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14. Biochemical and biophysical analyses of tissue-engineered bone obtained from three-dimensional culture of a subset of bone marrow mesenchymal stem cells

Author

Antonio Paolo Beltrami, Renza Spelat, Maura Pandolfi, Federica D'Aurizio, Federico Ferro, Elisa Puppato, Giuseppe Falini, Carlo Alberto Beltrami, Francesco Saverio Ambesi Impiombato, Daniela Cesselli, Francesco Curcio, Ferro, F., Falini, G., Spelat, R., D'Aurizio, F., Puppato, E., Pandolfi, M., Beltrami, A. P., Cesselli, D., Beltrami, C. A., Impiombato, F. S. A., Curcio, F., Ferro F., Falini G., Spelat R., D'aurzio F., Puppato E., Pandolfi M., Beltrami A.P., Cesselli D., Beltrami C.A., Impionbato F.S.A., and Curcio F.

Subjects
Pathology, medicine.medical_specialty, Immunoblotting, Biomedical Engineering, Clinical uses of mesenchymal stem cells, Bone Marrow Cells, Bioengineering, Bone healing, Grafts, Bone tissue, Biochemistry, Flow cytometry, Biomaterials, Microscopy, Electron, Transmission, Bone cell, medicine, Humans, Grafts, tissue-engineered bone, Cells, Cultured, Stem cell transplantation for articular cartilage repair, Osteoblasts, Tissue Engineering, medicine.diagnostic_test, Reverse Transcriptase Polymerase Chain Reaction, Chemistry, Mesenchymal stem cell, Cell Differentiation, Mesenchymal Stem Cells, tissue-engineered bone, Flow Cytometry, Immunohistochemistry, medicine.anatomical_structure, Microscopy, Electron, Scanning, Bone marrow
Abstract

Grafts of tissue-engineered bone represent a promising alternative in the treatment of large and small bone defects. Current approaches are often badly tolerated by patients because of invasiveness, ethical problems, culture, and possibility of infection. Autologous grafts have been indicated as a solution to such problems. Because of tissue availability, many have proposed the use of cultured cells derived from bone marrow expanded in culture and induced to differentiate in bone tissue. Data reported in the literature show that it is possible to produce tissue substitutes in vitro indeed, but results are not always concordant regarding the in vitro produced bone quality. In the present work, we investigated bone formation in aggregates of human bone marrow-derived mesenchymal stem cells induced to differentiate in bone. After osteoinduction we characterized the mineral matrix produced using Fourier transform infrared spectroscopy, scanning electron microscopy, transmission electron microscopy, and X-ray powder diffraction. Cells were obtained from bone marrow, subjected to immunodepletion for CD3, CD11b, CD14, CD16, CD19, CD56, CD66b, and glycophorin A using RosetteSep and cultured in a new formulation of medium for four passages and then were allowed to form spontaneous aggregates. At the end of proliferation before aggregation, cells were analyzed by fluorescent activated cell sorting (FACS) for markers routinely used to characterize expanded mesenchymal stem cells and were found to be remarkably homogeneous for CD29 (99%±1%), CD73 (99%±1%), CD90 (95%±4%), CD105 (96%±4%), and CD133 (0%±1%) expression. Our results show that not only aggregated cells express the major markers of osteogenic differentiation, such as osteocalcin, osteonectin, osteopontin, and bone sialoprotein, but also the inorganic matrix is made of an apatite structurally and morphologically similar to native bone even without a scaffold. © 2010 Mary Ann Liebert, Inc.

Published
2010

15. Dental pulp stem cells differentiation reveals new insights in Oct4A dynamics

Author

Maura Pandolfi, Federico Ferro, Daniela Cesselli, Francesco Curcio, Carlo A. Beltrami, Giuseppe Falini, Elisa Puppato, Renza Spelat, Federica D'Aurizio, Antonio Paolo Beltrami, Ferro, F., Spelat, R., D'Aurizio, F., Puppato, E., Pandolfi, M., Beltrami, A. P., Cesselli, D., Falini, G., Beltrami, C. A., Curcio, F., Austin John Cooney, Federico Ferro, Renza Spelat, Federica D'Aurizio, Elisa Puppato, Maura Pandolfi, Antonio Paolo Beltrami, Daniela Cesselli, Giuseppe Falini, Carlo Alberto Beltrami, and Francesco Curcio

Subjects
Cellular differentiation, genetics/metabolism, Gene Expression, Developmental Signaling, lcsh:Medicine, Stem cell marker, Biochemistry, Molecular Cell Biology, Protein Isoforms, Developmental, lcsh:Science, Child, cytology/metabolism, Induced stem cells, Multidisciplinary, Stem Cells, Gene Expression Regulation, Developmental, Cell Differentiation, Signaling in Selected Disciplines, Cell biology, Adult Stem Cells, Child, Preschool, Biological Markers, Stem cell, Adult stem cell, Research Article, Signal Transduction, Human, Homeobox protein NANOG, Biomarkers, Dental Pulp, Humans, Octamer Transcription Factor-3, Protein Processing, Post-Translational, Rex1, Biology, Kruppel-Like Factor 4, Dental pulp stem cells, DNA-binding proteins, Genetics, Gene Networks, Preschool, Protein Processing, lcsh:R, Post-Translational, Proteins, Protein Isoform, Mesenchymal Stem Cells, Biomarker, Molecular biology, PROTEIN-KINASE CK2, SELF-RENEWAL, IN-VITRO, ADIPOSE-TISSUE, BONE-MARROW, DNA-BINDING, ES CELLS, NUCLEAR EXPORT, EXPRESSION, PLURIPOTENCY, cytology/metabolism, Biological Markers, metabolism, Cell Differentiation, Child, Child, Preschool, Dental Pulp, cytology, Gene Expression Regulation, Developmental, Humans, Octamer Transcription Factor-3, genetics/metabolism, Protein Isoforms, genetics/metabolism, Protein Processing, Gene Expression Regulation, Adult Stem Cell, cytology, lcsh:Q, metabolism, Developmental Biology
Abstract

Although the role played by the core transcription factor network, which includes c-Myc, Klf4, Nanog, and Oct4, in the maintenance of embryonic stem cell (ES) pluripotency and in the reprogramming of adult cells is well established, its persistence and function in adult stem cells are still debated. To verify its persistence and clarify the role played by these molecules in adult stem cell function, we investigated the expression pattern of embryonic and adult stem cell markers in undifferentiated and fully differentiated dental pulp stem cells (DPSC). A particular attention was devoted to the expression pattern and intracellular localization of the stemness-associated isoform A of Oct4 (Oct4A). Our data demonstrate that: Oct4, Nanog, Klf4 and c-Myc are expressed in adult stem cells and, with the exception of c-Myc, they are significantly down-regulated following differentiation. Cell differentiation was also associated with a significant reduction in the fraction of DPSC expressing the stem cell markers CD10, CD29 and CD117. Moreover, a nuclear to cytoplasm shuttling of Oct4A was identified in differentiated cells, which was associated with Oct4A phosphorylation. The present study would highlight the importance of the post-translational modifications in DPSC stemness maintenance, by which stem cells balance self-renewal versus differentiation. Understanding and controlling these mechanisms may be of great importance for stemness maintenance and stem cells clinical use, as well as for cancer research. © 2012 Ferro et al.

Published
2012

16. Dental pulp stem cells differentiation reveals new insights in Oct4A dynamics.

Author

Ferro F, Spelat R, D'Aurizio F, Puppato E, Pandolfi M, Beltrami AP, Cesselli D, Falini G, Beltrami CA, and Curcio F

Subjects
Biomarkers metabolism, Child, Child, Preschool, Gene Expression Regulation, Developmental, Humans, Kruppel-Like Factor 4, Octamer Transcription Factor-3 genetics, Protein Isoforms genetics, Protein Isoforms metabolism, Protein Processing, Post-Translational, Adult Stem Cells cytology, Adult Stem Cells metabolism, Cell Differentiation, Dental Pulp cytology, Octamer Transcription Factor-3 metabolism
Abstract

Although the role played by the core transcription factor network, which includes c-Myc, Klf4, Nanog, and Oct4, in the maintenance of embryonic stem cell (ES) pluripotency and in the reprogramming of adult cells is well established, its persistence and function in adult stem cells are still debated. To verify its persistence and clarify the role played by these molecules in adult stem cell function, we investigated the expression pattern of embryonic and adult stem cell markers in undifferentiated and fully differentiated dental pulp stem cells (DPSC). A particular attention was devoted to the expression pattern and intracellular localization of the stemness-associated isoform A of Oct4 (Oct4A). Our data demonstrate that: Oct4, Nanog, Klf4 and c-Myc are expressed in adult stem cells and, with the exception of c-Myc, they are significantly down-regulated following differentiation. Cell differentiation was also associated with a significant reduction in the fraction of DPSC expressing the stem cell markers CD10, CD29 and CD117. Moreover, a nuclear to cytoplasm shuttling of Oct4A was identified in differentiated cells, which was associated with Oct4A phosphorylation. The present study would highlight the importance of the post-translational modifications in DPSC stemness maintenance, by which stem cells balance self-renewal versus differentiation. Understanding and controlling these mechanisms may be of great importance for stemness maintenance and stem cells clinical use, as well as for cancer research.

Published
2012
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17. Circulating stem cell vary with NYHA stage in heart failure patients.

Author

Fortini C, Toffoletto B, Fucili A, Puppato E, Olivares A, Beltrami AP, Fiorelli V, Bergamin N, Cesselli D, Morelli C, Francolini G, Ferrari R, and Beltrami CA

Subjects
Aged, Analysis of Variance, Becaplermin, Chemokine CXCL12 blood, Endothelial Cells metabolism, Enzyme-Linked Immunosorbent Assay, Female, Fibroblast Growth Factor 2 blood, Heart Failure classification, Heart Failure pathology, Hematopoietic Stem Cells metabolism, Hepatocyte Growth Factor blood, Humans, Male, Mesenchymal Stem Cells metabolism, Middle Aged, Platelet-Derived Growth Factor metabolism, Proto-Oncogene Proteins c-sis, Receptors, CXCR4 blood, Severity of Illness Index, Thy-1 Antigens blood, Tumor Necrosis Factor-alpha blood, Vascular Endothelial Growth Factor A blood, Antigens, CD blood, Cytokines blood, Heart Failure blood, Stem Cells metabolism
Abstract

We have investigated the blood levels of sub-classes of stem cells (SCs) [mesenchymal stem cells (MSCs), haematopoietic stem cells (HSCs), endothelial progenitor cells/circulating endothelial cells (EPCs/CECs) and tissue-committed stem cells (TCSCs)] in heart failure (HF) patients at different stage of pathology and correlated it with plasmatic levels of proangiogenic cytokines. Peripheral blood level of SCs were analysed in 97 HF patients (24 in NYHA class I, 41 in class II, 17 in class III and 15 in class IV) and in 23 healthy controls. Plasmatic levels of PDGF-BB, bFGF, HGF, vascular endothelial growth factor (VEGF), SDF-1α, TNF-α and NTproBNP were also measured. Compared with healthy individuals, MSC, and in particular the sub-classes CD45(-) CD34(-) CD90(+) , CD45(-) CD34(-) CD105(+) and CD45(-) CD34(-) CXCR4(+) were significantly enhanced in NYHA class IV patients (16.8-, 6.4- and 2.7-fold, respectively). Level of CD45(-) CD34(-) CD90(+) CXCR4(+) cells progressively increased from class II to class IV (fold increases compared with controls: 8.5, 12 and 21.5, respectively). A significant involvement of CXCR4(+) subpopulation of HSC (CD45(+) CD34(+) CD90(+) CXCR4(+) , 1.4 versus 13.3 cells/μl in controls and NYHA class III patients, respectively) and TCSC (CD45(-) CD34(+) CXCR4(+) , 1.5 cells/ μl in controls versus 12.4 and 28.6 cells/μl in NYHA classes II and IV, respectively) were also observed. All tested cytokines were enhanced in HF patients. In particular, for PDGF-BB and SDF-1α we studied specific ligand/receptors pairs. Interestingly, the first one positively correlated with TCSCs expressing PDGFR (r = 0.52, P = 0.001), whereas the second one correlated with TCSCs (r = 0.34, P = 0.005) and with MSCs CD90(+) expressing CXCR4 (r = 0.39, P = 0.001). HF is characterized by the increase in the circulating levels of different MSC, HSC, EPC and TCSC subsets. Both the entity and kinetic of this process varied in distinct cell subsets. Specifically, differently from HSCs and EPCs/CECs, MSCs and TCSCs significantly increased with the progression of the disease, suggesting a possible distinct role of these cells in the pathophysiology of HF., (© 2011 The Authors Journal compilation © 2011 Foundation for Cellular and Molecular Medicine/Blackwell Publishing Ltd.)

Published
2011
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18. Effects of age and heart failure on human cardiac stem cell function.

Author

Cesselli D, Beltrami AP, D'Aurizio F, Marcon P, Bergamin N, Toffoletto B, Pandolfi M, Puppato E, Marino L, Signore S, Livi U, Verardo R, Piazza S, Marchionni L, Fiorini C, Schneider C, Hosoda T, Rota M, Kajstura J, Anversa P, Beltrami CA, and Leri A

Subjects
Animals, Apoptosis, Biomarkers, Tumor genetics, Biomarkers, Tumor metabolism, Blotting, Western, Case-Control Studies, Cell Differentiation, Cell Proliferation, Female, Fluorescent Antibody Technique, Gene Expression Profiling, Humans, Male, Mice, Mice, Inbred NOD, Mice, SCID, Neoplasms, Experimental etiology, Neoplasms, Experimental pathology, Oligonucleotide Array Sequence Analysis, RNA, Messenger genetics, Reverse Transcriptase Polymerase Chain Reaction, Telomerase, Telomere genetics, Cellular Senescence, Heart physiopathology, Heart Failure complications, Myocytes, Cardiac pathology, Stem Cells cytology, Stem Cells physiology
Abstract

Currently, it is unknown whether defects in stem cell growth and differentiation contribute to myocardial aging and chronic heart failure (CHF), and whether a compartment of functional human cardiac stem cells (hCSCs) persists in the decompensated heart. To determine whether aging and CHF are critical determinants of the loss in growth reserve of the heart, the properties of hCSCs were evaluated in 18 control and 23 explanted hearts. Age and CHF showed a progressive decrease in functionally competent hCSCs. Chronological age was a major predictor of five biomarkers of hCSC senescence: telomeric shortening, attenuated telomerase activity, telomere dysfunction-induced foci, and p21(Cip1) and p16(INK4a) expression. CHF had similar consequences for hCSCs, suggesting that defects in the balance between cardiomyocyte mass and the pool of nonsenescent hCSCs may condition the evolution of the decompensated myopathy. A correlation was found previously between telomere length in circulating bone marrow cells and cardiovascular diseases, but that analysis was restricted to average telomere length in a cell population, neglecting the fact that telomere attrition does not occur uniformly in all cells. The present study provides the first demonstration that dysfunctional telomeres in hCSCs are biomarkers of aging and heart failure. The biomarkers of cellular senescence identified here can be used to define the birth date of hCSCs and to sort young cells with potential therapeutic efficacy., (Copyright © 2011 American Society for Investigative Pathology. Published by Elsevier Inc. All rights reserved.)

Published
2011
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19. Adipose tissue-derived stem cell in vitro differentiation in a three-dimensional dental bud structure.

Author

Ferro F, Spelat R, Falini G, Gallelli A, D'Aurizio F, Puppato E, Pandolfi M, Beltrami AP, Cesselli D, Beltrami CA, Ambesi-Impiombato FS, and Curcio F

Subjects
Adult, Blotting, Western, Cell Lineage, Cell Separation, Flow Cytometry, Fluorescent Antibody Technique, Humans, Immunohistochemistry, In Vitro Techniques, Microscopy, Electron, Transmission, Reverse Transcriptase Polymerase Chain Reaction, Tooth growth & development, X-Ray Diffraction, Adipose Tissue cytology, Cell Transdifferentiation physiology, Mesenchymal Stem Cells cytology, Odontogenesis physiology, Tooth cytology
Abstract

Tooth morphogenesis requires sequential and reciprocal interactions between the cranial neural crest-derived mesenchymal cells and the stomadial epithelium, which regulate tooth morphogenesis and differentiation. We show how mesenchyme-derived single stem cell populations can be induced to transdifferentiate in vitro in a structure similar to a dental bud. The presence of stem cells in the adipose tissue has been previously reported. We incubated primary cultures of human adipose tissue-derived stem cells in a dental-inducing medium and cultured the aggregates in three-dimensional conditions. Four weeks later, cells formed a three-dimensional organized structure similar to a dental bud. Expression of dental tissue-related markers was tested assaying lineage-specific mRNA and proteins by RT-PCR, immunoblot, IHC, and physical-chemical analysis. In the induction medium, cells were positive for ameloblastic and odontoblastic markers as both mRNAs and proteins. Also, cells expressed epithelial, mesenchymal, and basement membrane markers with a positional relationship similar to the physiologic dental morphogenesis. Physical-chemical analysis revealed 200-nm and 50-nm oriented hydroxyapatite crystals as displayed in vivo by enamel and dentin, respectively. In conclusion, we show that adipose tissue-derived stem cells in vitro can transdifferentiate to produce a specific three-dimensional organization and phenotype resembling a dental bud even in the absence of structural matrix or scaffold to guide the developmental process., (Copyright © 2011 American Society for Investigative Pathology. Published by Elsevier Inc. All rights reserved.)

Published
2011
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20. Role of tumor associated fibroblasts in human liver regeneration, cirrhosis, and cancer.

Author

Cesselli D, Beltrami AP, Poz A, Marzinotto S, Comisso E, Bergamin N, Bourkoula E, Pucer A, Puppato E, Toffoletto B, Sorrentino M, Baccarani U, Avellini C, and Beltrami CA

Abstract

Tumor associated fibroblasts (TAFs) are considered a microenvironmental element critical for tumor growth and progression. Experimental studies suggest that their origin could be from mesenchymal stem cells (MSCs) derived from the bone marrow. However, the role played by TAFs in cirrhosis, hepatocellular carcinoma development, and progression is largely unknown, and in vitro human models are missing. This paper for the first time demonstrates that (1) human neoplastic livers possess a population of multipotent adult stem cells (MASCs) with properties of TAFs; (2) a population of MASC-derived TAFs is already present in cirrhotic, not yet neoplastic, livers; (3) MASCs isolated from nonneoplastic and noncirrhotic liver scan acquire a TAF phenotype when grown in a medium conditioned by tumor cell lines, supporting the notion that TAF could originate from resident primitive cells (MASCs), possibly through a paracrine mechanism.

Published
2011
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21. Biochemical and biophysical analyses of tissue-engineered bone obtained from three-dimensional culture of a subset of bone marrow mesenchymal stem cells.

Author

Ferro F, Falini G, Spelat R, D'Aurizio F, Puppato E, Pandolfi M, Beltrami AP, Cesselli D, Beltrami CA, Impiombato FS, and Curcio F

Subjects
Bone Marrow Cells ultrastructure, Cell Differentiation physiology, Cells, Cultured, Flow Cytometry, Humans, Immunoblotting, Immunohistochemistry, Mesenchymal Stem Cells ultrastructure, Microscopy, Electron, Scanning, Microscopy, Electron, Transmission, Osteoblasts cytology, Osteoblasts metabolism, Osteoblasts ultrastructure, Reverse Transcriptase Polymerase Chain Reaction, Bone Marrow Cells cytology, Bone Marrow Cells metabolism, Mesenchymal Stem Cells cytology, Mesenchymal Stem Cells metabolism, Tissue Engineering methods
Abstract

Grafts of tissue-engineered bone represent a promising alternative in the treatment of large and small bone defects. Current approaches are often badly tolerated by patients because of invasiveness, ethical problems, culture, and possibility of infection. Autologous grafts have been indicated as a solution to such problems. Because of tissue availability, many have proposed the use of cultured cells derived from bone marrow expanded in culture and induced to differentiate in bone tissue. Data reported in the literature show that it is possible to produce tissue substitutes in vitro indeed, but results are not always concordant regarding the in vitro produced bone quality. In the present work, we investigated bone formation in aggregates of human bone marrow-derived mesenchymal stem cells induced to differentiate in bone. After osteoinduction we characterized the mineral matrix produced using Fourier transform infrared spectroscopy, scanning electron microscopy, transmission electron microscopy, and X-ray powder diffraction. Cells were obtained from bone marrow, subjected to immunodepletion for CD3, CD11b, CD14, CD16, CD19, CD56, CD66b, and glycophorin A using RosetteSep and cultured in a new formulation of medium for four passages and then were allowed to form spontaneous aggregates. At the end of proliferation before aggregation, cells were analyzed by fluorescent activated cell sorting (FACS) for markers routinely used to characterize expanded mesenchymal stem cells and were found to be remarkably homogeneous for CD29 (99% ± 1%), CD73 (99% ± 1%), CD90 (95% ± 4%), CD105 (96% ± 4%), and CD133 (0% ± 1%) expression. Our results show that not only aggregated cells express the major markers of osteogenic differentiation, such as osteocalcin, osteonectin, osteopontin, and bone sialoprotein, but also the inorganic matrix is made of an apatite structurally and morphologically similar to native bone even without a scaffold.

Published
2010
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22. TNF-alpha modulates the migratory response of mesenchymal stem cells to TRAIL.

Author

Corallini F, Secchiero P, Beltrami AP, Cesselli D, Puppato E, Ferrari R, Beltrami CA, and Zauli G

Subjects
Acute Disease, Case-Control Studies, Enzyme-Linked Immunosorbent Assay, Female, Flow Cytometry, Follow-Up Studies, Humans, Male, Mesenchymal Stem Cells cytology, Middle Aged, Myocardial Infarction pathology, Osteoprotegerin metabolism, Cell Movement, Mesenchymal Stem Cells metabolism, Myocardial Infarction metabolism, TNF-Related Apoptosis-Inducing Ligand pharmacology, Tumor Necrosis Factor-alpha pharmacology
Abstract

The number of circulating mesenchymal stem cells (MSC), analyzed after acute myocardial infarction (AMI), was lower in AMI patients who developed heart failure (HF) in the follow-up. Conversely, the circulating levels of tumor necrosis factor (TNF)-alpha, and osteoprotegerin (OPG) were higher in AMI patients who developed HF with respect to the patients who did not develop HF. In vitro exposure to TNF-alpha enhanced the migration of MSC in response to TNF-related apoptosis-inducing ligand (TRAIL) and significantly increased the release of OPG by endothelial cells. On the contrary, OPG dose-dependently neutralized the in vitro pro-migratory activity of TRAIL. Thus, TNF-alpha exhibits opposite effects on MSC migration driven by TRAIL: it is capable of potentiating MSC migration as well as of inhibiting MSC migration as an indirect consequence of OPG induction, which might result in a suboptimal recruitment of circulating MSC after AMI in those patients who develop HF in the follow-up.

Published
2010
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23. Multipotent cells can be generated in vitro from several adult human organs (heart, liver, and bone marrow).

Author

Beltrami AP, Cesselli D, Bergamin N, Marcon P, Rigo S, Puppato E, D'Aurizio F, Verardo R, Piazza S, Pignatelli A, Poz A, Baccarani U, Damiani D, Fanin R, Mariuzzi L, Finato N, Masolini P, Burelli S, Belluzzi O, Schneider C, and Beltrami CA

Subjects
Adult, Aged, Aged, 80 and over, Cell Proliferation, Cell Separation, Cells, Cultured, Clone Cells, Female, Gene Expression Profiling, Humans, Immunophenotyping, Male, Middle Aged, Multipotent Stem Cells metabolism, Oligonucleotide Array Sequence Analysis, Bone Marrow Cells cytology, Liver cytology, Multipotent Stem Cells cytology, Myocardium cytology
Abstract

The aims of our study were to verify whether it was possible to generate in vitro, from different adult human tissues, a population of cells that behaved, in culture, as multipotent stem cells and if these latter shared common properties. To this purpose, we grew and cloned finite cell lines obtained from adult human liver, heart, and bone marrow and named them human multipotent adult stem cells (hMASCs). Cloned hMASCs, obtained from the 3 different tissues, expressed the pluripotent state-specific transcription factors Oct-4, NANOG, and REX1, displayed telomerase activity, and exhibited a wide range of differentiation potential, as shown both at a morphologic and functional level. hMASCs maintained a human diploid DNA content, and shared a common gene expression signature, compared with several somatic cell lines and irrespectively of the tissue of isolation. In particular, the pathways regulating stem cell self-renewal/maintenance, such as Wnt, Hedgehog, and Notch, were transcriptionally active. Our findings demonstrate that we have optimized an in vitro protocol to generate and expand cells from multiple organs that could be induced to acquire morphologic and functional features of mature cells even embryologically not related to the tissue of origin.

Published
2007
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