Pluripotency Regulators in Human Mesenchymal Stem Cells: Expression of NANOG But Not of OCT-4 and SOX-2

Pierantozzi, Enrico; Gava, Barbara; Manini, Ivana; Roviello, Franco; Marotta, Giuseppe; Chiavarelli, Mario; Sorrentino, Vincenzo

doi:10.1089/scd.2010.0353

Cited by 141 publications

(116 citation statements)

References 46 publications

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“…In contrast, characterization of pluripotent markers in both untreated MSCs and 5-FU-MSCs showed expression of Nanog but not Oct-3/4. This is in agreement with past reports that MSCs express Nanog but not Oct-3/4 (16,30).…”

Section: Discussionsupporting

confidence: 94%

Potently Immunosuppressive 5-Fluorouracil–Resistant Mesenchymal Stromal Cells Completely Remit an Experimental Autoimmune Disease

Cui

Hosseini

et al. 2012

The Journal of Immunology

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We treated mice with 5-fluorouracil (5-FU) to isolate a quiescent and undifferentiated mesenchymal stromal cell (MSC) population from the bone marrow. We examined these 5-FU–resistant MSCs (5-FU–MSCs) free from hematopoietic components for CFU fibroblasts (CFU-Fs) and assessed their immunosuppressive potential in vitro and in vivo. We differentiated fibroblastic CFU-Fs (Fibro–CFU-Fs) from mixed CFU-Fs, based on the absence of in situ expression of CD11b and CD45 hematopoietic markers, as well as on their differentiation capacity. Fibro–CFU-Fs were associated with increased numbers of large-sized Fibro–CFU-Fs (≥9 mm2) that displayed enhanced capacity for differentiation into adipogenic and osteogenic mesenchymal lineages. Administration of these 5-FU–resistant CD11b−CD45− MSCs 6 d after myelin oligodendrocyte glycoprotein (MOG) immunization completely remitted MOG-induced experimental autoimmune encephalomyelitis after initial development of mild disease. The remission was accompanied by reduced CNS cellular infiltration and demyelination, as well as a significant reduction in anti-MOG Ab and splenocyte proliferation to MOG. MOG-stimulated splenocytes from these mice showed elevated levels of Th2 cytokines (IL-4, IL-5, and IL-6) and decreased IL-17. Compared with untreated MSCs, 5-FU–MSCs demonstrated potent immunosuppression of Con A-stimulated splenocytes in vitro, even at a 1:320 MSC/splenocyte ratio. Immunosuppression was accompanied by elevated IL-1ra, IL-10, and PGE2. Blocking IL-1ra, IL-10, and PGE2, but not IL-6, heme oxygenase-1, and NO, attenuated 5-FU–MSC–induced immunosuppression. Together, our findings suggested that immunosuppression by 5-FU-MSC is mediated by a combination of elevated IL-1ra, IL-10, and PGE2, anti-inflammatory Th2 cytokines, and decreased IL-17. Our findings suggested that 5-FU treatment identifies a population of potently immunosuppressive 5-FU–MSCs that have the potential to be exploited to remit autoimmune diseases.

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Section: Discussionsupporting

confidence: 94%

Potently Immunosuppressive 5-Fluorouracil–Resistant Mesenchymal Stromal Cells Completely Remit an Experimental Autoimmune Disease

Cui

Hosseini

et al. 2012

The Journal of Immunology

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“…The lack of expression of these pluripotency markers in intact patellar tendon suggested that immunohistochemical staining of these markers was not suitable for the detection of tendon stem cell in intact tendon in situ. The activation of Oct4, Nanog, Sox2, and nucleostemin as well as CD146 after tendon injury might be related to the functions of these proteins in regulating self-renewal, cell proliferation, differentiation, and/or angiogenesis [28][29][30][31][32].…”

Section: Role Of Lrcs During Tendon Repairmentioning

confidence: 99%

“…TDSCs expressed Nanog, Oct4, Sox2, and nucleostemin that were not observed in LRCs in intact tendon in vivo. The isolation of LRCs induced trauma to tendon, and this might trigger processes similar to tendon injury [28]. The expression of pluripotency markers and pericyte-related markers after …”

Section: Most Tdscs Are Lrcs and Activation Of Lrcs After Isolationmentioning

confidence: 99%

In Vivo Identity of Tendon Stem Cells and the Roles of Stem Cells in Tendon Healing

Tan

Lui

Lee

2013

Stem Cells and Development

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We investigated the spatial distribution of stem cells in tendons and the roles of stem cells in early tendon repair. The relationship between tendon-derived stem cells (TDSCs) isolated in vitro and tendon stem cells in vivo was also explored. Iododeoxyuridine (IdU) label-retaining method was used for labeling stem cells in rat patellar tendons with and without injury. Co-localization of label-retaining cells (LRCs) with different markers was done by immunofluorescent staining. TDSCs were isolated from patellar tendon mid-substance after IdU pulsing, and the expression of different markers in fresh and expanded cells was done by immunofluorescent staining. More LRCs were found at the peritenon and tendon-bone junction compared with the mid-substance. Some LRCs at the peritenon were located at the perivascular niche. The LRC number and the expression of proliferative, tendon-related, pluripotency, and pericyte-related markers in LRCs in the window wound increased. Most of the freshly isolated TDSCs expressed IdU, and some TDSCs expressed pericyte-related markers, which were lost during expansion. Both freshly isolated and subcultured TDSCs expressed pluripotency markers, which were absent in LRCs in intact tendons. In conclusion, we identified LRCs at the peritenon, mid-substance, and tendon-bone junction. There were both vascular and non-vascular sources of LRCs at the peritenon, while the source of LRCs at the mid-substance was non-vascular. LRCs participated in tendon repair via migration, proliferation, activation for tenogenesis, and increased pluripotency. Some LRCs in the window wound were pericyte like. Most of the mid-substance TDSCs were LRCs. The pluripotency markers and pericyte-related marker in LRCs might be important for function after injury. Recently, stem/progenitor cells have been isolated from tendon tissues of varies species, including human, horse, rabbit, rat, and mouse [3][4][5][6]. These stem/progenitor cells isolated from tendon tissues exhibited self-renewal and multilineage differentiation potential [3][4][5][6]. Since the origin and identity of these cells were not clear, we called them tendon-derived stem cells (TDSCs) to indicate only the tissue from which the cells were isolated [5].Many studies suggested that the wall of capillaries, small vessels, and large vessels harbored stem/progenitor cells [7][8][9][10][11]. Some studies further suggested that mesenchymal stem cells (MSCs) were derived from pericytes [9,12].Pericytes/perivascular cells from a variety of tissues were reported to exhibit characteristics that were strikingly similar to those of MSCs [7][8][9][10][11]. For tendons, there was also evidence that the vasculature of tendon tissue might harbor stem cells [13]. However, tendon mid-substance is hypovascular compared with other tissues and receives its blood supply mainly from the endotenon and paratenon [14]. TDSCs isolated from the tendon mid-substance, while positive for alpha smooth muscle actin [5], were not positive for other pericyte-related markers [3,15]. Tend...

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“…Such a surprising high plasticity of MSCs might be explained by the expression of a variety of gene families in undifferentiated MSCs. Several recent studies have shown that MSCs express several embryonic stem cell markers (pluripotent markers) such as Oct4, Nanog, alkaline phosphatase and SSEA-4, and SOX2 (Park & Patel, 2010;Pierantozzi et al, 2011;Riekstina et al, 2009). It also has been demonstrated that the translational and transcriptional machinery in MSCs responsible for the expression of multiple genes typical of several derivatives of three germ layers are not silenced, rather operating at the low level (Blondheim et al, 2006;Tondreau et al, 2008).…”

Section: Mesenchymal Stem Cells As An Ideal Source Of Cells For Regenmentioning

confidence: 99%

Mesenchymal Stem Cells in CNS Regeneration

Alexanian¹

2012

Tissue Regeneration - From Basic Biology to Clinical Application

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Pluripotency Regulators in Human Mesenchymal Stem Cells: Expression of NANOG But Not of OCT-4 and SOX-2

Cited by 141 publications

References 46 publications

Potently Immunosuppressive 5-Fluorouracil–Resistant Mesenchymal Stromal Cells Completely Remit an Experimental Autoimmune Disease

Potently Immunosuppressive 5-Fluorouracil–Resistant Mesenchymal Stromal Cells Completely Remit an Experimental Autoimmune Disease

In Vivo Identity of Tendon Stem Cells and the Roles of Stem Cells in Tendon Healing

Mesenchymal Stem Cells in CNS Regeneration

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