Abstract
Type 1 diabetes mellitus (DM) is associated with a decreased bone formation. Osteoblastic expression of parathyroid hormone-related protein(PTHrP) -an important modulator of osteoblast differentiation- decreases in age-related osteopenia. We here examined the putative role of PTHrP on the decreased osteoblastic function in DM.
We performed marrow ablation in the tibiae of diabetic mice after streptozotocin injection (glycemia > 300mg/dl). Some mice were treated with PTHrP(1–36) (100 ng/g/every other day, s.c.) or vehicle for 2 weeks. Both tibiae were then removed for histological evaluation or total RNA isolation. In vitro, MC3T3-E1 cells were grown in differentiation medium (a-MEM), with or without high glucose(HG) (25 mM) (or mannitol, as osmotic control), supplemented (or not) with PTHrP(1–36) (100 nM). In some experiments, anti-PTHrP N-terminal antibody C13 (1:100) or PTHrP(7–34) (1 μM) were added to normal-glucose medium. RANKL secretion was measured in the cell-conditioned medium by ELISA. Gene expression was analyzed by real-time PCR.
DM induced a 10–15% weight loss and a decrease (20–40%;p< 0.05) in the gene expression of the following osteoblastic factors in the regenerating tibia for 6 days: PTHrP, the PTH/PTHrP type1 receptor (PTH1R), osteocalcin, VEGF and its receptors 1 and 2; and in the OPG/RANKL ratio, related to an increased PPAR-γ mRNA expression. Compared to control mice, the regenerating tibia of DM mice showed a 5-fold increase in adipocyte number, and a decreased osteoblast number and osteoid surface. In MC3T3-E1 cells, HG decreased (20–40%) the OPG/RANKL ratio and the gene expression of both PTHrP/PTH1R and VEGF systems. PTHrP(1–36) reversed these HG-related effects in vivo and in vitro. Similar inhibitory effects were induced by a neutralizing PTHrP antibody or the antagonist PTHrP(7–34) in these cells in normal glucose.
In conclusion, a deficit in PTHrP production by osteoblasts seems to be at least in part responsible for the DM-related decreased bone formation in mice.
Correspondence should be addressed to EORS Secretariat Mag. Gerlinde M. Jahn, c/o Vienna Medical Academy, Alserstrasse 4, 1090 Vienna, Austria. Fax: +43-1-4078274. Email: eors@medacad.org