GGrantIndex
← Search

Action of Anabolic Factors on Bone Formation in Mice

$71,550R01FY2013AGNIH

University Of Connecticut Sch Of Med/Dnt, Farmington CT

Investigators

Linked publications, trials & patents

Abstract

A. Summary. We have preliminary data showing that in addition to its role in promoting osteoblast (OB) function and bone formation, fibroblast growth factor 2 (FGF2) is a negative regulator of mesenchymal stem cell differentiation into mature adipocytes (AD). We hypothesize that loss of FGF2 expression results in a shift of stromal mesenchymal progenitors from OB differentiation towards adipogenesis. The proposed studies will increase our understanding of the molecular mechanism (s) by which FGF2 affects aging bone as well as the role of FGF2 in the osteogenic and antiadipogenic effects of PTH in bone. Specific Aim 1: Determine how FGF2 modulates the adipocyte phenotype using Fgf2+/+ and Fgf2-/- mice in Col3.6-GFP or aP2-GFP genetic backgrounds. We will test the hypothesis that in the absence of FGF2, marrow progenitors have a reduced ability to choose the osteogenic pathway. To assess the age-dependence of the phenotype, we will examine young adult mice at 6-8 weeks of age and compare them to 4-5 month old adult mice that already exhibit reduced bone mass. Aim 1A: i) determine the temporal and quantitative onset of GFP expression in primary bone marrow stromal cultures (BMSC) from Fgf2+/+ and Fgf2-/- mice harboring transgene reporters for the OB (Col3.6-GFP) or AD (aP2-GFP or -Cyan) lineage; ii) characterize the AD and OB potential of GFP positive and GFP negative cells isolated via FACS analysis and then cultured in the absence and presence of exogenous FGF2 and PTH; and iii) examine changes in gene and protein expression. Aim 1B: Define the function of FGF2 during osteogenic versus adipogenic differentiation in vivo. Using mice developed in Aim 1A, we will i) assess whether there is a correlation of changes in bone mineral density and whole body and bone fat content. ii) examine the expression of key adipogenic and osteoblast signaling molecules from whole bones and from freshly isolated marrow; and iii) assess the effects of PTH, administered to mice alone or in combination with FGF2 on adipogenesis in ex vivo BMSC cultures. Specific AIM 2: Determine whether FGF2 is a necessary factor for PTH-mediated pro-osteogenic and anti-adipogeneic effect on mesenchymal progenitor cells. We hypothesize that FGF2 inhibits adipogenesis through modulation of Wnt 10b and PPARg in mesenchymal progenitors. We also hypothesize that in the absence of FGF2, PTH is unable to inhibit mesenchymal progenitor cell differentiation towards adipogenesis and this is mediated through regulation of PPARg by Runx2 and Wnt 10b downstream effects. Aim 2A: Examine the mechanisms by which FGF2 deficiency modulates the development of the OB or AD phenotype. We will determine whether FGF2 modulates Wnt 10b and PPARg2 activity and what signaling pathways mediate this in CFU-OB and CFU-AD from young and adult mice in vitro. Aim 2B: Define the transcriptional mechanisms underlying PPARg regulation by PTH and FGF2 signaling. We will test the hypothesis that one possible mechanism through which FGF2 and PTH crosstalk may regulate adipogenesis is through Runx2 and Lef-1/-catenin mediated control of the PPARg 2 promoter.

View original record on NIH RePORTER →