Differential Cell Surface Expression of the STRO-1 and Alkaline Phosphatase Antigens on Discrete Developmental Stages in Primary Cultures of Human Bone Cells

Overview

Journal J Bone Miner Res

Publisher Oxford University Press

Date 1999 Jan 20

PMID 9893065

Citations 71

Authors

S Gronthos

A C Zannettino

S E Graves

S Ohta

S J Hay

P J Simmons

Affiliations

Soon will be listed here.

Abstract

Human osteoblast-like cells can be readily cultured from explants of trabecular bone, reproducibly expressing the characteristics of cells belonging to the osteoblastic lineage. Dual-color fluorescence-activated cell sorting was employed to develop a model of bone cell development in primary cultures of normal human bone cells (NHBCs) based on the cell surface expression of the stromal precursor cell marker STRO-1 and the osteoblastic marker alkaline phosphatase (ALP). Cells expressing the STRO-1 antigen exclusively (STRO-1+/ALP-), were found to exhibit qualities preosteoblastic in nature both functionally by their reduced ability to form a mineralized bone matrix over time, as measured by calcium release assay, and in the lack of their expression of various bone-related markers including bone sialoprotein, osteopontin, and parathyroid hormone receptor based on reverse trancriptase polymerase chain reaction (PCR) analysis. The majority of the NHBCs which expressed the STRO-1-/ALP+ and STRO-1-/ALP- phenotypes appeared to represent fully differentiated osteoblasts, while the STRO-1+/ALP+ subset represented an intermediate preosteoblastic stage of development. All STRO-1/ALP NHBC subsets were also found to express the DNA-binding transcription factor CBFA-1, confirming that these cultures represent committed osteogenic cells. In addition, our primer sets yielded four distinct alternative splice variants of the expected PCR product for CBFA-1 in each of the STRO-1/ALP subsets, with the exception of the proposed preosteoblastic STRO-1+/ALP- subpopulation. Furthermore, upon re-culture of the four different STRO-1/ALP subsets only the STRO-1+/ALP- subpopulation was able to give rise to all of the four subsets yielding the same proportions of STRO-1/ALP expression as in the original primary cultures. The data presented in this study demonstrate a hierarchy of bone cell development in vitro and facilitate the study of bone cell differentiation and function.

Citing Articles

Exosomes from Human Periodontal Ligament Stem Cells Promote Differentiation of Osteoblast-like Cells and Bone Healing in Rat Calvarial Bone.

Albougha M, Sugii H, Adachi O, Mardini B, Soeno S, Hamano S Biomolecules. 2024; 14(11).

PMID: 39595630 PMC: 11591890. DOI: 10.3390/biom14111455.

Engineered extracellular vesicle-delivered TGF-β inhibitor for attenuating osteoarthritis by targeting subchondral bone.

Jing Z, Zhang G, Cai Y, Liang J, Lv L, Dang X J Tissue Eng. 2024; 15:20417314241257781.

PMID: 39071897 PMC: 11273819. DOI: 10.1177/20417314241257781.

Cell signaling and transcriptional regulation of osteoblast lineage commitment, differentiation, bone formation, and homeostasis.

Zhu S, Chen W, Masson A, Li Y Cell Discov. 2024; 10(1):71.

PMID: 38956429 PMC: 11219878. DOI: 10.1038/s41421-024-00689-6.

Identification of stemness and differentially expressed genes in human cementum-derived cells.

Lee E, Kim Y, Lee Y, Kim W, Lee Y, Kim S J Periodontal Implant Sci. 2021; 51(5):329-341.

PMID: 34713994 PMC: 8558007. DOI: 10.5051/jpis.2102600130.

Current advances in regulation of bone homeostasis.

Al-Bari A, Al Mamun A FASEB Bioadv. 2020; 2(11):668-679.

PMID: 33205007 PMC: 7655096. DOI: 10.1096/fba.2020-00058.