Brief report: The differential roles of mTORC1 and mTORC2 in mesenchymal stem cell differentiation

Martin, Sally K.; Fitter, Stephen; Dutta, Ankit K.; Matthews, Mary P.; Walkley, Carl; Hall, Michael N.; Ruegg, Markus A.; Gronthos, Stan; Zannettino, Andrew C. W.

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Brief report: The differential roles of mTORC1 and mTORC2 in mesenchymal stem cell differentiation

Martin, Sally K.
;
Fitter, Stephen
;
Dutta, Ankit K.
;
Matthews, Mary P.
;
Walkley, Carl
;
Hall, Michael N.
;
Ruegg, Markus A.
;
Gronthos, Stan
;
Zannettino, Andrew C. W.

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Author

Martin, Sally K.
Fitter, Stephen
Dutta, Ankit K.
Matthews, Mary P.
Walkley, Carl
Hall, Michael N.
Ruegg, Markus A.
Gronthos, Stan
Zannettino, Andrew C. W.

Abstract

Adipocytes (AdCs) and osteoblasts (OBs) are derived from mesenchymal stem cells (MSCs) and differentiation toward either lineage is both mutually exclusive and transcriptionally controlled. Recent studies implicate the mammalian target of rapamycin (mTOR) pathway as important in determining MSC fate, with inhibition of mTOR promoting OB differentiation and suppressing AdC differentiation. mTOR functions within two distinct multiprotein complexes, mTORC1 and mTORC2, each of which contains the unique adaptor protein, raptor or rictor, respectively. While compounds used to study mTOR signaling, such as rapamycin and related analogs, primarily inhibit mTORC1, prolonged exposure can also disrupt mTORC2 function, confounding interpretation of inhibitor studies. As a result, the relative contribution of mTORC1 and mTORC2 to MSC fate determination remains unclear. In this study, we generated primary mouse MSCs deficient in either Rptor (RapKO) or Rictor (RicKO) using the Cre/loxP system. Cre‐mediated deletion of Rptor or Rictor resulted in impaired mTORC1 and mTORC2 signaling, respectively. Under lineage‐inductive culture conditions, RapKO MSCs displayed a reduced capacity to form lipid‐laden AdCs and an increased capacity to form a mineralized matrix. In contrast, RicKO MSCs displayed reduced osteogenic differentiation capacity and enhanced adipogenic differentiation potential. Taken together, our findings reveal distinct roles for mTORC1 and mTORC2 in MSC lineage commitment.

Keywords

Mesenchymal stem cell, mTOR, Raptor, Rictor

Date

2015

Type

Journal article

Journal

Stem Cells

Volume

33

Issue

4

Page Range

1359-1365

ACU Department

Mary MacKillop Institute for Health Research
Faculty of Health Sciences

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Brief report: The differential roles of mTORC1 and mTORC2 in mesenchymal stem cell differentiation

Martin, Sally K.
;
Fitter, Stephen
;
Dutta, Ankit K.
;
Matthews, Mary P.
;
Walkley, Carl
;
Hall, Michael N.
;
Ruegg, Markus A.
;
Gronthos, Stan
;
Zannettino, Andrew C. W.

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Brief report: The differential roles of mTORC1 and mTORC2 in mesenchymal stem cell differentiation

Martin, Sally K. ; Fitter, Stephen ; Dutta, Ankit K. ; Matthews, Mary P. ; Walkley, Carl ; Hall, Michael N. ; Ruegg, Markus A. ; Gronthos, Stan ; Zannettino, Andrew C. W.

Citations

Author

Abstract

Keywords

Date

Type

Journal

Book

Volume

Issue

Page Range

Article Number

ACU Department

Collections

URI

Relation URI

DOI

Source URL

Event URL

Open Access Status

License

File Access

Notes

Martin, Sally K.
;
Fitter, Stephen
;
Dutta, Ankit K.
;
Matthews, Mary P.
;
Walkley, Carl
;
Hall, Michael N.
;
Ruegg, Markus A.
;
Gronthos, Stan
;
Zannettino, Andrew C. W.