Identification of LRP1+CD13+ human periosteal stem cells that require LRP1 for bone repair
Youngjae Jeong, Lorenzo Deveza, Laura Ortinau, Kevin Lei, John R. Dawson, Dongsu Park
Youngjae Jeong, Lorenzo Deveza, Laura Ortinau, Kevin Lei, John R. Dawson, Dongsu Park
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Research Article Bone biology Stem cells

Identification of LRP1+CD13+ human periosteal stem cells that require LRP1 for bone repair

Abstract

Human periosteal skeletal stem cells (P-SSCs) are critical for cortical bone maintenance and repair. However, their in vivo identity, molecular characteristics, and specific markers remain unknown. Here, single-cell sequencing revealed human periosteum contains SSC clusters expressing known SSC markers, podoplanin (PDPN) and PDGFRA. Notably, human P-SSCs, but not bone marrow SSCs, selectively expressed identified markers low density lipoprotein receptor-related protein 1 (LRP1) and CD13. These LRP1+CD13+ human P-SSCs were perivascular cells with high osteochondrogenic but minimal adipogenic potential. Upon transplantation into bone injuries in mice, they preserved self-renewal capability in vivo. Single-cell analysis of mouse periosteum further supported the preferential expression of LRP1 and CD13 in Prx1+ P-SSCs. When Lrp1 was conditionally deleted in Prx1 lineage cells, it led to severe bone deformity, short stature, and periosteal defects. By contrast, local treatment with an LRP1 agonist at the injury sites induced early P-SSC proliferation and bone healing. Thus, human and mouse periosteum contains unique osteochondrogenic stem cell subsets, and these P-SSCs express specific markers, LRP1 and CD13, with a regulatory mechanism through LRP1 that enhances P-SSC function and bone repair.

Authors

Youngjae Jeong, Lorenzo Deveza, Laura Ortinau, Kevin Lei, John R. Dawson, Dongsu Park

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Figure 5

LRP1+CD13+PDGFRA+PDPN+ human periosteal cells can self-renew and maintain SSC marker expression in vitro.

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LRP1+CD13+PDGFRA+PDPN+ human periosteal cells can self-renew and maintai...
(A) Images showing primary, secondary, and tertiary periosteal cell colonies. 10× original magnification. (B) FACS plots show that LRP1+CD13+PDGFRA+ cells are maintained over multiple passages and show SSC surface marker expression (CD164 and CD73), while LRP1CD13+PDGFRA+ cells lack SSC surface marker expression. (C and D) FACS analysis of cell surface expression of LRP1+CD13+ cells from PDGFRA+ cells (C) and CD164+CD73+ cells from LRP1+CD13+PDGFRA+ and LRP1CD13+PDGFRA+ cells (D). (E) Images showing LRP1+CD13+PDGFRA+ and LRP1CD13+PDGFRA+ cells on day 3 and day 7. 10× original magnification. (F) Quantitative measurement of the number of cells in fold-change relative to day 0 shows LRP1+CD13+PDGFRA+ cells have significantly higher cell numbers compared with LRP1CD13+PDGFRA+ cells (P < 0.01) (n = 3). Data presented as mean ± SD. ***P < 0.001 by 2-tailed Student’s t test.