Abstract
BackgroundLeptin plays an important role in mediating chondrogenesis of limb growth plate. Previous studies suggest that bone structures and development of spine and limb are different. The expression of Ob-Rb, the gene that encodes leptin receptors, is vertebral and appendicular region-specific, suggesting the regulation of leptin on VGP and TGP chondrogenesis may be very different. The aim of the present study was to investigate the differential regulation of leptin on the chondrogenesis of vertebral growth plate (VGP) and tibial growth plate (TGP).MethodsWe compared the VGP and TGP from wild type (C57BL/6) and leptin-deficient (ob/ob) mice. We then generated primary cultures of TGP and VGP chondrocytes. By treating the primary cells with different concentrations of leptin in vitro, we analyzed proliferation and apoptosis of the primary chondrocytes from TGP and VGP. We further measured expression of chondrogenic-related genes in these cells that had been incubated with different doses of leptin.ResultsLeptin-deficient mice of 8-week-old had shorter tibial and longer vertebral lengths than the wide type mice. Disturbed columnar structure was observed for TGP but not for VGP. In primary chondrocyte cultures, leptin inhibited VGP chondrocyte proliferation but promoted their apoptosis. Collagen IIA and aggrecan mRNA, and the protein levels of proliferation- and chondrogenesis-related markers, including PCNA, Sox9, and Smad4, were downregulated by leptin in a dose-dependent manner. In contrast, leptin stimulated the proliferation and chondrogenic differentiation of TGP chondrocytes at physiological levels (i.e., 10 and 50 ng/mL) but not at high levels (i.e., 100 and 1000 ng/mL).ConclusionLeptin exerts a stimulatory effect on the proliferation and chondrogenic differentiation of the long bone growth plate but an inhibitory effect on the spine growth plate. The ongoing study will shed light on the regulatory mechanisms of leptin in bone development and metabolism.
Highlights
Leptin plays an important role in mediating chondrogenesis of limb growth plate
Given that apoptosis plays an important role in cell differentiation and tissue remodeling, we further investigated if leptin could influence apoptosis of tibial growth plate (TGP) and vertebral growth plate (VGP) chondrocytes
Flow cytometry analysis of TGP and VGP chondrocytes that had been incubated with increasing concentrations of leptin (i.e., 0, 10, and 100 ng/mL) revealed that leptin may have promoted apoptosis in VGP chondrocytes, while apoptosis in TGP chondrocytes was Leptin inhibited chondrogenesis in VGP but not in TGP To illustrate the mechanism of differential regulation of leptin at the molecular level, we evaluated the expressions of multiple chondrogenic-specific markers in VGP and TGP chondrocytes
Summary
Previous studies suggest that bone structures and development of spine and limb are different. The expression of Ob-Rb, the gene that encodes leptin receptors, is vertebral and appendicular region-specific, suggesting the regulation of leptin on VGP and TGP chondrogenesis may be very different. The aim of the present study was to investigate the differential regulation of leptin on the chondrogenesis of vertebral growth plate (VGP) and tibial growth plate (TGP). Our previous work suggested that the active form of the leptin receptor (Ob-Rb) was expressed differentially in the tibial and spinal growth plates. Consistent with the observation, a previous study indicated that the effects of leptin on bone differed significantly between axial and appendicular regions, with ob/ob mice having significantly increased vertebral length, lumbar bone mineral content (BMC), lumbar bone mineral density (BMD), yet shorter femora and lower limb BMC and limb BMD [14]. The regulation of leptin on the chondrogenesis of the growth plate may be regionspecific: its effect on vertebral growth plate (VGP) may be distinct from that on tibial growth plate (TGP)
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