Mesenchymal stem cell expression of SDF-1β synergizes with BMP-2 to augment cell-mediated healing of critical-sized mouse calvarial defects

Samuel Herberg; Alexandra Aguilar-Perez; R. Nicole Howie; Galina Kondrikova; Sudharsan Periyasamy Thandavan; Mohammed Elsayed Elsalanty; Xingming Shi; William D Hill; James J. Cray

doi:10.1002/term.2078

Mesenchymal stem cell expression of SDF-1β synergizes with BMP-2 to augment cell-mediated healing of critical-sized mouse calvarial defects

Samuel Herberg, Alexandra Aguilar-Perez, R. Nicole Howie, Galina Kondrikova, Sudharsan Periyasamy Thandavan, Mohammed Elsayed Elsalanty, Xingming Shi, William D Hill, James J. Cray

Neuroscience and Regenerative Medicine

Research output: Contribution to journal › Article › peer-review

21 Scopus citations

Abstract

Bone has the potential for spontaneous healing. This process, however, often fails in patients with comorbidities. Tissue engineering combining functional cells, biomaterials and osteoinductive cues may provide alternative treatment strategies. We have recently demonstrated that stromal cell-derived factor-1β (SDF-1β) works in concert with bone morphogenetic protein-2 (BMP-2) to potentiate osteogenic differentiation of bone marrow-derived mesenchymal stem/stromal cells (BMSCs). Here, we test the hypothesis that SDF-1β overexpressed in Tet-Off-SDF-1β BMSCs, delivered on acellular dermal matrix (ADM), synergistically augments BMP-2-induced healing of critical-sized mouse calvarial defects. BMSC therapies alone showed limited bone healing, which was increased with co-delivery of BMP-2. This was further enhanced in Tet-Off-SDF-1β BMSCs + BMP-2. Only limited BMSC retention on ADM constructs was observed after 4 weeks in vivo, which was increased with BMP-2 co-delivery. In vitro cell proliferation studies showed that supplementing BMP-2 to Tet-Off BMSCs significantly increased the cell number during the first 24 h. Consequently, the increased cell numbers decreased the detectable BMP-2 levels in the medium, but increased cell-associated BMP-2. The data suggest that SDF-1β provides synergistic effects supporting BMP-2-induced, BMSC-mediated bone formation and appears suitable for optimization of bone augmentation in combination therapy protocols.

Original language	English (US)
Pages (from-to)	1806-1819
Number of pages	14
Journal	Journal of Tissue Engineering and Regenerative Medicine
Volume	11
Issue number	6
DOIs	https://doi.org/10.1002/term.2078
State	Published - Jun 2017

Keywords

BMP-2
BMSCs
SDF-1/CXCL12
bone formation
stem cell transplantation

ASJC Scopus subject areas

Medicine (miscellaneous)
Biomaterials
Biomedical Engineering

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10.1002/term.2078

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Herberg, S., Aguilar-Perez, A., Howie, R. N., Kondrikova, G., Periyasamy Thandavan, S., Elsalanty, M. E., Shi, X., Hill, W. D., & Cray, J. J. (2017). Mesenchymal stem cell expression of SDF-1β synergizes with BMP-2 to augment cell-mediated healing of critical-sized mouse calvarial defects. Journal of Tissue Engineering and Regenerative Medicine, 11(6), 1806-1819. https://doi.org/10.1002/term.2078

Mesenchymal stem cell expression of SDF-1β synergizes with BMP-2 to augment cell-mediated healing of critical-sized mouse calvarial defects. / Herberg, Samuel; Aguilar-Perez, Alexandra; Howie, R. Nicole et al.
In: Journal of Tissue Engineering and Regenerative Medicine, Vol. 11, No. 6, 06.2017, p. 1806-1819.

Research output: Contribution to journal › Article › peer-review

Herberg, S, Aguilar-Perez, A, Howie, RN, Kondrikova, G, Periyasamy Thandavan, S, Elsalanty, ME, Shi, X, Hill, WD & Cray, JJ 2017, 'Mesenchymal stem cell expression of SDF-1β synergizes with BMP-2 to augment cell-mediated healing of critical-sized mouse calvarial defects', Journal of Tissue Engineering and Regenerative Medicine, vol. 11, no. 6, pp. 1806-1819. https://doi.org/10.1002/term.2078

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title = "Mesenchymal stem cell expression of SDF-1β synergizes with BMP-2 to augment cell-mediated healing of critical-sized mouse calvarial defects",

abstract = "Bone has the potential for spontaneous healing. This process, however, often fails in patients with comorbidities. Tissue engineering combining functional cells, biomaterials and osteoinductive cues may provide alternative treatment strategies. We have recently demonstrated that stromal cell-derived factor-1β (SDF-1β) works in concert with bone morphogenetic protein-2 (BMP-2) to potentiate osteogenic differentiation of bone marrow-derived mesenchymal stem/stromal cells (BMSCs). Here, we test the hypothesis that SDF-1β overexpressed in Tet-Off-SDF-1β BMSCs, delivered on acellular dermal matrix (ADM), synergistically augments BMP-2-induced healing of critical-sized mouse calvarial defects. BMSC therapies alone showed limited bone healing, which was increased with co-delivery of BMP-2. This was further enhanced in Tet-Off-SDF-1β BMSCs + BMP-2. Only limited BMSC retention on ADM constructs was observed after 4 weeks in vivo, which was increased with BMP-2 co-delivery. In vitro cell proliferation studies showed that supplementing BMP-2 to Tet-Off BMSCs significantly increased the cell number during the first 24 h. Consequently, the increased cell numbers decreased the detectable BMP-2 levels in the medium, but increased cell-associated BMP-2. The data suggest that SDF-1β provides synergistic effects supporting BMP-2-induced, BMSC-mediated bone formation and appears suitable for optimization of bone augmentation in combination therapy protocols.",

keywords = "BMP-2, BMSCs, SDF-1/CXCL12, bone formation, stem cell transplantation",

author = "Samuel Herberg and Alexandra Aguilar-Perez and Howie, {R. Nicole} and Galina Kondrikova and {Periyasamy Thandavan}, Sudharsan and Elsalanty, {Mohammed Elsayed} and Xingming Shi and Hill, {William D} and Cray, {James J.}",

note = "Funding Information: The authors appreciate the technical support of Asma Daoudi, Georgia Regents University μCT Core Facility, and Donna Kumiski and Penny Roon, Georgia Regents University Histology Core Facility. This study was supported by the Musculoskeletal Transplant Foundation (grant to J.C.), the Institute for Regenerative and Reparative Medicine at Georgia Regents University (to J.C.) and the National Institute on Aging (Grant No. NIH-NIA PO1-AG036675, to W.D.H.), and supported in part by the Department of Veterans Affairs (VA Merit Award No. 104462, to W.D.H.). The contents of this publication do not represent the views of the Department of Veterans Affairs or the United States Government. Publisher Copyright: Copyright {\textcopyright} 2015 John Wiley & Sons, Ltd.",

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AU - Herberg, Samuel

AU - Aguilar-Perez, Alexandra

AU - Howie, R. Nicole

AU - Kondrikova, Galina

AU - Periyasamy Thandavan, Sudharsan

AU - Elsalanty, Mohammed Elsayed

AU - Shi, Xingming

AU - Hill, William D

AU - Cray, James J.

N1 - Funding Information: The authors appreciate the technical support of Asma Daoudi, Georgia Regents University μCT Core Facility, and Donna Kumiski and Penny Roon, Georgia Regents University Histology Core Facility. This study was supported by the Musculoskeletal Transplant Foundation (grant to J.C.), the Institute for Regenerative and Reparative Medicine at Georgia Regents University (to J.C.) and the National Institute on Aging (Grant No. NIH-NIA PO1-AG036675, to W.D.H.), and supported in part by the Department of Veterans Affairs (VA Merit Award No. 104462, to W.D.H.). The contents of this publication do not represent the views of the Department of Veterans Affairs or the United States Government. Publisher Copyright: Copyright © 2015 John Wiley & Sons, Ltd.

PY - 2017/6

Y1 - 2017/6

N2 - Bone has the potential for spontaneous healing. This process, however, often fails in patients with comorbidities. Tissue engineering combining functional cells, biomaterials and osteoinductive cues may provide alternative treatment strategies. We have recently demonstrated that stromal cell-derived factor-1β (SDF-1β) works in concert with bone morphogenetic protein-2 (BMP-2) to potentiate osteogenic differentiation of bone marrow-derived mesenchymal stem/stromal cells (BMSCs). Here, we test the hypothesis that SDF-1β overexpressed in Tet-Off-SDF-1β BMSCs, delivered on acellular dermal matrix (ADM), synergistically augments BMP-2-induced healing of critical-sized mouse calvarial defects. BMSC therapies alone showed limited bone healing, which was increased with co-delivery of BMP-2. This was further enhanced in Tet-Off-SDF-1β BMSCs + BMP-2. Only limited BMSC retention on ADM constructs was observed after 4 weeks in vivo, which was increased with BMP-2 co-delivery. In vitro cell proliferation studies showed that supplementing BMP-2 to Tet-Off BMSCs significantly increased the cell number during the first 24 h. Consequently, the increased cell numbers decreased the detectable BMP-2 levels in the medium, but increased cell-associated BMP-2. The data suggest that SDF-1β provides synergistic effects supporting BMP-2-induced, BMSC-mediated bone formation and appears suitable for optimization of bone augmentation in combination therapy protocols.

AB - Bone has the potential for spontaneous healing. This process, however, often fails in patients with comorbidities. Tissue engineering combining functional cells, biomaterials and osteoinductive cues may provide alternative treatment strategies. We have recently demonstrated that stromal cell-derived factor-1β (SDF-1β) works in concert with bone morphogenetic protein-2 (BMP-2) to potentiate osteogenic differentiation of bone marrow-derived mesenchymal stem/stromal cells (BMSCs). Here, we test the hypothesis that SDF-1β overexpressed in Tet-Off-SDF-1β BMSCs, delivered on acellular dermal matrix (ADM), synergistically augments BMP-2-induced healing of critical-sized mouse calvarial defects. BMSC therapies alone showed limited bone healing, which was increased with co-delivery of BMP-2. This was further enhanced in Tet-Off-SDF-1β BMSCs + BMP-2. Only limited BMSC retention on ADM constructs was observed after 4 weeks in vivo, which was increased with BMP-2 co-delivery. In vitro cell proliferation studies showed that supplementing BMP-2 to Tet-Off BMSCs significantly increased the cell number during the first 24 h. Consequently, the increased cell numbers decreased the detectable BMP-2 levels in the medium, but increased cell-associated BMP-2. The data suggest that SDF-1β provides synergistic effects supporting BMP-2-induced, BMSC-mediated bone formation and appears suitable for optimization of bone augmentation in combination therapy protocols.

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Mesenchymal stem cell expression of SDF-1β synergizes with BMP-2 to augment cell-mediated healing of critical-sized mouse calvarial defects

Abstract

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