Human Mesenchymal Stem Cell Functional Identification Kit
Human Mesenchymal Stem Cell Functional Identification Kit Summary
To verify multipotency of human mesenchymal stem cells by in vitro functional differentiation.
Key Benefits
- Confirms that the starting MSC population is multipotent
- Can be used with the Human MSC Verification Flow Kit to define MSCs according to the ISCT recommendations
- Reliably induces MSC trilineage differentiation using defined supplements
- Includes premium quality antibodies to confirm differentiation
Why Funtionally Verify Human MSC Multipotency In Vitro?
Mesenchymal stem/stromal cells (MSCs) can be characterized based on the expression of specific cell surface markers, the absence of hematopoietic markers, and adherence to plastic in vitro.
To more rigorously determine if a cell is truly an MSC, it is important to also verify its ability to differentiate into adipocytes, chondrocytes, and osteocytes.
Functional verification of MSC multipotency in vitro:
- Uses defined supplements to drive reproducible trilineage differentiation.
- Verifies a healthy, multipotent starting MSC population to increase consistency between studies and reduce unwanted experimental variability.
- Meets one of the three recommended minimal criteria for MSC identification.
Mesenchymal Stromal Cells or Mesenchymal Stem Cells?
The term ‘mesenchymal stromal cells’ is commonly used to describe a heterogeneous population of cultured cells that are adherent to plastic, have a distinct morphology, and express a specific set of marker proteins. Within this heterogeneous population are cells referred to as ‘mesenchymal stem cells.’
Mesenchymal stem cells are multipotent, self-renewing cells that have the ability to differentiate into adipocytes, chondrocytes, and osteoblasts when cultured in vitro. Read More about MSC Nomenclature
Kit Components
This kit contains the following reagents to drive MSC differentiation and a marker to analyze each of the three differentiated derivatives:
- Adipogenic Supplement
- Chondrogenic Supplement
- Osteogenic Supplement
- ITS Supplement
- Adipocyte marker: Goat Anti-Mouse FABP4 Antigen Affinity-purified Polyclonal Antibody
- Chondrocyte marker: Goat Anti-Human Aggrecan Antigen Affinity-purified Polyclonal Antibody
- Osteocyte marker: Mouse Anti-Human Osteocalcin Monoclonal Antibody
This kit requires media (not included), such as Human/Mouse/Rat StemXVivo Osteogenic/Adipogenic Base Media (CCM007) or equivalent.
The quantity of each media supplement in this kit is sufficient to make 50 mL of media for differentiation. This is enough media for the differentiation of 16 wells of a 24-well plate for osteogenic and adipogenic lineages and 10 chondrocyte pellets.
Precautions
- The Adipogenic Supplement contains 95% ethanol and is highly flammable. Keep the container tightly closed, and keep it away from sources of ignition.
- The acute and chronic effects of over-exposure to the reagents in this kit are unknown. Safe laboratory handling procedures should be followed and protective clothing should be worn when handling kit reagents.
- The ITS Supplement contains human transferrin. This transferrin was purified from donor plasma and tested at the donor level using an FDA licensed method and found to be non-reactive for anti-HIV-1/2 and Hepatitis B surface antigen.
2006 Proposed Change to MSC Nomenclature
Although mesenchymal stromal cells were once referred to as ‘mesenchymal stem cells’, a change to ‘mesenchymal stromal cells’ was proposed by the International Society for Cellular Therapy in 2006.1
The change in nomenclature originates from two important factors:
- Methods used to isolate mesenchymal stem cells yield a heterogeneous population of cells with only a fraction of these cells demonstrating multipotency.
- The absence of direct evidence that mesenchymal stem cells can self-renew and differentiate in vivo.
Use of Mesenchymal Stem and Stromal Cell Terminology
Data supporting MSC self-renewal and multipotency have been obtained using in vitro conditions, which does not adequately reflect the in vivo environment. The lack of in vivo data has led some researchers to question the validity of the term ‘mesenchymal stem cell’ providing further support for the use of ‘mesenchymal stromal cells’ to describe MSCs.2 While ‘mesenchymal stromal cells’ may be the more scientifically accurate term for MSCs, the two terms are often used interchangeably in the literature. R&D Systems recognizes the use of both mesenchymal stem cells and mesenchymal stromal cells and uses ‘MSC’ to indicate mesenchymal stem/stromal cells to account for both designations.
Definitions of Mesenchymal Stromal Cells and Mesenchymal Stem Cells
- Mesenchymal Stromal Cells – A heterogeneous population of cultured cells with similar characteristics such as the ability to adhere to plastic and the expression of specific marker proteins.
- Mesenchymal Stem Cells – A subpopulation of mesenchymal stromal cells that have the capacity to self-renew and differentiate into mesodermal lineages when cultured in vitro. The capacity to self-renew and differentiate in vivo has yet to be clearly demonstrated for mesenchymal stem cells.
References
- Dominici, M. et al. (2006) Cytotherapy 8:315.
- Keating, A. (2012) Cell Stem Cell 10:709.
Specifications
Product Datasheets
Scientific Data
Verification of Multipotency using the Human Mesenchymal Stem Cell Functional Identification Kit. Human mesenchymal stem cells were cultured in StemXVivo®Mesenchymal Stem Cell Expansion Media (Catalog # CCM004) and differentiation was induced as indicated using the media supplements included in the Human Mesenchymal Stem Cell Functional Identification Kit (Catalog # SC006). The kit also contains a Goat Anti-Mouse FABP-4 Antigen Affinity-purified Polyclonal Antibody (adipocytes), a Goat Anti-Human Aggrecan Antigen Affinity-purified Polyclonal Antibody (chondrocytes), and a Mouse Anti-Human Osteocalcin Monoclonal Antibody (osteocytes) for the confirmation of differentiation status. The cells were stained using the NorthernLightsTM 557-conjugated Donkey Anti-Goat (Catalog # NL001; red) or Anti-Mouse (Catalog # NL007; red) IgG Secondary Antibodies, and the nuclei were counterstained with DAPI (blue).
Assay Procedure
Refer to the product datasheet for complete product details.
Briefly, human MSC multipotency is verified using the following in vitro differentiation procedure:
- Culture multipotent cells of interest
- Induce adipocyte, chondrocyte, and osteocyte differentiation using media supplements
- Evaluate differentiation using mature phenotype marker antibodies and fluorescent ICC
Reagents Provided
Reagents supplied in the Human Mesenchymal Stem Cell Functional Identification Kit (Catalog # SC006):
- Adipogenic Supplement
- Chondrogenic Supplement
- Osteogenic Supplement
- ITS Supplement
- Adipocyte marker: Goat Anti-Mouse FABP4 Antigen-affinity Purified Polyclonal Antibody
- Chondrocyte marker: Goat Anti-Human Aggrecan Antigen-affinity Purified Polyclonal Antibody
- Osteocyte marker: Mouse Anti-Human Osteocalcin Antigen-affinity Purified Monoclonal Antibody
Note: The quantity of each media supplement in this kit is sufficient to make 50 mL of media for differentiation. 50 mL can be used for 16 wells of a 24-well plate for osteogenic and adipogenic lineages and 10 chondrocyte pellets.
Other Supplies Required
Reagents
- StemXVivo® Osteogenic/Adipogenic Base Media (Catalog # CCM007 or equivalent)
- D-MEM/F-12 (1X)
- Phosphate Buffered Saline (PBS)
- Penicillin-Streptomycin-Glutamate (100X)
- 4% Paraformaldehyde in PBS
- 1% BSA in PBS
- Triton® X-100
- 10% normal donkey serum
- Fibronectin (optional; Human Fibronectin, Catalog # 1918-FN, Bovine Fibronectin, Catalog # 1030-FN, or equivalent)
- Mounting medium (Catalog # CTS011 or equivalent)
- NorthernLightsTM 557-conjugated Donkey Anti-Goat IgG Secondary Antibody (Catalog # NL001 or equivalent)
- Deionized or distilled water
Materials
- Human MSCs
- 24-well culture plates
- 12 mm coverslips (Carolina Biologicals, Catalog # 633009 or equivalent)
- 15 mL centrifuge tubes
- Pipettes and pipette tips
- Serological pipettes
- Glass slides
- Fine pointed curved forceps
- Liquid barrier pen
Equipment
- 37 °C and 5% CO2 incubator
- Centrifuge
- Hemocytometer
- Inverted microscope
- 2 °C to 8 °C refrigerator
- 37 °C water bath
- Fluorescence microscope
- Cryostat
Procedure Overview
This protocol has been tested using bone marrow- and/or adipose tissue-derived MSCs. If using a different tissue source or cell line, the protocol below may need to be optimized.
Adipogenic Differentiation
Plate 2.1 x 104 MSCs/cm2 in StemXVivo® Osteogenic/Adipogenic Base Media.
Culture cells to 100% confluency.
Replace the medium with Adipogenic Differentiation Medium to induce adipogenesis.
Every 2-3 days, replace with fresh Adipogenic Differentiation Medium.
After 14-21 days, adipocytes can be fixed.
ICC detection of FABP4.
Osteogenic Differentiation
Plate 4.2 x 103 MSCs/cm2 in StemXVivo® Osteogenic/Adipogenic Base Media.
Culture cells to 50-70% confluency.
Replace the medium with Osteogenic Differentiation Medium to induce osteogenesis.
Every 3-4 days, replace with fresh Osteogenic Differentiation Medium.
After 14-21 days, osteocytes can be fixed.
ICC detection of Osteocalcin.
Chondrogenic Differentiation
Transfer 2.5 x 104 MSCs to a 15 mL conical tube.
Centrifuge and resuspend the cells in Chondrogenic Differentiation Media.
Centrifuge the cells but do not remove the medium.
Every 2-3 days, replace with fresh Chondrogenic Differentiation Media.
After 14-21 days, the chondrogenic pellet can be fixed.
Cryosection the chondrogenic pellet.
ICC detection of Aggrecan.
Citations for Human Mesenchymal Stem Cell Functional Identification Kit
R&D Systems personnel manually curate a database that contains references using R&D Systems products. The data collected includes not only links to publications in PubMed, but also provides information about sample types, species, and experimental conditions.
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In Vivo and In Vitro Pro-Fibrotic Response of Lung-Resident Mesenchymal Stem Cells from Patients with Idiopathic Pulmonary Fibrosis
Authors: Escarrer-Garau, G;Martín-Medina, A;Truyols-Vives, J;Gómez-Bellvert, C;Elowsson, L;Westergren-Thorsson, G;Molina-Molina, M;Mercader-Barceló, J;Sala-Llinàs, E;
Cells 2024-01-16
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Mitochondrial Dysfunction in Lung Resident Mesenchymal Stem Cells from Idiopathic Pulmonary Fibrosis Patients
Authors: Mercader-Barceló, J;Martín-Medina, A;Truyols-Vives, J;Escarrer-Garau, G;Elowsson, L;Montes-Worboys, A;Río-Bocos, C;Muncunill-Farreny, J;Velasco-Roca, J;Cederberg, A;Kadefors, M;Molina-Molina, M;Westergren-Thorsson, G;Sala-Llinàs, E;
Cells 2023-08-17
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Adipose-derived mesenchymal stem cell therapy for reverse bleomycin-induced experimental pulmonary fibrosis
Authors: Zhao, X;Wu, J;Yuan, R;Li, Y;Yang, Q;Wu, B;Zhai, X;Wang, J;Magalon, J;Sabatier, F;Daumas, A;Zhu, WM;Zhu, N;
Scientific reports 2023-08-14
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Enhanced human periodontal ligament stem cell viability and osteogenic differentiation on two implant materials: An experimental in vitro study
Authors: El Shafei, SF;Raafat, SN;Farag, EA;
F1000Research 2023-08-08
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Directed differentiation of human iPSCs into mesenchymal lineages by optogenetic control of TGF-? signaling
Authors: Wu, JY;Yeager, K;Tavakol, DN;Morsink, M;Wang, B;Soni, RK;Hung, CT;Vunjak-Novakovic, G;
Cell reports 2023-05-12
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Mesenchymal stromal cells and alpha-1 antitrypsin have a strong synergy in modulating inflammation and its resolution
Authors: Han, L;Wu, X;Wang, O;Luan, X;Velander, WH;Aynardi, M;Halstead, ES;Bonavia, AS;Jin, R;Li, G;Li, Y;Wang, Y;Dong, C;Lei, Y;
Theranostics 2023-05-08
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A Mutant Methionyl-tRNA Synthetase-Based toolkit to assess induced-Mesenchymal Stromal Cell secretome in mixed-culture disease models
Authors: Burgess, JD;Amerna, D;Norton, ES;Parsons, TM;Iii, RBP;Faroqi, AH;Wszolek, ZK;Cazares, HG;Kanekiyo, T;Delenclos, M;McLean, PJ;
Research square 2023-05-03
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Adipose-Derived Stromal Cells within a Gelatin Matrix Acquire Enhanced Regenerative and Angiogenic Properties: A Pre-Clinical Study for Application to Chronic Wounds
Authors: NC Brembilla, A Modarressi, D André-Lévi, E Brioudes, F Lanza, H Vuagnat, S Durual, L Marger, WH Boehncke, KH Krause, O Preynat-Se
Biomedicines, 2023-03-22;11(3):. 2023-03-22
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Mesenchymal Stem Cells from COPD Patients Are Capable of Restoring Elastase-Induced Emphysema in a Murine Experimental Model
Authors: C Río, AK Jahn, A Martin-Med, AM Calvo Bota, MT De Francis, PJ Pont Anton, O Gigirey Ca, ÁF Carvajal, C Villena Po, C Gómez Bell, A Iglesias, J Calvo Beni, A Gayà Puig, LA Ortiz, E Sala-Llinà
International Journal of Molecular Sciences, 2023-03-18;24(6):. 2023-03-18
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Effect of Different Sealers on the Cytocompatibility and Osteogenic Potential of Human Periodontal Ligament Stem Cells: An In Vitro Study
Authors: S Saber, S Raafat, M Elashiry, A El-Banna, E Schäfer
Journal of Clinical Medicine, 2023-03-17;12(6):. 2023-03-17
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Carbonised Human Hair Incorporated in Agar/KGM Bioscaffold for Tissue Engineering Application: Fabrication and Characterisation
Authors: V Vitus, F Ibrahim, SAA Shamsuddin, N Razali, NAB Noor Azlan, WSWK Zaman
Polymers, 2022-12-15;14(24):. 2022-12-15
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Efficient Isolation and Functional Characterization of Niche Cells from Human Corneal Limbus
Authors: N Polisetti, L Sharaf, U Schlötzer-, G Schlunck, T Reinhard
International Journal of Molecular Sciences, 2022-03-02;23(5):. 2022-03-02
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Composite alginate-gelatin hydrogels incorporating PRGF enhance human dental pulp cell adhesion, chemotaxis and proliferation
Authors: E Anitua, M Zalduendo, M Troya, I Erezuma, I Lukin, R Hernáez-Mo, G Orive
International journal of pharmaceutics, 2022-03-02;617(0):121631. 2022-03-02
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Adipose-derived stem cell spheroids are superior to single-cell suspensions to improve fat autograft long-term survival
Authors: S El Harane, S Durual, T Braschler, D André-Lévi, N Brembilla, KH Krause, A Modarressi, O Preynat-Se
Journal of Cellular and Molecular Medicine, 2022-02-11;0(0):. 2022-02-11
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A Robust and Highly Efficient Approach for Isolation of Mesenchymal Stem Cells From Wharton's Jelly for Tissue Repair
Authors: S Zheng, Y Gao, K Chen, Y Liu, N Xia, F Fang
Cell Transplantation, 2022-01-01;31(0):9636897221084. 2022-01-01
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Adipocytes disrupt the translational programme of acute lymphoblastic leukaemia to favour tumour survival and persistence
Authors: Q Heydt, C Xintaropou, A Clear, M Austin, I Pislariu, F Miraki-Mou, P Cutillas, K Korfi, M Calaminici, W Cawthorn, K Suchacki, A Nagano, JG Gribben, M Smith, JD Cavenagh, H Oakervee, A Castleton, D Taussig, B Peck, A Wilczynska, L McNaughton, D Bonnet, F Mardakheh, B Patel
Nature Communications, 2021-09-17;12(1):5507. 2021-09-17
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Does TBC1D4 (AS160) or TBC1D1 Deficiency Affect the Expression of Fatty Acid Handling Proteins in the Adipocytes Differentiated from Human Adipose-Derived Mesenchymal Stem Cells (ADMSCs) Obtained from Subcutaneous and Visceral Fat Depots?
Authors: A Mik?osz, B ?ukaszuk, E Supruniuk, K Grubczak, M Moniuszko, B Choroma?sk, P My?liwiec, A Chabowski
Cells, 2021-06-16;10(6):. 2021-06-16
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Isolation and characterization of bone marrow-derived mesenchymal stem cells in Xenopus laevis
Authors: R Otsuka-Yam, M Kitada, Y Kuroda, Y Kushida, S Wakao, M Dezawa
Stem Cell Research, 2021-04-08;53(0):102341. 2021-04-08
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Myxoma Virus Expressing LIGHT (TNFSF14) Pre-Loaded into Adipose-Derived Mesenchymal Stem Cells Is Effective Treatment for Murine Pancreatic Adenocarcinoma
Authors: J Jazowiecka, A Hadrys, MM Rahman, G McFadden, W Fidyk, E Chmielik, M Pazdzior, M Grajek, V Kozik, A Sochanik
Cancers, 2021-03-19;13(6):. 2021-03-19
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Proinflammatory cytokines and ARDS pulmonary edema fluid induce CD40 on human mesenchymal stromal cells-A potential mechanism for immune modulation
Authors: EM Wilfong, R Croze, X Fang, M Schwede, E Niemi, GY López, JW Lee, MC Nakamura, MA Matthay
PLoS ONE, 2020-10-06;15(10):e0240319. 2020-10-06
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Assessment and Comparison of the Efficacy of Methotrexate, Prednisolone, Adalimumab, and Tocilizumab on Multipotency of Mesenchymal Stem Cells
Authors: S Liu, T Kiyoi, M Ishida, M Mogi
Front Pharmacol, 2020-07-03;11(0):1004. 2020-07-03
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Immunity-and-matrix-regulatory cells derived from human embryonic stem cells safely and effectively treat mouse lung injury and fibrosis
Authors: J Wu, D Song, Z Li, B Guo, Y Xiao, W Liu, L Liang, C Feng, T Gao, Y Chen, Y Li, Z Wang, J Wen, S Yang, P Liu, L Wang, Y Wang, L Peng, GN Stacey, Z Hu, G Feng, W Li, Y Huo, R Jin, N Shyh-Chang, Q Zhou, L Wang, B Hu, H Dai, J Hao
Cell Res., 2020-06-16;0(0):. 2020-06-16
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Chemical-defined medium supporting the expansion of human mesenchymal stem cells
Authors: J Xu, W Lian, J Chen, W Li, L Li, Z Huang
Stem Cell Res Ther, 2020-03-19;11(1):125. 2020-03-19
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Tunable hydrogels for mesenchymal stem cell delivery: integrin-induced transcriptome alterations and hydrogel optimization for human wound healing
Authors: AI Marusina, AA Merleev, JI Luna, L Olney, NE Haigh, D Yoon, C Guo, EM Ovadia, M Shimoda, G Luxardi, S Boddu, NN Lal, Y Takada, KS Lam, R Liu, RR Isseroff, S Le, JA Nolta, AM Kloxin, E Maverakis
Stem Cells, 2019-11-23;0(0):. 2019-11-23
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Improving the viability of tissue-resident stem cells using an organ-preservation solution
Authors: T Suzuki, C Ota, N Fujino, Y Tando, S Suzuki, M Yamada, T Kondo, Y Okada, H Kubo
FEBS Open Bio, 2019-11-18;0(0):. 2019-11-18
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Tendon contains more stem cells than bone at the rotator cuff repair site
Authors: TM Campbell, P Lapner, FJ Dilworth, MA Sheikh, O Laneuville, H Uhthoff, G Trudel
J Shoulder Elbow Surg, 2019-04-26;0(0):. 2019-04-26
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Combination of polyetherketoneketone scaffold and human mesenchymal stem cells from temporomandibular joint synovial fluid enhances bone regeneration
Authors: Y Lin, M Umebayashi, MN Abdallah, G Dong, MG Roskies, YF Zhao, M Murshed, Z Zhang, SD Tran
Sci Rep, 2019-01-24;9(1):472. 2019-01-24
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Serum-Free Manufacturing of Mesenchymal Stem Cell Tissue Rings Using Human-Induced Pluripotent Stem Cells
Authors: TS Winston, K Suddhapas, C Wang, R Ramos, P Soman, Z Ma
Stem Cells Int, 2019-01-15;2019(0):5654324. 2019-01-15
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Comparative analysis of mesenchymal stem cells derived from amniotic membrane, umbilical cord, and chorionic plate under serum-free condition
Authors: J Ma, J Wu, L Han, X Jiang, L Yan, J Hao, H Wang
Stem Cell Res Ther, 2019-01-11;10(1):19. 2019-01-11
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Generation of a human Ocular Albinism type 1 iPSC line, SEIi001-A, with a mutation in GPR143.
Authors: Baulier E, Garcia Diaz A, Corneo B, Farber D
Stem Cell Res, 2018-11-28;33(0):274-277. 2018-11-28
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Multilineage-differentiating stress-enduring (Muse)-like cells exist in synovial tissue
Authors: E Toyoda, M Sato, T Takahashi, M Maehara, Y Nakamura, G Mitani, T Takagaki, K Hamahashi, M Watanabe
Regen Ther, 2018-11-20;10(0):17-26. 2018-11-20
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Characterization of the interaction between human decidua parietalis mesenchymal stem/stromal cells and natural killer cells
Authors: MH Abumaree, E Bahattab, A Alsadoun, A Al Dosaima, FM Abomaray, T Khatlani, B Kalionis, MF El-Muzaini, AO Alawad, AS AlAskar
Stem Cell Res Ther, 2018-04-12;9(1):102. 2018-04-12
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Evaluation of the effects of ascorbic acid on metabolism of human mesenchymal stem cells
Authors: K Fujisawa, K Hara, T Takami, S Okada, T Matsumoto, N Yamamoto, I Sakaida
Stem Cell Res Ther, 2018-04-06;9(1):93. 2018-04-06
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Comparison of the bone regeneration ability between stem cells from human exfoliated deciduous teeth, human dental pulp stem cells and human bone marrow mesenchymal stem cells
Authors: K Nakajima, R Kunimatsu, K Ando, T Ando, Y Hayashi, T Kihara, T Hiraki, Y Tsuka, T Abe, M Kaku, H Nikawa, T Takata, K Tanne, K Tanimoto
Biochem. Biophys. Res. Commun., 2018-03-11;497(3):876-882. 2018-03-11
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Comparative characterization of SHED and DPSCs during extended cultivation in�vitro
Authors: H Wang, Q Zhong, T Yang, Y Qi, M Fu, X Yang, L Qiao, Q Ling, S Liu, Y Zhao
Mol Med Rep, 2018-03-09;0(0):. 2018-03-09
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Nano-loaded human umbilical cord mesenchymal stem cells as targeted carriers of doxorubicin for breast cancer therapy
Authors: S Cao, J Guo, Y He, M Alahdal, S Tang, Y Zhao, Z Yang, H Gao, W Hu, H Jiang, L Qin, L Jin
Artif Cells Nanomed Biotechnol, 2018-02-19;0(0):1-11. 2018-02-19
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Optimized Longitudinal Monitoring of Stem Cell Grafts in Mouse Brain Using a Novel Bioluminescent/Near Infrared Fluorescent Fusion Reporter
Authors: L Mezzanotte, JD Iljas, I Que, A Chan, E Kaijzel, R Hoeben, C Löwik
Cell Transplant, 2017-12-01;26(12):1878-1889. 2017-12-01
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Rapid Rapamycin-Only Induced Osteogenic Differentiation of Blood-Derived Stem Cells and Their Adhesion to Natural and Artificial Scaffolds
Authors: C Arianna, C Eliana, A Flavio, R Marco, D Giacomo, S Manuel, B Elena, G Alessandra
Stem Cells Int, 2017-07-26;2017(0):2976541. 2017-07-26
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Mesenchymal Stem Cells Induce Epithelial to Mesenchymal Transition in Colon Cancer Cells through Direct Cell-to-Cell Contact
Authors: H Takigawa, Y Kitadai, K Shinagawa, R Yuge, Y Higashi, S Tanaka, W Yasui, K Chayama
Neoplasia, 2017-04-20;19(5):429-438. 2017-04-20
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Identification of multipotent stem cells in human brain tissue following stroke
Authors: K Tatebayash, Y Tanaka, A Nakano-Doi, R Sakuma, S Kamachi, M Shirakawa, K Uchida, H Kageyama, T Takagi, S Yoshimura, T Matsuyama, T Nakagomi
Stem Cells Dev, 2017-04-19;0(0):. 2017-04-19
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Expression pattern of neurotrophins and their receptors during neuronal differentiation of adipose-derived stem cells in simulated microgravity condition
Authors: V Zarrinpour, Z Hajebrahim, M Jafarinia
Iran J Basic Med Sci, 2017-02-01;20(2):178-186. 2017-02-01
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Are Adipose-Derived Stem Cells From Liver Falciform Ligaments Another Possible Source of Mesenchymal Stem Cells?
Authors: SW Lee, JU Chong, SO Min, SY Bak, KS Kim
Cell Transplant, 2016-11-24;26(5):855-866. 2016-11-24
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Human endometrial mesenchymal stem cells exhibit intrinsic anti-tumor properties on human epithelial ovarian cancer cells
Sci Rep, 2016-11-15;6(0):37019. 2016-11-15
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In vitro characterization of human dental pulp stem cells isolated by three different methods
Authors: Euiseong Kim
Restor Dent Endod, 2016-10-12;41(4):283-295. 2016-10-12
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Label-Free Imaging of Umbilical Cord Tissue Morphology and Explant-Derived Cells
Stem Cells Int, 2016-09-26;2016(0):5457132. 2016-09-26
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TLR3 preconditioning enhances the therapeutic efficacy of umbilical cord mesenchymal stem cells in TNBS-induced colitis via the TLR3-Jagged-1-Notch-1 pathway
Mucosal Immunol, 2016-09-21;0(0):. 2016-09-21
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Equine metabolic syndrome impairs adipose stem cells osteogenic differentiation by predominance of autophagy over selective mitophagy
J Cell Mol Med, 2016-09-14;0(0):. 2016-09-14
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Exendin-4 enhances the differentiation of Wharton's jelly mesenchymal stem cells into insulin-producing cells through activation of various ?-cell markers
Stem Cell Res Ther, 2016-08-11;7(1):108. 2016-08-11
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Transcriptome sequencing wide functional analysis of human mesenchymal stem cells in response to TLR4 ligand
Sci Rep, 2016-07-22;6(0):30311. 2016-07-22
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Human Cardiac Mesenchymal Stromal Cells with CD105+CD34- Phenotype Enhance the Function of Post-Infarction Heart in Mice
PLoS ONE, 2016-07-14;11(7):e0158745. 2016-07-14
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Prospectively Isolated Human Bone Marrow Cell-Derived MSCs Support Primitive Human CD34-Negative Hematopoietic Stem Cells.
Authors: Matsuoka Y, Nakatsuka R, Sumide K, Kawamura H, Takahashi M, Fujioka T, Uemura Y, Asano H, Sasaki Y, Inoue M, Ogawa H, Takahashi T, Hino M, Sonoda Y
Stem Cells, 2015-05-01;33(5):1554-65. 2015-05-01
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Generation of CCR5-defective CD34 cells from ZFN-driven stop codon-integrated mesenchymal stem cell clones.
Authors: Manotham, Krissana, Chattong, Supreech, Setpakdee, Anant
J Biomed Sci, 2015-03-26;22(0):25. 2015-03-26
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Umbilical cord mesenchymal stromal cells affected by gestational diabetes mellitus display premature aging and mitochondrial dysfunction.
Authors: Kim J, Piao Y, Pak Y, Chung D, Han Y, Hong J, Jun E, Shim J, Choi J, Kim C
Stem Cells Dev, 2015-01-14;24(5):575-86. 2015-01-14
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Human adipose-derived mesenchymal stem cells as a new model of spinal and bulbar muscular atrophy.
Authors: Dossena M, Bedini G, Rusmini P, Giorgetti E, Canazza A, Tosetti V, Salsano E, Sagnelli A, Mariotti C, Gellera C, Navone S, Marfia G, Alessandri G, Corsi F, Parati E, Pareyson D, Poletti A
PLoS ONE, 2014-11-13;9(11):e112746. 2014-11-13
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Gene expression profile analysis of human mesenchymal stem cells from herniated and degenerated intervertebral discs reveals different expression of osteopontin.
Authors: Marfia G, Navone S, Di Vito C, Tabano S, Giammattei L, Di Cristofori A, Gualtierotti R, Tremolada C, Zavanone M, Caroli M, Torchia F, Miozzo M, Rampini P, Riboni L, Campanella R
Stem Cells Dev, 2014-10-29;24(3):320-8. 2014-10-29
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Magnetic Nanoparticle Based Nonviral MicroRNA Delivery into Freshly Isolated CD105(+) hMSCs.
Authors: Schade A, Muller P, Delyagina E, Voronina N, Skorska A, Lux C, Steinhoff G, David R
Stem Cells Int, 2014-03-31;2014(0):197154. 2014-03-31
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Amide-type local anesthetics and human mesenchymal stem cells: clinical implications for stem cell therapy.
Authors: Dregalla, Ryan C, Lyons, Nicolett, Reischling, Patrick, Centeno, Christop
Stem Cells Transl Med, 2014-01-16;3(3):365-74. 2014-01-16
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Coculture of human nucleus pulposus cells with multipotent mesenchymal stromal cells from human bone marrow reveals formation of tunnelling nanotubes.
Authors: Lehmann T, Filipiak K, Juzwa W, Sujka-Kordowska P, Jagodzinski P, Zabel M, Glowacki J, Misterska E, Walczak M, Glowacki M
Mol Med Rep, 2013-11-21;9(2):574-82. 2013-11-21
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WNT3A promotes hematopoietic or mesenchymal differentiation from hESCs depending on the time of exposure.
Authors: Gertow K, Hirst C, Yu Q, Ng E, Pereira L, Davis R, Stanley E, Elefanty A
Stem Cell Reports, 2013-06-04;1(1):53-65. 2013-06-04
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Derivation and expansion using only small molecules of human neural progenitors for neurodegenerative disease modeling.
Authors: Reinhardt P, Glatza M, Hemmer K, Tsytsyura Y, Thiel C, Hoing S, Moritz S, Parga J, Wagner L, Bruder J, Wu G, Schmid B, Ropke A, Klingauf J, Schwamborn J, Gasser T, Scholer H, Sterneckert J
PLoS ONE, 2013-03-22;8(3):e59252. 2013-03-22
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Human embryonic stem cell derived mesenchymal progenitors express cardiac markers but do not form contractile cardiomyocytes.
Authors: Raynaud C, Halabi N, Elliott D, Pasquier J, Elefanty A, Stanley E, Rafii A
PLoS ONE, 2013-01-16;8(1):e54524. 2013-01-16
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Mesenchymal stem cells and endothelial progenitor cells decrease renal injury in experimental swine renal artery stenosis through different mechanisms.
Authors: Zhu X, Urbieta-Caceres V, Krier J, Textor S, Lerman A, Lerman L
Stem Cells, 2013-01-01;31(1):117-25. 2013-01-01
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Identification of spectral modifications occurring during reprogramming of somatic cells.
Authors: Sandt C, Feraud O, Oudrhiri N, Bonnet ML, Meunier MC, Valogne Y, Bertrand A, Raphael M, Griscelli F, Turhan AG, Dumas P, Bennaceur-Griscelli A
PLoS ONE, 2012-04-13;7(4):e30743. 2012-04-13
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Malignant germ cell-like tumors, expressing Ki-1 antigen (CD30), are revealed during in vivo differentiation of partially reprogrammed human-induced pluripotent stem cells.
Authors: Griscelli F, Feraud O, Oudrhiri N, Gobbo E, Casal I, Chomel JC, Bieche I, Duvillard P, Opolon P, Turhan AG, Bennaceur-Griscelli A
Am. J. Pathol., 2012-03-13;180(5):2084-96. 2012-03-13
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Efficient differentiation of human pluripotent stem cells into mesenchymal stem cells by modulating intracellular signaling pathways in a feeder/serum-free system.
Authors: Tran NT, Trinh QM, Lee GM
Stem Cells Dev., 2011-09-27;21(7):1165-75. 2011-09-27
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Differentiation potential of human postnatal mesenchymal stem cells, mesoangioblasts, and multipotent adult progenitor cells reflected in their transcriptome and partially influenced by the culture conditions.
Authors: Roobrouck VD, Clavel C, Jacobs SA, Ulloa-Montoya F, Crippa S, Sohni A, Roberts SJ, Luyten FP, Van Gool SW, Sampaolesi M, Delforge M, Luttun A, Verfaillie CM
Stem Cells, 2011-05-01;29(5):871-82. 2011-05-01
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Isolation and characterization of synovial mesenchymal stem cells.
Authors: Harvanova D, Tothova T, Sarissky M, Amrichova J, Rosocha J
Folia Biol. (Praha), 2011-01-01;57(3):119-24. 2011-01-01
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Isolation of alveolar epithelial type II progenitor cells from adult human lungs.
Authors: Fujino N, Kubo H, Suzuki T
Lab. Invest., 2010-11-15;91(0):363-78. 2010-11-15
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Collection and culture of alveolar bone marrow multipotent mesenchymal stromal cells from older individuals.
Authors: Han J, Okada H, Takai H, Nakayama Y, Maeda T, Ogata Y
J. Cell. Biochem., 2009-08-15;107(6):1198-204. 2009-08-15
FAQs
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Can the Human Mesenchymal Stem Cell Functional Identification Kit (Catalog # SC006) be used with non-human primate mesenchymal stem cells?
It is likely that the antibodies included in the kit are cross-reactive to other primates. The supplements included in the kit are not intended to be species-specific. However, the kit has not been tested with primate mesenchymal stem cells
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For the Human Mesenchymal Stem Cell Functional Identification Kit (Catalog # SC006), how can induction of differentiation be monitored?
For adipogenic differentiation, the appearance of vacuoles in cells after 5-7 days is a sign of differentiation and can be monitored by microscopic examination of the cells. For osteogenic differentiation, the beginning of cell detachment after about 14 days is a sign of differentiation. Cell detachment should be monitored in this case. For chondrogenic differentiation, there isn't an exact marker to look for other than fixing and staining the frozen pellet between differentiation days 14 - 21. The exact choice of time may take some empirical testing.
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In the Human Mesenchymal Stem Cell Functional Identification Kit (Catalog # SC006), are Part #'s 90415, 390416, and 390417 the same as the StemXVivo® Human Adipogenic Supplement (Catalog # CCM011), StemXVivo® Human Osteogenic Supplement (Catalog # CCM008), and StemXVivo® Human Chondrogenic Supplement (Catalog # CCM006), respectively?
Yes, the StemXVivo® Human Adipogenic Supplement (Catalog # CCM011), StemXVivo® Human Osteogenic Supplement (Catalog # CCM008), and StemXVivo® Human Chondrogenic Supplement (Catalog # CCM006) are the same as Part #'s 390415, 390416, and 390417, respectively, in the Human Mesenchymal Stem Cell Functional Identification Kit (Catalog # SC006).
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Are there any experimental tips/hints for successful chondrogenic differentiation of mesenchymal stem cells?
The following tips/hints are useful for chondrogenic differentiation:
a) The mesenchymal stem cells (MSCs) should not be from a late passage (passage 8 or less), b) if using the Human Mesenchymal Stem Cell Functional Identification Kit (Catalog # SC006) or the StemXVivo® Chondrogenic Supplement (Catalog # CCM006), use the starting MSC cell number that is indicated in the protocol, c) Early during chondrogenic differentiation a pellet should form. As differentiation progresses, the pellet will grow and take up a ball-like appearance. d) The pellet should not attach to the tube, therefore care should be taken to not dislodge it while changing media.
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