TGF-β1 and GDF5 Act Synergistically to Drive the Differentiation of Human Adipose Stromal Cells toward <i>Nucleus Pulposus</i>-like Cells

Colombier, Pauline; Clouet, Johann; Boyer, Cinda M.; Ruel, Maëva; Bonin, Gaëlle; Lesoeur, Julie; Moreau, Anne; Fellah, Borhane H.; Weiss, Pierre; Lescaudron, Laurent; Camus, Anne; Guicheux, Jérôme

doi:10.1002/stem.2249

Cited by 63 publications

(83 citation statements)

References 57 publications

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“…NP specific marker genes (compared to AC or AF) are increasingly used to evaluate stem cell differentiation towards an NP phenotype [12,30]. It is preferable to use unique NP marker genes that are not expressed in AF and AC tissue.…”

Section: Discussionmentioning

confidence: 99%

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Transcriptional profiling distinguishes inner and outer annulus fibrosus from nucleus pulposus in the bovine intervertebral disc

et al. 2017

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Background Cells in the intervertebral disc have unique phenotypes and marker genes that separate the nucleus pulposus (NP), annulus fibrosus (AF) and articular cartilage (AC) have been identified. Recently, it was shown that phenotypic marker genes exhibit variable expression in humans. In this study, the bovine tail was used to determine the ability of marker genes to distinguish the outer and inner AF from NP tissue and isolated cells. Methods Bovine tail intervertebral discs from 13 donors were dissected and correct isolation of tissue was confirmed. mRNA was isolated directly from tissue or passage 0 monolayer cells and used for gene expression measurements (qPCR). Conventional marker genes (bAcan, bCol1a1, bCol2a1) and novel marker genes (bAdamts17, bBrachyury/T, bCD24, bCol5a1, bCol12a1, bFoxf1, bKrt19, bPax1, bSfrp2) were evaluated. Results As expected bAcan, bCol2a1 and bCol1a1 distinguished outer AF from NP tissue, while inner AF and NP could not be discriminated. The NP markers bT, bCd24 and bKrt19 were significantly higher expressed in NP than inner and outer AF tissue. bFoxF1 and bPax1 only distinguished IVD tissues from AC. The AF markers bAdamts17, bCol5a1, bCol12a1 and bSfrp2 were higher expressed in the outer AF compared with inner AF and NP tissue. Monolayer culturing strongly decreased bAcan, bCol2a1, bCD24 and bCol5a1 expression, while bCol1a1, bT, bKrt19 and bSfrp2 were not affected. ConclusionThe IVD phenotypic marker genes bT, bKrt19, bSfrp2 and bCol12a1 convincingly distinguished NP from outer AF in situ and in vitro.

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Section: Discussionmentioning

confidence: 99%

“…In addition, NP specific marker genes are increasingly used as readout to develop stem cell differentiation protocols for NP regeneration [11,12]. However, a recent report described large variation for NP and AF marker genes in human cell isolates, which prevented separation of NP and AF tissue based on phenotypic markers [13].…”

Section: Introductionmentioning

confidence: 99%

Transcriptional profiling distinguishes inner and outer annulus fibrosus from nucleus pulposus in the bovine intervertebral disc

et al. 2017

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“…Mesenchymal stem cells (MSCs) derived from adult tissues such as bone marrow (BM) and adipose MSCs have also been studied for their potential to differentiate into chondrogenic or NP-like cells capable of producing extracellular matrix in vitro. MSCs were reported to be induced by various growth factors such as transforming growth factor (TGF)β, insulin-like growth factor 1 and growth differentiation factor (GDF)6 to express NP-specific markers (Bian and Sun, 2015;Clarke et al, 2014;Colombier et al, 2016;Gupta et al, 2011), while coculturing with BM-MSCs with NP cells resulted in differentiation into cells that express NP-specific markers including aggrecan (ACAN), Versican, Sox9, Col2 and Col6 (Shim et al, 2016;Strassburg et al, 2010). Similarly, differentiation of human BM-MSCs into NP phenotypes was achieved by porcine notochordal cells (Korecki et al, 2010;Purmessur et al, 2011).…”

Section: Introductionmentioning

confidence: 99%

Human umbilical cord derivatives regenerate intervertebral disc

Beeravolu

Brougham

Khan

et al. 2017

J Tissue Eng Regen Med

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Intervertebral disc (IVD) degeneration is characterized by the loss of nucleus pulposus (NP), which is a common cause for lower back pain. Although, currently, there is no cure for the degenerative disc disease, stem cell therapy is increasingly being considered for its treatment. In this study, we investigated the feasibility and efficacy of human umbilical cord mesenchymal stem cells (MSCs) and chondroprogenitor cells (CPCs) derived from those cells to regenerate damaged IVD in a rabbit model. Transplanted cells survived, engrafted and dispersed into NP in situ. Significant improvement in the histology, cellularity, extracellular matrix proteins, and water and glycosaminoglycan contents in IVD recipients of CPCs was observed compared to MSCs. In addition, IVDs receiving CPCs exhibited higher expression of NP-specific human markers, SOX9, aggrecan, collagen 2, FOXF1 and KRT19. The novelty of the study is that in vitro differentiated CPCs derived from umbilical cord MSCs, demonstrated far greater capacity to regenerate damaged IVDs, which provides basis and impetus for stem cell based clinical studies to treat degenerative disc disease.

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“…Extensive evidence shows that TGF-β drives the differentiation of human mesenchymal stem cells toward NF-like cells under simulated microgravity conditions, supports extracellular matrix formation by AF cells, and prevents abnormal calcification of CEP through increasing Ank expression [15,16]. TGF-β inhibits NF-κB and MAPK pathways, thereby serving as a strong immune suppressor in IVD [17].…”

Section: Discussionmentioning

confidence: 99%

Protective effect of estrogen against intervertebral disc degeneration is attenuated by miR-221 through targeting estrogen receptor

Sheng

Yuan

et al. 2017

Preprint

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Intervertebral disc degeneration (IDD) is a multifactorial disease that associates apoptosis, senescence and calcification of cartilage cells, inflammatory response and alterations in the extracellular matrix. Previous documents imply that estrogen and miR-221 may be involved in IDD. This study further investigated their regulatory mechanisms underlying IDD. Normal and degenerated cartilaginous endplates (CEP) tissues were isolated surgically from juvenile patients with idiopathic scoliosis and adult patients with IDD, respectively. PCR and western blot assays showed decreased aggrecan, Col2A1, TGF-β and estrogen receptorα (ERα) levels in CEP, but increased MMP-3, adamts-5, IL-1β, TNF-α, IL-6 and miR-221 levels. CEP cells were harvested from degenerated CEP tissues and treated with doses of 17β-E2. 17β-E2 increased expression of aggrecan and Col2A1 levels in endplate chondrocytes and secretion of TGF-β, but decreased IL-6 secretion. Moreover, 17β-E2 inhibited the apoptosis and cell-cycle arrest in G0/G1, improving the cell viability. These data indicated estrogen confers protective effect against IDD. However, we found that ERα was a target of miR-221 via luciferase assay. miR-221 up-regulation via the mimics or ERα knockdown attenuated these protective effects conferred by estrogen, while intervention of miR-221 via the inhibitors promoted the protective effects. This study provided novel evidence that estrogen confers protective effects of CEP against IDD, however, up-regulated miR-221 in degenerated CEP decreased the protective effects via targeting ERα, thus it may be an important cause for IDD.

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TGF-β1 and GDF5 Act Synergistically to Drive the Differentiation of Human Adipose Stromal Cells toward Nucleus Pulposus-like Cells

Cited by 63 publications

References 57 publications

Transcriptional profiling distinguishes inner and outer annulus fibrosus from nucleus pulposus in the bovine intervertebral disc

Transcriptional profiling distinguishes inner and outer annulus fibrosus from nucleus pulposus in the bovine intervertebral disc

Human umbilical cord derivatives regenerate intervertebral disc

Protective effect of estrogen against intervertebral disc degeneration is attenuated by miR-221 through targeting estrogen receptor

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