Abstract

IntroductionDevelopmental dysplasia of the hip (DDH) is a common skeletal disease, which is characterized by abnormal seating of the femoral head in the acetabulum. Genetic factors play a considerable role in the etiology of DDH. Asporin (ASPN) is an ECM protein which can bind to TGF-β1 and sequentially inhibit TGF-β/Smad signaling. A functional aspartic acid (D) repeat polymorphism of ASPN was first described as an osteoarthritis-associated polymorphism. As TGF-β is well known as an important regulator in the development of skeletal components, ASPN may also be involved in the etiology of DDH. Our objective is to evaluate whether the D repeat polymorphism of ASPN is associated with DDH in Han Chinese.MethodsThe D repeat polymorphism was genotyped in 370 DDH patients and 445 control subjects, and the allelic association of the D repeat was examined.ResultsFrom D11 to D18, eight alleles were identified. D13 allele is the most common allele both in control and DDH groups, the frequencies are 67.3% and 58.1% respectively. In the DDH group, a significantly higher frequency of the D14 allele and significantly lower frequency of D13 was observed. The association of D14 and D13 was found in both females and males after stratification by gender. There was no significant difference in any other alleles we examined.ConclusionsOur results show an obvious association between the D repeat polymorphism of ASPN and DDH. It indicates that ASPN is an important regulator in the etiology of DDH.

Highlights

  • Developmental dysplasia of the hip (DDH) is a common skeletal disease, which is characterized by abnormal seating of the femoral head in the acetabulum

  • Our results show an obvious association between the D repeat polymorphism of ASPN and DDH

  • It indicates that ASPN is an important regulator in the etiology of DDH

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Summary

Introduction

Developmental dysplasia of the hip (DDH) is a common skeletal disease, which is characterized by abnormal seating of the femoral head in the acetabulum. Asporin (ASPN) is an ECM protein which can bind to TGF-b1 and sequentially inhibit TGF-b/Smad signaling. Developmental dysplasia of the hip (DDH; MIM 142700) is a common skeletal disease, which is characterized by abnormal seating of the femoral head in the acetabulum [1]. Binding to TGF-b1 may inhibit perichondrium dependent skeletal development as well as development of tendons and ligaments [17,18]. BMP2 is another growth factor of the TGF-b family which plays a general role in differentiation and proliferation of perichondrial cells and osteoblast [21,22]

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