Fina Liu scite author profile

Fetal rat calvaria cells plated at very low density generate discrete colonies, some of which are bone colonies (nodules) from individual osteoprogenitors that divide and differentiate. We have analyzed the relationship between cell proliferation and acquisition of tissue-specific differentiation markers in bone colonies followed individually from the original single cell to the fully mineralized state. The size distribution of fully formed nodules is unimodal, suggesting that the coupling between proliferation and differentiation of osteoprogenitor cells is governed by a stochastic element, but distributed around an optimum, corresponding to the peak colony size/division potential. Kinetic analysis of colony growth showed that osteoprogenitors undergo 9-10 population doublings before the appearance of the first morphologically differentiated osteoblasts in the developing colony. Double immunolabeling showed that these proliferating cells express a gradient of bone markers, from proliferative alkaline phosphatase-negative cells at the periphery of colonies, to postmitotic, osteocalcin-producing osteoblasts at the centers. An inverse relationship exists between cell division and expression of osteocalcin, the latter being restricted to late-stage, BrdU-negative osteoblasts, while the expression of all other markers is acquired before the cessation of proliferation, but not concomitantly. Bone sialoprotein expression is biphasic, detectable in some of the early, alkaline phosphatase-negative cells, and again later in both late preosteoblast (BrdU-positive) and osteoblast (BrdU-negative, osteocalcin-positive) cells. In late-stage, heavily mineralized nodules, staining for osteocalcin and bone sialoprotein is not detectable in the oldest/most mature cells. Our observations support the view that the bone nodule "tissue-like" structure, originating from a single osteoprogenitor and finally encompassing mineralized matrix production, recapitulates successive stages of the osteoblast differentiation pathway, in a proliferation/maturation sequence. Understanding the complexity of the proliferation/differentiation kinetics that occurs within bone nodules will aid in the qualitative and/or quantitative interpretation of tissue-specific marker expression during osteoblastic differentiation.

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Simultaneous Detection of Multiple Bone-Related mRNAs and Protein Expression during Osteoblast Differentiation: Polymerase Chain Reaction and Immunocytochemical Studies at the Single Cell Level

Liu

Malaval

Gupta

et al. 1994

Developmental Biology

140

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Global amplification polymerase chain reaction reveals novel transitional stages during osteoprogenitor differentiation

2003

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Mesenchymal stem cells give rise to osteoprogenitors that proliferate and differentiate into identifiable preosteoblasts, osteoblasts, bone lining cells and osteocytes. To identify and establish a molecular profile for the more primitive and uncharacterized cells in the lineage, relatively rare (<1%)osteoprogenitors present in primary cultures of fetal rat calvaria cell populations were identified by a replica plating technique. Since the cell number was limited in each colony sampled, we used global amplification PCR to analyze the repertoire of genes expressed in osteoprogenitors. We established a molecular fingerprint and a developmental sequence based on simultaneous expression patterns for both known osteoblast-associated markers (collagen type I, alkaline phosphatase, osteopontin, bone sialoprotein, PTH1R and osteocalcin) and potential regulatory molecules (i.e. FGFR1, PDGF-Rα and PTHrP). By analysis of 99 osteoprogenitor and osteoblast colonies captured by replica plating at different developmental stages, we found: (1) a recognizable cohort of cells considered more primitive than committed osteoprogenitors; (2) a cohort of early progenitors transiently expressing bone sialoprotein; and (3) that mRNAs for FGF-R1, PDGF-Rα and PTH1R were expressed earlier than other markers and tended to increase and decrease in relative concert with the osteoblast-specific markers. The observations suggest that within the osteoblast differentiation sequence both discrete stages and continua of changing marker expression levels occur with variation in expression for any given marker. This combined approach of replica plating and global amplification PCR allows molecular fingerprinting of definitive primitive osteoprogenitors and will aid in identifying novel developmental stages and novel differentiation stage-specific genes as these cells progress through their differentiation sequence.

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The Mature Osteoblast Phenotype Is Characterized by Extensive Plasticity

Liu

Malaval

Aubin

1997

Experimental Cell Research

104

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Fina Liu

Kinetics of osteoprogenitor proliferation and osteoblast differentiation in vitro

Simultaneous Detection of Multiple Bone-Related mRNAs and Protein Expression during Osteoblast Differentiation: Polymerase Chain Reaction and Immunocytochemical Studies at the Single Cell Level

Global amplification polymerase chain reaction reveals novel transitional stages during osteoprogenitor differentiation

The Mature Osteoblast Phenotype Is Characterized by Extensive Plasticity

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