reveal intimate reciprocal interactions between MAPC and inflammatory macrophages, which are of importance in the design of MAPC-based therapeutic strategies for neuroinflammatory disorders in which myeloid cells play a crucial role.

Published
2017
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26. Clinical-Grade Human Multipotent Adult Progenitor Cells Block CD8+ Cytotoxic T Lymphocytes.

Author

Plessers J, Dekimpe E, Van Woensel M, Roobrouck VD, Bullens DM, Pinxteren J, Verfaillie CM, and Van Gool SW

Subjects
Adult, Adult Stem Cells metabolism, Antigens, CD metabolism, Antigens, Differentiation, T-Lymphocyte metabolism, Biomarkers metabolism, Cell Communication, Cell Proliferation, Cytotoxicity, Immunologic, Galectin 1 metabolism, Humans, Isoantigens metabolism, Lectins, C-Type metabolism, Lymphocyte Activation, Multipotent Stem Cells metabolism, Perforin metabolism, T-Lymphocytes, Cytotoxic metabolism, Adult Stem Cells cytology, Multipotent Stem Cells cytology, T-Lymphocytes, Cytotoxic cytology
Abstract

: MultiStem cells are clinical-grade multipotent adult bone marrow-derived progenitor cells (MAPCs), with extensive replication potential and broader differentiation capacity compared with mesenchymal stem cells. Human MAPCs suppress T-cell proliferation induced by alloantigens and mutually interact with allogeneic natural killer cells. In this study, the interaction between MultiStem and CD8 + cytotoxic T lymphocytes (CTLs) was addressed for the first time. In an in vitro setting, the immunogenicity of MultiStem, the susceptibility of MultiStem toward CTL-mediated lysis, and its effects on CTL function were investigated. MultiStem was nonimmunogenic for alloreactive CTL induction and was-even after major histocompatibility complex class I upregulation-insensitive to alloantigen-specific CTL-mediated lysis. Furthermore, MultiStem reduced CTL proliferation and significantly decreased perforin expression during the T-cell activation phase. As a consequence, MultiStem dose-dependently impaired the induction of CTL function. These effects of MultiStem were mediated predominantly through contact-dependent mechanisms. Moreover, MultiStem cells considerably influenced the expression of T-cell activation markers CD25, CD69, and human leukocyte antigen-DR. The MultiStem-induced CD8 - CD69 + T-cell population displayed a suppressive effect on the induction of CTL function during a subsequent mixed-lymphocyte culture. Finally, the killer activity of activated antigen-specific CTLs during their cytolytic effector phase was also diminished in the presence of MultiStem. This study confirms that these clinical-grade MAPCs are an immune-modulating population that inhibits CTL activation and effector responses and are, consequently, a highly valuable cell population for adoptive immunosuppressive therapy in diseases where damage is induced by CTLs., Significance: Because multipotent adult progenitor cells (MAPCs) are among the noteworthy adult mesenchymal stem cell populations for immune therapy and have the advantage over mesenchymal stem cells (MSCs) of large-scale manufacturing and banking potential and thus prompt availability, it is important to understand how MAPCs interact with immune cells to validate their widespread therapeutic applicability. Cytotoxic immune effector cells play a crucial role in immune homeostasis and in the pathogenesis of some autoimmune diseases. This study assessed for the first time the in vitro influence of a clinical-grade human MAPC product (MultiStem) on the cytotoxic function of CD8 + T cells (CTLs) by evaluating the immunogenicity of MAPCs and the susceptibility of MAPCs toward CTL-mediated lysis and by analyzing the mechanism of MAPC-mediated modulation of CTL functionality. These results may represent a highly relevant contribution to the current knowledge and, in combination with the results of future phase II/III trials using MultiStem, could lead to an intriguing continuation of stem cell-based research for immunotherapy., (©AlphaMed Press.)

Published
2016
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27. Using miRNA-mRNA Interaction Analysis to Link Biologically Relevant miRNAs to Stem Cell Identity Testing for Next-Generation Culturing Development.

Author

Crabbé MA, Gijbels K, Visser A, Craeye D, Walbers S, Pinxteren J, Deans RJ, Annaert W, and Vaes BL

Subjects
Bone Marrow Cells metabolism, Cell Differentiation genetics, Gene Expression Profiling, Humans, Mesenchymal Stem Cells cytology, MicroRNAs metabolism, RNA, Messenger metabolism, Mesenchymal Stem Cells metabolism, MicroRNAs genetics, RNA, Messenger genetics
Abstract

Unlabelled: Therapeutic benefit of stem cells has been demonstrated in multiple disease models and clinical trials. Robust quality assurance is imperative to make advancements in culturing procedures to enable large-scale cell manufacturing without hampering therapeutic potency. MicroRNAs (miRNAs or miRs) are shown to be master regulators of biological processes and are potentially ideal quality markers. We determined miRNA markers differentially expressed under nonclinical multipotent adult progenitor cell (MAPC) and mesenchymal stem cell (MSC) culturing conditions that regulate important stem cell features, such as proliferation and differentiation. These bone marrow-derived stem cell types were selected because they both exert therapeutic functions, but have different proliferative and regenerative capacities. To determine cell-specific marker miRNAs and assess their effects on stem cell qualities, a miRNA and mRNA profiling was performed on MAPCs and MSCs isolated from three shared donors. We applied an Ingenuity Pathway Analysis-based strategy that combined an integrated RNA profile analysis and a biological function analysis to determine the effects of miRNA-mRNA interactions on phenotype. This resulted in the identification of important miRNA markers linked to cell-cycle regulation and development, the most distinctive being MAPC marker miR-204-5p and MSC marker miR-335-5p, for which we provide in vitro validation of its function in differentiation and cell cycle regulation, respectively. Importantly, marker expression is maintained under xeno-free conditions and during bioreactor isolation and expansion of MAPC cultures. In conclusion, the identified biologically relevant miRNA markers can be used to monitor stem cell stability when implementing variations in culturing procedures., Significance: Human adult marrow stromal stem cells have shown great potential in addressing unmet health care needs. Quality assurance is imperative to make advancements in large-scale manufacturing procedures. MicroRNAs are master regulators of biological processes and potentially ideal quality markers. MicroRNA and mRNA profiling data of two human adult stem cell types were correlated to biological functions in silico. Doing this provided evidence that differentially expressed microRNAs are involved in regulating specific stem cell features. Furthermore, expression of a selected microRNA panel was maintained in next-generation culturing platforms, demonstrating the robustness of microRNA profiling in stem cell comparability testing., (©AlphaMed Press.)

Published
2016
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28. Solution-Phase Crosstalk and Regulatory Interactions Between Multipotent Adult Progenitor Cells and Peripheral Blood Mononuclear Cells.

Author

Burrows GG, Van't Hof W, Reddy AP, Wilmarth PA, David LL, Raber A, Bogaerts A, Timmerman L, Pinxteren J, Roobrouck VD, Deans RJ, and Maziarz RT

Subjects
Adult, Adult Stem Cells cytology, Coculture Techniques, Female, Humans, Leukocytes, Mononuclear cytology, Male, Multipotent Stem Cells cytology, Adult Stem Cells metabolism, Cell Communication, Gene Expression Regulation, Leukocytes, Mononuclear metabolism, Multipotent Stem Cells metabolism
Abstract

Unlabelled: Multipotent adult progenitor cells (MAPCs) are adult adherent stromal stem cells currently being assessed in clinical trials for acute graft versus host disease with demonstrated immunomodulatory capabilities and the potential to ameliorate detrimental autoimmune and inflammation-related processes. Anti-CD3/anti-CD28 (3/28) activation of T cells within the peripheral blood mononuclear cell (PBMC) compartment was performed in the presence or absence of MAPCs. Liquid chromatography-coupled tandem mass spectrometry was used to characterize the differential secretion of proteins, and transcriptional profiling was used to monitor mRNA expression changes in both cell populations. Overall, 239 secreted and/or ectodomain-shed proteins were detected in the secretomes of PBMCs and MAPCs. In addition, 3/28 activation of PBMCs induced differential expression of 2,925 genes, and 22% of these transcripts were differentially expressed on exposure to MAPCs in Transwell. MAPCs exposed to 3/28-activated PBMCs showed differential expression of 1,247 MAPC genes. Crosstalk was demonstrated by reciprocal transcriptional regulation. Secretome proteins and transcriptional signatures were used to predict molecular activities by which MAPCs could dampen local and systemic inflammatory responses. These data support the hypothesis that MAPCs block PBMC proliferation via cell cycle arrest coupled to metabolic stress in the form of tryptophan depletion, resulting in GCN2 kinase activation, downstream signaling, and inhibition of cyclin D1 translation. These data also provide a plausible explanation for the immune privilege reported with administration of donor MAPCs. Although most components of the major histocompatibility complex class II antigen presentation pathway were markedly transcriptionally upregulated, cell surface expression of human leukocyte antigen-DR is minimal on MAPCs exposed to 3/28-activated PBMCs., Significance: This study documents experiments quantifying solution-phase crosstalk between multipotent adult progenitor cells (MAPCs) and peripheral blood mononuclear cells. The secretome and transcriptional changes quantified suggest mechanisms by which MAPCs are hypothesized to provide both local and systemic immunoregulation of inflammation. The potential impact of these studies includes development of a robust experimental framework to be used for preclinical evaluation of the specific mechanisms by which beneficial effects are obtained after treatment of patients with MAPCs., (©AlphaMed Press.)

Published
2015
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29. Suppression of IL-7-dependent Effector T-cell Expansion by Multipotent Adult Progenitor Cells and PGE2.

Author

Reading JL, Vaes B, Hull C, Sabbah S, Hayday T, Wang NS, DiPiero A, Lehman NA, Taggart JM, Carty F, English K, Pinxteren J, Deans R, Ting AE, and Tree TIM

Subjects
Adult, Adult Stem Cells immunology, Autoimmunity, Cell Cycle Proteins metabolism, Cell Proliferation, Cells, Cultured, Graft Rejection, Humans, Immune Tolerance, Interleukin-1beta immunology, Interleukin-1beta metabolism, Interleukin-7 metabolism, Lymphocyte Depletion adverse effects, Male, Mesenchymal Stem Cells immunology, Multipotent Stem Cells immunology, Nuclear Proteins metabolism, Signal Transduction, Suppressor of Cytokine Signaling Proteins metabolism, Transplantation, Homologous methods, Young Adult, Adult Stem Cells physiology, Dinoprostone immunology, Graft vs Host Disease prevention & control, Interleukin-7 immunology, Mesenchymal Stem Cells physiology, Multipotent Stem Cells physiology, T-Lymphocytes, Cytotoxic immunology, T-Lymphocytes, Helper-Inducer immunology
Abstract

T-cell depletion therapy is used to prevent acute allograft rejection, treat autoimmunity and create space for bone marrow or hematopoietic cell transplantation. The evolved response to T-cell loss is a transient increase in IL-7 that drives compensatory homeostatic proliferation (HP) of mature T cells. Paradoxically, the exaggerated form of this process that occurs following lymphodepletion expands effector T-cells, often causing loss of immunological tolerance that results in rapid graft rejection, autoimmunity, and exacerbated graft-versus-host disease (GVHD). While standard immune suppression is unable to treat these pathologies, growing evidence suggests that manipulating the incipient process of HP increases allograft survival, prevents autoimmunity, and markedly reduces GVHD. Multipotent adult progenitor cells (MAPC) are a clinical grade immunomodulatory cell therapy known to alter γ-chain cytokine responses in T-cells. Herein, we demonstrate that MAPC regulate HP of human T-cells, prevent the expansion of Th1, Th17, and Th22 effectors, and block the development of pathogenic allograft responses. This occurs via IL-1β-primed secretion of PGE2 and activates T-cell intrinsic regulatory mechanisms (SOCS2, GADD45A). These data provide proof-of-principle that HP of human T-cells can be targeted by cellular and molecular therapies and lays a basis for the development of novel strategies to prevent immunopathology in lymphodepleted patients.

Published
2015
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30. Neuroinflammatory signals enhance the immunomodulatory and neuroprotective properties of multipotent adult progenitor cells.

Author

Ravanidis S, Bogie JF, Donders R, Craeye D, Mays RW, Deans R, Gijbels K, Bronckaers A, Stinissen P, Pinxteren J, and Hellings N

Subjects
Adult Stem Cells metabolism, Adult Stem Cells physiology, Animals, Cell Line, Cell Movement, Cells, Cultured, Culture Media, Conditioned pharmacology, Neuroprotective Agents pharmacology, Oligodendroglia metabolism, Oxidative Stress, Pluripotent Stem Cells metabolism, Pluripotent Stem Cells physiology, Rats, Rats, Inbred Lew, Adult Stem Cells drug effects, Cytokines pharmacology, Pluripotent Stem Cells drug effects
Abstract

Introduction: Stem cell-based therapies are currently widely explored as a tool to treat neuroimmune diseases. Multipotent adult progenitor cells (MAPC) have been suggested to have strong immunomodulatory and neuroprotective properties in several experimental models. In this study, we investigate whether MAPC are of therapeutic interest for neuroinflammatory disorders such as multiple sclerosis by evaluating their capacities to modulate crucial pathological features and gain insights into the molecular pathways involved., Methods: Rat MAPC were treated with combinations of pro-inflammatory cytokines that are closely associated with neuroinflammatory conditions, a process called licensing. mRNA expression of immunomodulatory molecules, chemokines and chemokine receptors was investigated. The migratory potential of licensed rat MAPC towards a broad spectrum of chemokines was tested in a Transwell assay. Furthermore, the effect of licensing on the ability of rat MAPC to attract and suppress the proliferation of encephalitogenic T cells was assessed. Finally, neuroprotective properties of rat MAPC were determined in the context of protection from oxidative stress of oligodendrocytes. Therefore, rat MAPC were incubated with conditioned medium of OLN93 cells subjected to sublethal doses of hydrogen peroxide and the gene expression of neurotrophic factors was assessed., Results: After licensing, a wide variety of immunomodulatory molecules and chemokines, including inducible nitric oxide synthase and fractalkine, were upregulated by rat MAPC. The migratory properties of rat MAPC towards various chemokines were also altered. In addition, rat MAPC were found to inhibit antigen-specific T-cell proliferation and this suppressive effect was further enhanced after pro-inflammatory treatment. This phenomenon was partially mediated through inducible nitric oxide synthase or cyclooxygenase-2. Activated rat MAPC secreted factors that led to attraction of myelin-specific T cells. Finally, exposure of rat MAPC to an in vitro simulated neurodegenerative environment induced the upregulation of mRNA levels of vascular endothelial growth factor and ciliary neurotrophic factor. Factors secreted by rat MAPC in response to this environment partially protected OLN93 cells from hydrogen peroxide-induced cell death., Conclusions: Rat MAPC possess immune modulatory and neuroprotective properties which are enhanced in response to neuroinflammatory signals. These findings thereby warrant further research to evaluate MAPC transplantation as a therapeutic approach in diseases with an immunological and neurodegenerative component such as multiple sclerosis.

Published
2015
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31. Culturing protocols for human multipotent adult stem cells.

Author

Vaes B, Walbers S, Gijbels K, Craeye D, Deans R, Pinxteren J, and van't Hof W

Subjects
Adult, Cell Separation methods, Cells, Cultured, Cryopreservation methods, Humans, Adult Stem Cells cytology, Cell Culture Techniques methods, Multipotent Stem Cells cytology
Abstract

Culture procedures are presented that support the initiation and controlled expansion of the multipotent adult progenitor cell (MAPC) population within the human bone marrow derived multipotent mesenchymal stromal cell compartment. Culture procedures or conditions and characterization assays that maintain and survey the distinctive primitive MAPC properties are discussed in the context of cell culturing platforms that facilitate controlled expansion of clinical grade human MAPC product to levels required for mid to late stage clinical testing.

Published
2015
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32. Mutual interaction between human multipotent adult progenitor cells and NK cells.

Author

Jacobs SA, Plessers J, Pinxteren J, Roobrouck VD, Verfaillie CM, and Van Gool SW

Subjects
Adolescent, Adult, Bone Marrow Cells cytology, Cell Proliferation, Cells, Cultured, Child, Child, Preschool, Coculture Techniques, Female, Histocompatibility Antigens Class I immunology, Humans, Interferon-gamma genetics, Interferon-gamma metabolism, Interferon-gamma pharmacology, Interleukin-2 genetics, Interleukin-2 metabolism, Interleukin-2 pharmacology, K562 Cells, Killer Cells, Natural drug effects, Killer Cells, Natural metabolism, Leukocytes, Mononuclear cytology, Ligands, Lymphocyte Activation immunology, Male, Multipotent Stem Cells drug effects, Multipotent Stem Cells metabolism, NK Cell Lectin-Like Receptor Subfamily K metabolism, Recombinant Proteins biosynthesis, Recombinant Proteins genetics, Recombinant Proteins pharmacology, Killer Cells, Natural immunology, Multipotent Stem Cells cytology
Abstract

Human multipotent adult progenitor cells (hMAPCs) are isolated from bone marrow with a more extensive expansion capacity compared to human mesenchymal stem cells (hMSCs) and with the ability to differentiate into endothelium. Like hMSCs, hMAPCs inhibit T-cell proliferation induced by alloantigens. In this study, we tested the interaction between hMAPCs and natural killer (NK) cells. We assessed the susceptibility of hMAPCs to NK cell-mediated lysis and the immunomodulation of hMAPCs on NK cell function during IL-2-driven stimulation and the cytolytic effector phase. Human MAPCs express the ligands PVR and ULBP-2/5/6, which are recognized by activating NK cell receptors. However, they also express MHC class I molecules, which induce inhibitory signals in NK cells. Freshly isolated NK cells at different effector:target ratios did not kill hMAPCs as assessed by an MTT and (51)Cr-release assay, while hMAPCs impaired the cytotoxic activity of resting NK cells against the NK-sensitive K562 leukemia cell line. By contrast, IL-2-stimulated NK cells were capable of killing hMAPCs, and preactivated NK cells were not influenced during their cytotoxic effector function against K562 cells by hMAPCs. When added during the 6-day preactivation phase with IL-2, hMAPCs dose-dependently reduced NK cell proliferation in an IDO-dependent manner, but they did not influence the induction of cytotoxic capacity by IL-2. This study indicates that human MAPCs mutually interact with NK cells.

Published
2014
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33. Dissection of the human multipotent adult progenitor cell secretome by proteomic analysis.

Author

Burrows GG, Van't Hof W, Newell LF, Reddy A, Wilmarth PA, David LL, Raber A, Bogaerts A, Pinxteren J, Deans RJ, and Maziarz RT

Subjects
Extracellular Matrix metabolism, Humans, Mass Spectrometry, Proteome, Adult Stem Cells metabolism, Multipotent Stem Cells metabolism
Abstract

Multipotent adult progenitor cells (MAPCs) are adult adherent stromal stem cells currently being assessed in acute graft versus host disease clinical trials with demonstrated immunomodulatory capabilities and the potential to ameliorate detrimental autoimmune and inflammation-related processes. Our previous studies documented that MAPCs secrete factors that play a role in regulating T-cell activity. Here we expand our studies using a proteomics approach to characterize and quantify MAPC secretome components secreted over 72 hours in vitro under steady-state conditions and in the presence of the inflammatory triggers interferon-γ and lipopolysaccharide, or a tolerogenic CD74 ligand, RTL1000. MAPCs differentially responded to each of the tested stimuli, secreting molecules that regulate the biological activity of the extracellular matrix (ECM), including proteins that make up the ECM itself, proteins that regulate its construction/deconstruction, and proteins that serve to attach and detach growth factors from ECM components for redistribution upon appropriate stimulation. MAPCs secreted a wide array of proteases, some detectable in their zymogen forms. MAPCs also secreted protease inhibitors that would regulate protease activity. MAPCs secreted chemokines and cytokines that could provide molecular guidance cues to various cell types, including neutrophils, macrophages, and T cells. In addition, MAPCs secreted factors involved in maintenance of a homeostatic environment, regulating such diverse programs as innate immunity, angiogenesis/angiostasis, targeted delivery of growth factors, and the matrix-metalloprotease cascade.

Published
2013
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34. Heart grafts tolerized through third-party multipotent adult progenitor cells can be retransplanted to secondary hosts with no immunosuppression.

Author

Eggenhofer E, Popp FC, Mendicino M, Silber P, Van't Hof W, Renner P, Hoogduijn MJ, Pinxteren J, van Rooijen N, Geissler EK, Deans R, Schlitt HJ, and Dahlke MH

Subjects
Adult Stem Cells drug effects, Animals, Cell Size drug effects, Cyclosporine pharmacology, Graft Survival drug effects, Graft Survival immunology, Immune Tolerance drug effects, Major Histocompatibility Complex immunology, Multipotent Stem Cells drug effects, Myeloid Cells cytology, Myeloid Cells drug effects, Phenotype, Rats, Rats, Inbred Lew, T-Lymphocytes, Regulatory cytology, T-Lymphocytes, Regulatory drug effects, Transplantation, Homologous immunology, Adult Stem Cells cytology, Heart Transplantation immunology, Immune Tolerance immunology, Immunosuppression Therapy, Multipotent Stem Cells cytology, Stem Cell Transplantation
Abstract

Multipotent adult progenitor cells (MAPCs) are an adherent stem cell population that belongs to the mesenchymal-type progenitor cell family. Although MAPCs are emerging as candidate agents for immunomodulation after solid organ transplantation, their value requires further validation in a clinically relevant cell therapy model using an organ donor- and organ recipient-independent, third-party cell product. We report that stable allograft survival can be achieved following third-party MAPC infusion in a rat model of fully allogeneic, heterotopic heart transplantation. Furthermore, long-term accepted heart grafts recovered from MAPC-treated animals can be successfully retransplanted to naïve animals without additional immunosuppression. This prolongation of MAPC-mediated allograft acceptance depends upon a myeloid cell population since depletion of macrophages by clodronate abrogates the tolerogenic MAPC effect. We also show that MAPC-mediated allograft acceptance differs mechanistically from drug-induced tolerance regarding marker gene expression, T regulatory cell induction, retransplantability, and macrophage dependence. MAPC-based immunomodulation represents a promising pathway for clinical immunotherapy that has led us to initiate a phase I clinical trial for testing safety and feasibility of third-party MAPC therapy after liver transplantation.

Published
2013
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35. Clinical-grade multipotent adult progenitor cells durably control pathogenic T cell responses in human models of transplantation and autoimmunity.

Author

Reading JL, Yang JH, Sabbah S, Skowera A, Knight RR, Pinxteren J, Vaes B, Allsopp T, Ting AE, Busch S, Raber A, Deans R, and Tree TI

Subjects
Adult, Adult Stem Cells immunology, Cell Proliferation, Cells, Cultured, Diabetes Mellitus, Type 1 immunology, Graft Rejection immunology, Humans, Immunomodulation immunology, Interleukin-10 immunology, Male, Tryptophan immunology, Young Adult, Autoimmunity immunology, Islets of Langerhans Transplantation immunology, Lymphocyte Activation immunology, Stem Cells immunology, T-Lymphocytes, Regulatory immunology, Th1 Cells immunology, Th17 Cells immunology
Abstract

A major goal of immunotherapy remains the control of pathogenic T cell responses that drive autoimmunity and allograft rejection. Adherent progenitor cells, including mesenchymal stromal cells (MSCs) and multipotent adult progenitor cells (MAPCs), represent attractive immunomodulatory cell therapy candidates currently active in clinical trials. MAPCs can be distinguished from MSCs on the basis of cellular phenotype, size, transcriptional profile, and expansion capacity. However, despite their ongoing evaluation in autoimmune and allogeneic solid organ transplantation settings, data supporting the immune regulatory potential of clinical-grade MAPCs are limited. In this study, we used allogeneic islet transplantation as a model indication to assess the ability of clinical-grade MAPCs to control T cell responses that drive immunopathology in human autoimmune disease and allograft rejection. MAPCs suppressed T cell proliferation and Th1 and Th17 cytokine production while increasing secretion of IL-10 and were able to suppress effector functions of bona fide autoreactive T cells from individuals with type 1 diabetes mellitus, including killing of human islets. Furthermore, MAPCs favored the proliferation of regulatory T cells during homeostatic expansion driven by γ-chain cytokines and exerted a durable, yet reversible, control of T cell function. MAPC suppression required licensing and proceeded via IDO-mediated tryptophan catabolism. Therefore, the common immune modulatory characteristics of clinical-grade MAPCs shown in this study suggest that they can be regarded as an alternative source of adult progenitor cells with similar clinical usefulness to MSCs. Taken collectively, these findings may guide the successful deployment of both MSCs and MAPCs for the amelioration of human autoimmunity and allograft rejection.

Published
2013
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36. Human multipotent adult progenitor cells are nonimmunogenic and exert potent immunomodulatory effects on alloreactive T-cell responses.

Author

Jacobs SA, Pinxteren J, Roobrouck VD, Luyckx A, van't Hof W, Deans R, Verfaillie CM, Waer M, Billiau AD, and Van Gool SW

Subjects
Adult, Allografts, Bone Marrow Cells cytology, Cell Proliferation, Cells, Cultured, Child, Cytokines metabolism, Female, Humans, Immunophenotyping, Immunosuppression Therapy, Indoleamine-Pyrrole 2,3,-Dioxygenase metabolism, Kynurenine metabolism, Male, Middle Aged, Multipotent Stem Cells cytology, T-Lymphocytes cytology, T-Lymphocytes metabolism, Multipotent Stem Cells immunology, T-Lymphocytes immunology
Abstract

Multipotent adult progenitor cells (MAPCs) are bone marrow-derived nonhematopoietic stem cells with a broad differentiation potential and extensive expansion capacity. A comparative study between human mesenchymal stem cells (hMSCs) and human MAPCs (hMAPCs) has shown that hMAPCs have clearly distinct phenotypical and functional characteristics from hMSCs. In particular, hMAPCs express lower levels of MHC class I than hMSCs and cannot only differentiate into typical mesenchymal cell types but can also differentiate in vitro and in vivo into functional endothelial cells. The use of hMSCs as cellular immunomodulatory stem cell products gained much interest since their immunomodulatory capacities in vitro became evident over the last decade. Currently, the clinical grade stem cell product of hMAPCs is already used in clinical trials to prevent graft-versus-host disease (GVHD), as well as for the treatment of acute myocardial infarct, ischemic stroke, and Crohn's disease. Therefore, we studied the immune phenotype, immunogenicity, and immunosuppressive effect of hMAPCs in vitro. We demonstrated that hMAPCs are nonimmunogenic for T-cell proliferation and cytokine production. In addition, hMAPCs exert strong immunosuppressive effects on T-cell alloreactivity and on T-cell proliferation induced by mitogens and recall antigens. This immunomodulatory effect was not MHC restricted, which makes off-the-shelf use promising. The immunosuppressive effect of hMAPCs is partially mediated via soluble factors and dependent on indoleamine 2,3-dioxygenase (IDO) activity. At last, we isolated hMAPCs, the clinical grade stem cell product of hMAPCs, named MultiStem, and hMSCs from one single donor and observed that both the immunogenicity and the immunosuppressive capacities of all three stem cell products are comparable in vitro. In conclusion, hMAPCs have potent immunomodulatory properties in vitro and can serve as a valuable cell source for the clinical use of immunomodulatory cellular stem cell product.

Published
2013
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37. Application of MultiStem(®) Allogeneic Cells for Immunomodulatory Therapy: Clinical Progress and Pre-Clinical Challenges in Prophylaxis for Graft Versus Host Disease.

Author

Vaes B, Van't Hof W, Deans R, and Pinxteren J

Abstract

The last decade has seen much progress in adjunctive cell therapy for immune disorders. Both corporate and institutional Phase III studies have been run using mesenchymal stromal cells (MSC) for treatment of Graft versus Host Disease (GvHD), and product approval has been achieved for treatment of pediatric GvHD in Canada and New Zealand (Prochymal(®); Osiris Therapeutics). This effectiveness has prompted the prophylactic use of adherent stem cells at the time of allogeneic hematopoietic stem cell transplantation (HSCT) to prevent occurrence of GvHD and possibly provide stromal support for hematopoietic recovery. The MultiStem(®) product is an adult adherent stem cell product derived from bone marrow which has significant clinical exposure. MultiStem cells are currently in phase II clinical studies for treatment of ischemic stroke and ulcerative colitis, with Phase I studies completed in acute myocardial infarction and for GvHD prophylaxis in allogeneic HSCT, demonstrating that MultiStem administration was well tolerated while the incidence and severity of GvHD was reduced. In advancing this clinical approach, it is important to recognize that alternate models exist based on clinical manufacturing strategies. Corporate sponsors exploit the universal donor properties of adherent stem cells and manufacture at large scale, with many products obtained from one or limited donors and used across many patients. In Europe, institutional sponsors often produce allogeneic product in a patient designated context. For this approach, disposable bioreactors producing <10 products/donor in a closed system manner are very well suited. In this review, the use of adherent stem cells for GvHD prophylaxis is summarized and the suitability of disposable bioreactors for MultiStem production is presented, with an emphasis on quality control parameters, which are critical with a multiple donor approach for manufacturing.

Published
2012
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38. Differentiation assays of bone marrow-derived Multipotent Adult Progenitor Cell (MAPC)-like cells towards neural cells cannot depend on morphology and a limited set of neural markers.

Author

Raedt R, Pinxteren J, Van Dycke A, Waeytens A, Craeye D, Timmermans F, Vonck K, Vandekerckhove B, Plum J, and Boon P

Subjects
Adipogenesis physiology, Animals, Biomarkers, Cell Differentiation physiology, Cell Lineage, Immunohistochemistry, Karyotyping, Neuroglia metabolism, Octamer Transcription Factor-3 genetics, Osteogenesis, RNA, Messenger biosynthesis, RNA, Messenger genetics, Rats, Rats, Sprague-Dawley, Reverse Transcriptase Polymerase Chain Reaction, Bone Marrow Cells physiology, Neurons physiology, Stem Cells physiology
Abstract

There are accumulating studies that report a neurogenic potential of bone marrow-derived cells both in vitro as well as in vivo. Most claims of neural "transdifferentiation" have based their conclusions on morphology and neural gene expression. Recently, doubts have been raised about the validity of both outcome parameters since non-neural cells can extend neurites and show aberrant neural gene expression as a response to stress inducing factors. In this study, we compared bone marrow-derived Multipotent Adult Progenitor Cell (MAPC)-like cells and neural stem cells (NSC) in their morphology and neural gene expression profile after neural differentiation using three differentiation protocols. We evaluated the expression of five neuroglial antigens [neurofilament 200 (NF200); beta III tubulin (beta3 tub); tau; Glial Fibrillary Acidic Protein (GFAP); Myelin Basic Protein (MBP) and RIP antigen] using real-time PCR (RT-PCR) and immunocytochemistry (ICC). MAPC-like cells adopted a neural-like morphology in one protocol but a fibroblast-like morphology in the two other protocols. RT-PCR and ICC show that MAPC-like cells already express the neural antigens beta III tubulin and NF200 at baseline, but no upregulation of these genes after exposure to three distinct differentiation protocols was seen. In contrast, NSC adopt neural and glial morphologies with a clear increase in expression of all neuroglial genes in all differentiation protocols used. In conclusion, our data demonstrate that neural-like morphology and expression of a limited set of neural marker genes by MAPC-like cells after differentiation are not absolute proof of neural transdifferentiation because MAPC-like cells only partially meet the criteria which are fulfilled by NSC after neural differentiation.

Published
2007
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39. Four stage liquid chromatographic selection of methionyl peptides for peptide-centric proteome analysis: the proteome of human multipotent adult progenitor cells.

Author

Gevaert K, Pinxteren J, Demol H, Hugelier K, Staes A, Van Damme J, Martens L, and Vandekerckhove J

Subjects
Adult, Cell Differentiation, Cell Line, Chromatography, Liquid, Chromosomes, Human, Humans, Multipotent Stem Cells cytology, Protein-Tyrosine Kinases metabolism, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, Ubiquitin metabolism, Methionine metabolism, Multipotent Stem Cells metabolism, Peptides metabolism, Proteome analysis
Abstract

Serial application of strong cation-exchange and diagonal reversed-phase chromatography selecting methionyl peptides by stepwise shifting them from their reduced to their sulfoxide and sulfone forms generates a four-stage fractionation system, allowing high coverage analysis of complex proteome digests by LC-MALDI-MS/MS. Application to the proteome of a human multipotent adult progenitor cell line (MAPC) identified 2151 proteins with high confidence as on average four MS/MS-spectra were linked to each protein. Our dataset contains several novel, potential marker proteins that may be evaluated as affinity-anchors for isolating different adult stem cells in further studies. Furthermore, at least 2 tyrosine kinases that were previously linked to the self-renewal potential of stem cells were identified, validating the stemness of the analyzed cells. We also present data hinting at possible involvement of the ubiquitin/proteasome machinery in steering proliferation and/or differentiation of MAPC. Finally, following comparison of the MAPC proteome with proteomes of four human differentiated cell lines reveals differential usage of chromosomal information: compared to differentiated cells, MAPC do not appear to hold any preference for expressing genes located on specific chromosomes.

Published
2006
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40. Viable CD34+ stem cell content of a cord blood graft: which measurement performed before transplantation is most representative?

Author

Van haute I, Lootens N, De Smet S, De Buck C, Verdegem L, Vanheusden K, Pinxteren J, and Vandekerckhove B

Subjects
Blood Cell Count methods, Cell Survival, Cryopreservation, Flow Cytometry, Humans, Leukocyte Count, Predictive Value of Tests, Reproducibility of Results, Transplantation, Homologous, Antigens, CD34 analysis, Blood Cell Count standards, Cord Blood Stem Cell Transplantation standards, Fetal Blood cytology
Abstract

Background: Patient survival in allogeneic cord blood transplantation is critically dependent on total nucleated cell (TNC) count or total CD34+ cell count per kg of body weight. Theoretically, viable CD34+ cell measurement at the time of infusion should give a better indication of the suitability of a certain transplant. The relation between measurements on different samples and viable CD34+ cell count on the graft itself was analyzed., Study Design and Methods: Viable CD34+ cells were measured with a no-wash, single-platform technique with 7-aminoactinomycin D. Analysis was performed before freezing on the cord blood, after freezing and thawing on the cord blood unit itself, and on various samples., Results: Cord blood volume correlated poorly with viable CD34+ cell content (r=0.24) as did initial TNC count and WBC count (r=0.57 and r=0.48, respectively). In contrast, viable CD34 cell content determined before freezing correlated well with viable CD34 cell content of the graft (r=0.91) but was on average 25 percent higher than after freezing and thawing. The best correlations with the CD34+ cell content of the cord blood unit were obtained with CD34 cell measurements on a separate cryovial (r=0.95). These CD34 cell measurements on frozen samples were found to be very reproducible (r=0.96)., Conclusion: Viable CD34 cell count of the graft is both accurate and precise when measured on a separate sample frozen together with the cord blood unit. This measurement can be performed by the transplant center to exclude between-laboratory variability.

Published
2004
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41. Genetic ablation of phosphatidylinositol transfer protein function in murine embryonic stem cells.

Author

Alb JG Jr, Phillips SE, Rostand K, Cui X, Pinxteren J, Cotlin L, Manning T, Guo S, York JD, Sontheimer H, Collawn JF, and Bankaitis VA

Subjects
Animals, Binding Sites, Carrier Proteins genetics, Cell Line, Cell Survival, Endocytosis physiology, Exocytosis physiology, Flow Cytometry, Gene Targeting, Genotype, Immunoglobulin E metabolism, Mast Cells metabolism, Mast Cells ultrastructure, Membrane Proteins genetics, Mice, Mice, Nude, Phospholipid Transfer Proteins, Protein Isoforms, Receptors, Transferrin metabolism, Signal Transduction physiology, Carrier Proteins physiology, Membrane Proteins physiology, Phospholipids metabolism, Stem Cells physiology
Abstract

Phosphatidylinositol transfer proteins (PITPs) regulate the interface between signal transduction, membrane-trafficking, and lipid metabolic pathways in eukaryotic cells. The best characterized mammalian PITPs are PITP alpha and PITP beta, two highly homologous proteins that are encoded by distinct genes. Insights into PITP alpha and PITP beta function in mammalian systems have been gleaned exclusively from cell-free or permeabilized cell reconstitution and resolution studies. Herein, we report for the first time the use of genetic approaches to directly address the physiological functions of PITP alpha and PITP beta in murine cells. Contrary to expectations, we find that ablation of PITP alpha function in murine cells fails to compromise growth and has no significant consequence for bulk phospholipid metabolism. Moreover, the data show that PITP alpha does not play an obvious role in any of the cellular activities where it has been reconstituted as an essential stimulatory factor. These activities include protein trafficking through the constitutive secretory pathway, endocytic pathway function, biogenesis of mast cell dense core secretory granules, and the agonist-induced fusion of dense core secretory granules to the mast cell plasma membrane. Finally, the data demonstrate that PITP alpha-deficient cells not only retain their responsiveness to bulk growth factor stimulation but also retain their pluripotency. In contrast, we were unable to evict both PITP beta alleles from murine cells and show that PITP beta deficiency results in catastrophic failure early in murine embryonic development. We suggest that PITP beta is an essential housekeeping PITP in murine cells, whereas PITP alpha plays a far more specialized function in mammals than that indicated by in vitro systems that show PITP dependence.

Published
2002
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42. Phosphatidylinositol transfer proteins and protein kinase C make separate but non-interacting contributions to the phosphorylation state necessary for secretory competence in rat mast cells.

Author

Pinxteren JA, Gomperts BD, Rogers D, Phillips SE, Tatham PE, and Thomas GM

Subjects
Adenosine Triphosphate pharmacology, Animals, Cell Membrane Permeability, Cyclic AMP-Dependent Protein Kinases genetics, Cyclic AMP-Dependent Protein Kinases metabolism, Glyceryl Ethers pharmacology, Male, Mast Cells, Neomycin pharmacology, Phospholipid Transfer Proteins, Phosphorylation, Protein Kinase C antagonists & inhibitors, Rats, Rats, Sprague-Dawley, beta-Adrenergic Receptor Kinases, Carrier Proteins metabolism, Exocytosis, Membrane Proteins, Phosphatidylinositols metabolism, Phospholipids metabolism, Protein Kinase C metabolism
Abstract

Mast cells permeabilized by streptolysin O undergo exocytosis when stimulated with Ca(2+) and guanosine 5'-[gamma-thio]triphosphate but become progressively refractory to this stimulus if it is delayed. This run-down of responsiveness occurs over a period of 20-30 min, during which the cells leak soluble and tethered proteins. We show here that withdrawal of ATP during the process of run-down is strongly inhibitory but that as little as 25 microM ATP can extend responsiveness significantly; this effect is maximal at 50 microM. When phosphatidylinositol transfer proteins (PITPs) are provided to cells at the time of permeabilization, run-down is retarded. We conclude that in the presence of ATP they convey substrates for phosphorylation that are essential for exocytosis and thus interact with the regulatory machinery. Furthermore, we show that PITPalpha and PITPbeta have additive effects in this mechanism, suggesting that they are not functionally redundant. Alternatively, secretion from run-down cells can be inhibited by the aminoglycoside antibiotic neomycin, which is understood to bind to phosphoinositide headgroups, and by a PH (pleckstrin homology) domain polypeptide that binds phosphoinositides. The apparent displacement of neomycin by exogenous PITPs suggests that these proteins screen essential lipids. Secretion from run-down cells is also inhibited by 1-O-hexadecyl-2-O-methyl-rac-glycerol (AMG-C(16)), an inhibitor of protein kinase C. The lack of synergy between neomycin and AMG-C(16) suggests that protein kinase C independently provides a second essential component through protein phosphorylation and that there are two independent phosphorylation pathways necessary for secretion competence.

Published
2001
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44. Regulation of exocytosis from rat peritoneal mast cells by G protein beta gamma-subunits.

Author

Pinxteren JA, O'Sullivan AJ, Tatham PE, and Gomperts BD

Subjects
Animals, Bacterial Proteins, Bodily Secretions drug effects, Bodily Secretions physiology, Calcium pharmacology, Cell Membrane Permeability drug effects, Cyclic AMP-Dependent Protein Kinases genetics, Cyclic AMP-Dependent Protein Kinases metabolism, Detergents pharmacology, Enzyme Inhibitors pharmacology, Eye Proteins pharmacology, GTP-Binding Protein Regulators, Guanosine 5'-O-(3-Thiotriphosphate) pharmacology, Peptide Fragments pharmacology, Peritoneum cytology, Phosphoproteins pharmacology, Protein Kinase C antagonists & inhibitors, Rats, Streptolysins pharmacology, Tetradecanoylphorbol Acetate pharmacology, beta-Adrenergic Receptor Kinases, Exocytosis physiology, GTP-Binding Proteins metabolism, Mast Cells physiology
Abstract

We applied G protein-derived beta gamma-subunits to permeabilized mast cells to test their ability to regulate exocytotic secretion. Mast cells permeabilized with streptolysin-O leak soluble (cytosol) proteins over a period of 5 min and become refractory to stimulation by Ca2+ and GTPgammaS over approximately 20-30 min. beta gamma-Subunits applied to the permeabilized cells retard this loss of sensitivity to stimulation (run-down) and it can be inferred that they interact with the regulatory mechanism for secretion. While alpha-subunits are without effect, beta gamma-subunits at concentrations >10(-8 )M enhance the secretion due to Ca2+ and GTPgammaS. Unlike the small GTPases Rac and Cdc42, beta gamma-subunits cannot induce secretion in the absence of an activating guanine nucleotide, and thus further GTP-binding proteins (likely to be Rho-related GTPases) must be involved. The enhancement due to beta gamma-subunits is mediated largely through interaction with pleckstrin homology (PH) domains. It remains manifest in the face of maximum activation by PMA and inhibition of PKC with the pseudosubstrate inhibitory peptide. Soluble peptides mimicking PH domains inhibit the secretion due to GTPgammaS and block the enhancement due to beta gamma-subunits. Our data suggest that beta gamma-subunits are components of the pathway of activation of secretion due to receptor-mimetic ligands such as mastoparan and compound 48/80.

Published
1998
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45. Ontogeny of epinephrine, norepinephrine, dopamine-beta-hydroxylase, and chromogranin A in the adrenal gland of pigs.

Author

Laroche SM, Pinxteren JA, Van Reempts PJ, De Potter WP, Weyns AA, Verhofstad AA, and Van Acker KJ

Subjects
Adrenal Glands cytology, Adrenal Glands metabolism, Animals, Chromogranin A, Enzyme-Linked Immunosorbent Assay, Female, Fetus, Gestational Age, Immunohistochemistry, Pregnancy, Swine, Adrenal Glands embryology, Chromogranins metabolism, Dopamine beta-Hydroxylase metabolism, Embryonic and Fetal Development, Epinephrine metabolism, Norepinephrine metabolism
Abstract

Objective: To obtain data on the ontogeny of catecholamines and other chromaffin vesicle components, which could serve as a basis for the study of their role during fetal life in normal and pathologic conditions., Design: Epinephrine, norepinephrine, dopamine-beta-hydroxylase, and chromogranin A contents were measured in the porcine adrenal gland during various stages of gestation., Animals: 934 porcine fetuses representing 22 gestational ages between 43 and 108 days., Procedure: Total homogenates of adrenal glands were extracted and contents of different neurochemical markers were measured, using high-performance liquid chromatography, immunoassays, and western blotting. Immunohistochemical studies also were performed., Results: Epinephrine and norepinephrine contents as a function of gestational age can be represented by a sigmoidal curve. Norepinephrine content rises early in gestation, whereas epinephrine content increases later. Maximal increase was significantly higher for epinephrine content. A progressive appearance of separate epinephrine- and norepinephrine-storing cells was documented. Dopamine-beta-hydroxylase content as a function of gestational age can be adequately represented by a parabolic curve. No quantitative changes in chromogranin A concentration were observed, but western blotting revealed qualitative changes with progressing gestational age., Conclusions: Important changes occur in catecholamine formation around day 60 of gestation. The sharp increase in epinephrine/norepinephrine contents and the appearance of separate epinephrine- and norepinephrine-storing cells may be related to the progressive splanchnic innervation of the adrenal gland. The presence of chromogranin A early in gestation may indicate its necessity for catecholamine storage.

Published
1996

46. Mononuclear-cell peptide mediation of chromaffin-cell epinephrine secretion.

Author

Roberts JC, Mathews HL, DePotter W, Pinxteren J, and Jones SB

Subjects
Adrenal Medulla cytology, Adrenal Medulla metabolism, Adrenergic beta-Antagonists pharmacology, Animals, Cattle, Cells, Cultured, Culture Media, Conditioned, Feedback, L-Lactate Dehydrogenase metabolism, Leukocytes, Mononuclear chemistry, Molecular Weight, Neuroimmunomodulation, Peptides isolation & purification, Propranolol pharmacology, Secretory Rate, Superior Cervical Ganglion cytology, Superior Cervical Ganglion metabolism, Swine, Adrenal Medulla drug effects, Epinephrine metabolism, Leukocytes, Mononuclear physiology, Peptides pharmacology, Superior Cervical Ganglion drug effects
Abstract

Previously, we have shown that novel mononuclear-cell-derived factor(s) [molecular weight (MW) < 3,000] stimulate the release of epinephrine (EPI) from adrenal medullary chromaffin cells to levels comparable to that of maximal cholinergic stimulation. The present study provides evidence that the observed bioactivity is due to the action of a single peptide of 627 Da apparent MW. The peptide nature of the bioactive component was suggested by a decreased bioactivity after acid hydrolysis as well as altered bioactivity subsequent to peptidase (carboxypeptidase Y, leucine aminopeptidase) treatment. The bioactive conditioned-medium (CM) peptide(s) were isolated and further characterized using SDS-PAGE analysis. SDS-PAGE separation of G-25 Sephadex purified CM shows that bioactivity resides in a single peptide band. Additional studies revealed that CM also mediates norepinephrine release from sympathetic ganglia cells. Regulation of peptide production was shown to involve negative feedback in that incubation with mononuclear cells with EPI prevented further bioactive peptide release. This feedback inhibition was partially blocked by the beta-adrenergic receptor antagonist propranolol. These findings suggest a novel and potentially important mechanism by which the immune system can alter neuroendocrine function.

Published
1996
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47. Umbilical cord dopamine beta-hydroxylase, chromogranin A and met-enkephalin after conditions associated with chronic intrauterine stress.

Author

Van Reempts PJ, Wouters AN, Laroche S, Pinxteren J, De Potter W, Vanderauwera JC, and Van Acker KJ

Subjects
Chromogranin A, Female, Fetal Growth Retardation blood, Humans, Hypertension blood, Infant, Newborn, Pregnancy, Pregnancy in Diabetics blood, Smoking blood, Chromogranins analysis, Dopamine beta-Hydroxylase analysis, Enkephalin, Methionine analysis, Fetal Blood chemistry, Pregnancy Complications blood
Abstract

Objective: To evaluate whether the markers of autonomic nervous system activity, dopamine beta-hydroxylase (DBH), chromogranin A (CGA) and met-enkephalin (E), are different in cord blood from neonates born after conditions associated with chronic intrauterine stress (CIUS) as compared to neonates born after a normal pregnancy., Study Design: 61 newborns (median BW 2,840 g, range 617-4270 g) born after a pregnancy complicated by maternal hypertension, maternal smoking, maternal diabetes mellitus or intrauterine growth retardation (STR group) were compared with 88 neonates (median BW 2,910 g, range 4,00-4,370 g) who had not suffered from such intrauterine conditions. DBH, CGA and E were measured in the cord blood of both groups., Results: When both groups were taken together, high DBH values were best related to maternal smoking (p = 0.004) and low E levels to maternal diabetes (p = 0.02). Within the STR group, high DBH values were best related with all conditions linked with CIUS (p = 0.008), E levels were best linked with the combination of intrauterine growth retardation (positive correlation) and maternal diabetes (negative correlation) (p = 0.03). For CGA there was only a weak positive relation with maternal smoking (p = 0.3)., Conclusion: Certain intrauterine conditions associated with CIUS, especially maternal smoking, may lead to alterations of the autonomic nervous system as revealed by some of its markers in cord blood of neonates. This may be important in the pathogenesis of certain conditions after birth, such as the sudden infant death syndrome.

Published
1996
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48. Fe(2+)-mediated binding of serotonin and dopamine to skeletal muscle actin: resemblance to serotonin binding proteins.

Author

Velez Pardo C, Jimenez del Rio M, Pinxteren J, De Potter W, Ebinger G, and Vauquelin G

Subjects
Actins chemistry, Animals, Carrier Proteins chemistry, Cyanogen Bromide, Electrophoresis, Polyacrylamide Gel, Hydrolysis, Peptides analysis, Protein Binding, Rabbits, Serine Endopeptidases, Actins metabolism, Carrier Proteins metabolism, Dopamine metabolism, Iron physiology, Muscle, Skeletal metabolism, Serotonin metabolism
Abstract

Fe2+ stimulates the binding of [3H]serotonin and [3H]dopamine to rabbit skeletal muscle actin. This binding is inhibited by reducing agents (sodium ascorbate, vitamin E), by superoxide dismutase and by sulfhydryl group-modifying reagents (N-ethyl-maleimide, 2,2'-dinitro-5,5'-dithiobenzoic acid). The effect of Fe2+ is mimicked by oxidants (sodium periodate, potassium nitroso-disulfonate) and by superoxide radicals. Once formed, the binding cannot be decreased by a large excess of monoamine. It is proposed that Fe2+ catalyses the autoxidation of the monoamines by generating oxygen free radicals, and the oxidation products are likely to bind covalently to exposed cysteine residues of actin. Digestion of [3H]dopamine-labelled actin by cyanogen bromide and then by V8 protease (EC3.4.21.19) yields two labelled peptides whose apparent molecular weights (4.1 and 1.2 kDa) are compatible with the labelling of cysteine-10 and -374. Fe2+ also inactivates some of the binding sites on actin. This inactivation, and the covalent nature of the binding precludes the interpretation of monoamine saturation and competition binding data in terms of reversible bimolecular interactions.

Published
1995
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49. Interaction of serotonin- and dopamine-related neurotoxins with "serotonin binding proteins" in bovine frontal cortex.

Author

Jimenez del Rio M, Velez Pardo C, Pinxteren J, De Potter W, Ebinger G, and Vauquelin G

Subjects
Adrenochrome pharmacology, Animals, Binding, Competitive, Cattle, Dopamine Antagonists, Ferrous Compounds, Isoquinolines pharmacology, Neurotoxins pharmacology, Oxidopamine pharmacology, Serotonin Antagonists pharmacology, Carrier Proteins metabolism, Cerebral Cortex metabolism, Dopamine metabolism, Neurotoxins metabolism, Serotonin metabolism
Abstract

Binding of [3H]serotonin and [3H]dopamine to serotonin-binding proteins (SBP) from soluble extracts of bovine frontal cortex is increased by Fe2+. This group recently attributed this effect of Fe2+ to its ability to enhance the oxidation of [3H]serotonin and [3H]dopamine in the presence of dissolved molecular oxygen, and to the ability of the formed oxidation products to bind covalently to cysteine residues of SBP. In this study it is shown that the binding of both ligands is potently inhibited by dopamine as well as by several catecholamine-and serotonin-related neurotoxins: adrenochrome, 5,6-dihydroxytryptamine, 5,7-dihydroxytryptamine, 6-hydroxydopamine and 6,7-dihydroxy-1,2,3,4-tetrahydroisoquinoline. In contrast, serotonin can only potently inhibit part (36%) of the [3H]dopamine binding, while 1,2,3,4-tetrahydroisoquinoline is only a weak competitor for both ligands. Potent inhibition by the toxins is associated with the presence of electrophilic centres at the aromatic ring, either of the products themselves (adrenochrome) or of their oxidation products (all other competitors). These findings suggest that "SBP" represent an important target for the Fe(2+)-mediated binding of [3H]-serotonin, [3H]dopamine and related neurotoxins.

Published
1994
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50. Binding of serotonin and dopamine to 'serotonin binding proteins' in bovine frontal cortex: evidence for iron-induced oxidative mechanisms.

Author

Jimenez Del Rio M, Velez Pardo C, Pinxteren J, De Potter W, Ebinger G, and Vauquelin G

Subjects
Animals, Binding, Competitive drug effects, Cattle, Chelating Agents pharmacology, Ferrous Compounds metabolism, Free Radicals metabolism, Oxidants pharmacology, Oxidation-Reduction, Radioligand Assay, Carrier Proteins metabolism, Dopamine metabolism, Ferrous Compounds pharmacology, Frontal Lobe metabolism, Serotonin metabolism
Abstract

Binding of [3H]serotonin and of [3H]dopamine to serotonin binding proteins (SBP) from soluble extracts of bovine frontal cortex is increased by Fe2+ but not by Fe3+. It was generally believed that Fe2+ first binds to sulfhydryl groups of SBP and that the monoamines form coordination bonds with the trapped iron. We report two series of findings that are incompatible with this mechanism. First, the binding of both radioligands is an irreversible process since it is not diminished when a large excess (1 mM) of serotonin or dopamine is added to a pre-equilibrated mixture of SBP, 0.1 mM Fe2+ and 0.2 microM radioligand. Once formed, binding is not impaired by chelating agents such as ethyleneglycoltetraacetic acid and desferal. Second, the Fe(2+)-stimulated binding is inhibited by reducing agents (sodium ascorbate, vitamin E, sodium metabisulfite) and by agents which deplete superoxide radicals (superoxide dismutase and hydrogen peroxide). Moreover, the effect of Fe2+ can be mimicked by oxidants (sodium periodate, potassium superoxide) and by the generation of superoxide radicals by the xanthine oxidase-catalysed oxidation of xanthine. To integrate these findings, we formulate the hypothesis that Fe2+ reacts with dissolved molecular oxygen to produce superoxide radicals, that these radicals oxidise [3H]serotonin and [3H]dopamine, and that the formed oxidation products bind covalently to cysteine residues of SBP. This alternative mechanism is also based on the ability of reagents which contain or modify sulfhydryl groups to decrease the binding and on the inability of hydroxyl radical scavengers (dimethyl sulfoxide, mannitol, ethanol and thiourea) to do so. Fe2+ is also able to irreversibly inactivate part of the binding sites on SBP (81% of the specific binding of [3H]serotonin, and 61% for [3H]dopamine). This Fe(2+)-mediated inactivation, as well as the covalent nature of the binding, preclude the interpretation of saturation and competition binding data in terms of reversible bimolecular interactions. Yet, such experiments indicate that, at the same concentration, [3H]dopamine binds to 2 to 3 times more sites than [3H]serotonin. Unlabelled dopamine acts also as a potent competitor at all the [3H]serotonin binding sites, whereas unlabelled serotonin only acts as a potent competitor at part (30%) of the [3H]dopamine binding sites. SBP were initially proposed to be involved in the storage, protection and/or transport of serotonin, and recently also of catecholamines. However, these potential functions of SBP can hardly be reconciled with the molecular mechanism of the binding. Moreover, it is conceivable that this binding actually represents an in vitro model for neurodegeneration.

Published
1993
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