Abstract
BackgroundBone size (BS) variation is under strong genetic control and plays an important role in determining bone strength and fracture risk. Recently, a genome-wide association study identified polymorphisms associated with hip BS variation in the PLCL1 (phospholipase c-like 1) locus. Carriers of the major A allele of the most significant polymorphism, rs7595412, have around 17% larger hip BS than non-carriers. We therefore hypothesized that this polymorphism may also influence postmenopausal complications.MethodsThe effects of rs7595412 on hip BS, bone mineral density (BMD), vertebral fractures, serum Crosslaps and osteocalcin levels were analyzed in 1,191 postmenopausal Danish women.ResultsThis polymorphism had no influence on hip and spine BS as well as on femur and spine BMD. Women carrying at least one copy of the A allele had lower levels of serum osteocalcin as compared with those homozygous for the G allele (p = 0.03) whereas no effect on serum Crosslaps was detected. Furthermore, women homozygous for the A allele were more affected by vertebral fractures than those carrying at least one copy of the G allele (p = 0.04).ConclusionsIn postmenopausal women, our results suggest that the PLCL1 rs7595412 polymorphism has no obvious effect on hip BS or BMD but may be nominally associated with increased proportion of vertebral fracture and increased levels of osteocalcin.
Highlights
Bone size (BS) variation is under strong genetic control and plays an important role in determining bone strength and fracture risk
Besides Bone mineral density (BMD), a growing body of evidence suggested that bone size (BS) per se plays an important role in determining bone strength and fracture risk [7,8,9]
Serum osteocalcin and crosslaps concentrations were measured in the studied individuals (Table 2)
Summary
Bone size (BS) variation is under strong genetic control and plays an important role in determining bone strength and fracture risk. A genome-wide association study identified polymorphisms associated with hip BS variation in the PLCL1 (phospholipase c-like 1) locus. Osteoporosis is as a skeletal disorder characterized by compromised bone strength predisposing a person to an increased risk of fracture [1]. Recent genome-wide studies based on hip BMD identified novel susceptibility genes for osteoporosis [5,6]. Besides BMD, a growing body of evidence suggested that bone size (BS) per se plays an important role in determining bone strength and fracture risk [7,8,9]. Women lose bone density after menopause and have an increase in skeletal size as a result of periosteal apposition [10]. Bone must be flexible since it must be able to absorb energy by deforming, to shorten and widen when (page number not for citation purposes)
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