Sarcoma derived from cultured mesenchymal stem cells

Jakub Tolar; Alma J. Nauta; Mark J. Osborn; Angela Panoskaltsis Mortari; Ron T. McElmurry; Scott Bell; Lily Xia; Ning Zhou; Megan Riddle; Tania M. Schroeder; Jennifer J. Westendorf; R. Scott McIvor; Pancras C W Hogendoorn; Karoly Szuhai; LeAnn Oseth; Betsy Hirsch; Stephen R. Yant; Mark A. Kay; Alexandra Peister; Darwin J. Prockop; Willem E. Fibbe; Bruce R. Blazar

doi:10.1634/stemcells.2005-0620

Sarcoma derived from cultured mesenchymal stem cells

Jakub Tolar, Alma J. Nauta, Mark J. Osborn, Angela Panoskaltsis Mortari, Ron T. McElmurry, Scott Bell, Lily Xia, Ning Zhou, Megan Riddle, Tania M. Schroeder, Jennifer J. Westendorf, R. Scott McIvor, Pancras C W Hogendoorn, Karoly Szuhai, LeAnn Oseth, Betsy Hirsch, Stephen R. Yant, Mark A. Kay, Alexandra Peister, Darwin J. ProckopWillem E. Fibbe, Bruce R. Blazar

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Abstract

To study the biodistribution of MSCs, we labeled adult murine C57BL/6 MSCs with firefly luciferase and DsRed2 fluorescent protein using nonviral Sleeping Beauty transposons and coinfused labeled MSCs with bone marrow into irradiated allogeneic recipients. Using in vivo whole-body imaging, luciferase signals were shown to be increased between weeks 3 and 12. Unexpectedly, some mice with the highest luciferase signals died and all surviving mice developed foci of sarcoma in their lungs. Two mice also developed sarcomas in their extremities. Common cytogenetic abnormalities were identified in tumor cells isolated from different animals. Original MSC cultures not labeled with transposons, as well as independently isolated cultured MSCs, were found to be cytogenetically abnormal. Moreover, primary MSCs derived from the bone marrow of both BALB/c and C57BL/6 mice showed cytogenetic aberrations after several passages in vitro, showing that transformation was not a strain-specific nor rare event. Clonal evolution was observed in vivo, suggesting that the critical transformation event(s) occurred before infusion. Mapping of the transposition insertion sites did not identify an obvious transposon-related genetic abnormality, and p53 was not overexpressed. Infusion of MSC-derived sarcoma cells resulted in malignant lesions in secondary recipients. This new sarcoma cell line, S1, is unique in having a cytogenetic profile similar to human sarcoma and contains bioluminescent and fluorescent genes, making it useful for investigations of cellular biodistribution and tumor response to therapy in vivo. More importantly, our study indicates that sarcoma can evolve from MSC cultures.

Original language	English (US)
Pages (from-to)	371-379
Number of pages	9
Journal	STEM CELLS
Volume	25
Issue number	2
DOIs	https://doi.org/10.1634/stemcells.2005-0620
State	Published - Feb 2007

Keywords

Bone marrow transplantation
DNA transposable elements
Mesenchymal stem cells
Neoplastic cell transformation
Sarcoma

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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Tolar, J., Nauta, A. J., Osborn, M. J., Mortari, A. P., McElmurry, R. T., Bell, S., Xia, L., Zhou, N., Riddle, M., Schroeder, T. M., Westendorf, J. J., McIvor, R. S., Hogendoorn, P. C. W., Szuhai, K., Oseth, L., Hirsch, B., Yant, S. R., Kay, M. A., Peister, A., ... Blazar, B. R. (2007). Sarcoma derived from cultured mesenchymal stem cells. STEM CELLS, 25(2), 371-379. https://doi.org/10.1634/stemcells.2005-0620

Tolar, J, Nauta, AJ, Osborn, MJ , Mortari, AP, McElmurry, RT, Bell, S, Xia, L, Zhou, N, Riddle, M, Schroeder, TM, Westendorf, JJ, McIvor, RS, Hogendoorn, PCW, Szuhai, K, Oseth, L, Hirsch, B, Yant, SR, Kay, MA, Peister, A, Prockop, DJ, Fibbe, WE & Blazar, BR 2007, 'Sarcoma derived from cultured mesenchymal stem cells', STEM CELLS, vol. 25, no. 2, pp. 371-379. https://doi.org/10.1634/stemcells.2005-0620

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title = "Sarcoma derived from cultured mesenchymal stem cells",

abstract = "To study the biodistribution of MSCs, we labeled adult murine C57BL/6 MSCs with firefly luciferase and DsRed2 fluorescent protein using nonviral Sleeping Beauty transposons and coinfused labeled MSCs with bone marrow into irradiated allogeneic recipients. Using in vivo whole-body imaging, luciferase signals were shown to be increased between weeks 3 and 12. Unexpectedly, some mice with the highest luciferase signals died and all surviving mice developed foci of sarcoma in their lungs. Two mice also developed sarcomas in their extremities. Common cytogenetic abnormalities were identified in tumor cells isolated from different animals. Original MSC cultures not labeled with transposons, as well as independently isolated cultured MSCs, were found to be cytogenetically abnormal. Moreover, primary MSCs derived from the bone marrow of both BALB/c and C57BL/6 mice showed cytogenetic aberrations after several passages in vitro, showing that transformation was not a strain-specific nor rare event. Clonal evolution was observed in vivo, suggesting that the critical transformation event(s) occurred before infusion. Mapping of the transposition insertion sites did not identify an obvious transposon-related genetic abnormality, and p53 was not overexpressed. Infusion of MSC-derived sarcoma cells resulted in malignant lesions in secondary recipients. This new sarcoma cell line, S1, is unique in having a cytogenetic profile similar to human sarcoma and contains bioluminescent and fluorescent genes, making it useful for investigations of cellular biodistribution and tumor response to therapy in vivo. More importantly, our study indicates that sarcoma can evolve from MSC cultures.",

keywords = "Bone marrow transplantation, DNA transposable elements, Mesenchymal stem cells, Neoplastic cell transformation, Sarcoma",

author = "Jakub Tolar and Nauta, {Alma J.} and Osborn, {Mark J.} and Mortari, {Angela Panoskaltsis} and McElmurry, {Ron T.} and Scott Bell and Lily Xia and Ning Zhou and Megan Riddle and Schroeder, {Tania M.} and Westendorf, {Jennifer J.} and McIvor, {R. Scott} and Hogendoorn, {Pancras C W} and Karoly Szuhai and LeAnn Oseth and Betsy Hirsch and Yant, {Stephen R.} and Kay, {Mark A.} and Alexandra Peister and Prockop, {Darwin J.} and Fibbe, {Willem E.} and Blazar, {Bruce R.}",

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AU - Tolar, Jakub

AU - Nauta, Alma J.

AU - Osborn, Mark J.

AU - Mortari, Angela Panoskaltsis

AU - McElmurry, Ron T.

AU - Bell, Scott

AU - Xia, Lily

AU - Zhou, Ning

AU - Riddle, Megan

AU - Schroeder, Tania M.

AU - Westendorf, Jennifer J.

AU - McIvor, R. Scott

AU - Hogendoorn, Pancras C W

AU - Szuhai, Karoly

AU - Oseth, LeAnn

AU - Hirsch, Betsy

AU - Yant, Stephen R.

AU - Kay, Mark A.

AU - Peister, Alexandra

AU - Prockop, Darwin J.

AU - Fibbe, Willem E.

AU - Blazar, Bruce R.

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N2 - To study the biodistribution of MSCs, we labeled adult murine C57BL/6 MSCs with firefly luciferase and DsRed2 fluorescent protein using nonviral Sleeping Beauty transposons and coinfused labeled MSCs with bone marrow into irradiated allogeneic recipients. Using in vivo whole-body imaging, luciferase signals were shown to be increased between weeks 3 and 12. Unexpectedly, some mice with the highest luciferase signals died and all surviving mice developed foci of sarcoma in their lungs. Two mice also developed sarcomas in their extremities. Common cytogenetic abnormalities were identified in tumor cells isolated from different animals. Original MSC cultures not labeled with transposons, as well as independently isolated cultured MSCs, were found to be cytogenetically abnormal. Moreover, primary MSCs derived from the bone marrow of both BALB/c and C57BL/6 mice showed cytogenetic aberrations after several passages in vitro, showing that transformation was not a strain-specific nor rare event. Clonal evolution was observed in vivo, suggesting that the critical transformation event(s) occurred before infusion. Mapping of the transposition insertion sites did not identify an obvious transposon-related genetic abnormality, and p53 was not overexpressed. Infusion of MSC-derived sarcoma cells resulted in malignant lesions in secondary recipients. This new sarcoma cell line, S1, is unique in having a cytogenetic profile similar to human sarcoma and contains bioluminescent and fluorescent genes, making it useful for investigations of cellular biodistribution and tumor response to therapy in vivo. More importantly, our study indicates that sarcoma can evolve from MSC cultures.

AB - To study the biodistribution of MSCs, we labeled adult murine C57BL/6 MSCs with firefly luciferase and DsRed2 fluorescent protein using nonviral Sleeping Beauty transposons and coinfused labeled MSCs with bone marrow into irradiated allogeneic recipients. Using in vivo whole-body imaging, luciferase signals were shown to be increased between weeks 3 and 12. Unexpectedly, some mice with the highest luciferase signals died and all surviving mice developed foci of sarcoma in their lungs. Two mice also developed sarcomas in their extremities. Common cytogenetic abnormalities were identified in tumor cells isolated from different animals. Original MSC cultures not labeled with transposons, as well as independently isolated cultured MSCs, were found to be cytogenetically abnormal. Moreover, primary MSCs derived from the bone marrow of both BALB/c and C57BL/6 mice showed cytogenetic aberrations after several passages in vitro, showing that transformation was not a strain-specific nor rare event. Clonal evolution was observed in vivo, suggesting that the critical transformation event(s) occurred before infusion. Mapping of the transposition insertion sites did not identify an obvious transposon-related genetic abnormality, and p53 was not overexpressed. Infusion of MSC-derived sarcoma cells resulted in malignant lesions in secondary recipients. This new sarcoma cell line, S1, is unique in having a cytogenetic profile similar to human sarcoma and contains bioluminescent and fluorescent genes, making it useful for investigations of cellular biodistribution and tumor response to therapy in vivo. More importantly, our study indicates that sarcoma can evolve from MSC cultures.

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KW - DNA transposable elements

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KW - Neoplastic cell transformation

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Sarcoma derived from cultured mesenchymal stem cells

Abstract

Keywords

UN SDGs

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