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Literature DB >> 17505772

The effect of LRP5 polymorphisms on bone mineral density is apparent in childhood.

M Audrey Koay¹, Jonathan H Tobias, Sam D Leary, Colin D Steer, Carles Vilariño-Güell, Matthew A Brown.

Abstract

Bone mass acquired during childhood is the primary determinant of adult bone mineral density (BMD) and osteoporosis risk. Bone accrual is subject to genetic influences. Activating and inactivating LRP5 gene mutations elicit extreme bone phenotypes, while more common LRP5 polymorphisms are associated with normal variation of BMD. Our aim was to test the hypothesis that LRP5 gene polymorphisms influence bone mass acquisition during childhood. The association between LRP5 gene polymorphisms and bone size and mineralization was examined in 819 unrelated British Caucasian children (n = 429 boys) aged 9 years. Height, weight, pubertal status (where available), total-body and spinal bone area, bone mineral content (BMC), BMD, and area-adjusted BMC (aBMC) were assessed. Dual-energy X-ray absorptiometry (DXA)-gene associations were assessed by linear regression, with adjustment for age, gender, pubertal status, and body size parameters. There were 140, 79, 12, and 2 girls who achieved Tanner stages I-IV, respectively, and 179 and 32 boys who achieved Tanner stages I and II, respectively. The rs2,306,862 (N740N) coding polymorphism in exon 10 of the LRP5 gene was associated with spinal BMD and aBMC (each P = 0.01) and total-body BMD and aBMC (P = 0.04 and 0.03, respectively). Adjusting for pubertal stage strengthened associations between this polymorphism and spinal BMD and aBMC (P = 0.01 and 0.002, respectively). Individuals homozygous for the T allele had greater spinal BMD and aBMC scores than those homozygous for the C allele. A dose effect was apparent as the mean spinal BMD and aBMC of heterozygous TC individuals were intermediate between those of their TT and CC counterparts. The N740N polymorphism in exon 10 of LRP5 was associated with spinal BMD and aBMC in pre- and early pubertal children. These results indicate that LRP5 influences volumetric bone density in childhood, possibly through effects on trabecular bone formation.

Entities: Chemical

Mesh：

Substances：

Year: 2007 PMID： 17505772 PMCID： PMC2742716 DOI： 10.1007/s00223-007-9024-2

Source DB: PubMed Journal: Calcif Tissue Int ISSN： 0171-967X Impact factor: 4.333

48 in total

1. LDL receptor-related protein 5 (LRP5) affects bone accrual and eye development.

Authors: Y Gong; R B Slee; N Fukai; G Rawadi; S Roman-Roman; A M Reginato; H Wang; T Cundy; F H Glorieux; D Lev; M Zacharin; K Oexle; J Marcelino; W Suwairi; S Heeger; G Sabatakos; S Apte; W N Adkins; J Allgrove; M Arslan-Kirchner; J A Batch; P Beighton; G C Black; R G Boles; L M Boon; C Borrone; H G Brunner; G F Carle; B Dallapiccola; A De Paepe; B Floege; M L Halfhide; B Hall; R C Hennekam; T Hirose; A Jans; H Jüppner; C A Kim; K Keppler-Noreuil; A Kohlschuetter; D LaCombe; M Lambert; E Lemyre; T Letteboer; L Peltonen; R S Ramesar; M Romanengo; H Somer; E Steichen-Gersdorf; B Steinmann; B Sullivan; A Superti-Furga; W Swoboda; M J van den Boogaard; W Van Hul; M Vikkula; M Votruba; B Zabel; T Garcia; R Baron; B R Olsen; M L Warman
Journal: Cell Date: 2001-11-16 Impact factor: 41.582

2. A mutation in the LDL receptor-related protein 5 gene results in the autosomal dominant high-bone-mass trait.

Authors: Randall D Little; John P Carulli; Richard G Del Mastro; Josée Dupuis; Mark Osborne; Colleen Folz; Susan P Manning; Pamela M Swain; Shan-Chuan Zhao; Brenda Eustace; Michelle M Lappe; Lia Spitzer; Susan Zweier; Karen Braunschweiger; Youssef Benchekroun; Xintong Hu; Ronald Adair; Linda Chee; Michael G FitzGerald; Craig Tulig; Anthony Caruso; Nia Tzellas; Alicia Bawa; Barbara Franklin; Shannon McGuire; Xavier Nogues; Gordon Gong; Kristina M Allen; Anthony Anisowicz; Arturo J Morales; Peter T Lomedico; Susan M Recker; Paul Van Eerdewegh; Robert R Recker; Mark L Johnson
Journal: Am J Hum Genet Date: 2001-12-03 Impact factor: 11.025

3. Association of gene polymorphisms and bone density in Japanese girls.

Authors: Kiyoe Katsumata; Kyoko Nishizawa; Atsushi Unno; Yuko Fujita; Akifumi Tokita
Journal: J Bone Miner Metab Date: 2002 Impact factor: 2.626

4. High bone density due to a mutation in LDL-receptor-related protein 5.

Authors: Lynn M Boyden; Junhao Mao; Joseph Belsky; Lyle Mitzner; Anita Farhi; Mary A Mitnick; Dianqing Wu; Karl Insogna; Richard P Lifton
Journal: N Engl J Med Date: 2002-05-16 Impact factor: 91.245

5. Six novel missense mutations in the LDL receptor-related protein 5 (LRP5) gene in different conditions with an increased bone density.

Authors: Liesbeth Van Wesenbeeck; Erna Cleiren; Jeppe Gram; Rodney K Beals; Olivier Bénichou; Domenico Scopelliti; Lyndon Key; Tara Renton; Cindy Bartels; Yaoqin Gong; Matthew L Warman; Marie-Christine De Vernejoul; Jens Bollerslev; Wim Van Hul
Journal: Am J Hum Genet Date: 2003-02-10 Impact factor: 11.025

6. Genetic and environmental determinants of peak bone mass in young men and women.

Authors: Fiona E A McGuigan; Liam Murray; Alison Gallagher; George Davey-Smith; Charlotte E Neville; Rob Van't Hof; Colin Boreham; Stuart H Ralston
Journal: J Bone Miner Res Date: 2002-07 Impact factor: 6.741

7. Localization of the gene causing autosomal dominant osteopetrosis type I to chromosome 11q12-13.

Authors: Els Van Hul; Jeppe Gram; Jens Bollerslev; Liesbeth Van Wesenbeeck; Danny Mathysen; Poul Erik Andersen; Filip Vanhoenacker; Wim Van Hul
Journal: J Bone Miner Res Date: 2002-06 Impact factor: 6.741

8. Low-density lipoprotein receptor-related protein 5 (LRP5) is essential for normal cholesterol metabolism and glucose-induced insulin secretion.

Authors: Takahiro Fujino; Hiroshi Asaba; Man-Jong Kang; Yukio Ikeda; Hideyuki Sone; Shinji Takada; Dong-Ho Kim; Ryoichi X Ioka; Masao Ono; Hiroko Tomoyori; Minoru Okubo; Toshio Murase; Akihisa Kamataki; Joji Yamamoto; Kenta Magoori; Sadao Takahashi; Yoshiharu Miyamoto; Hisashi Oishi; Masato Nose; Mitsuyo Okazaki; Shinichi Usui; Katsumi Imaizumi; Masashi Yanagisawa; Juro Sakai; Tokuo T Yamamoto
Journal: Proc Natl Acad Sci U S A Date: 2002-12-30 Impact factor: 11.205

Review 9. Prenatal and childhood influences on osteoporosis.

Authors: M K Javaid; Cyrus Cooper
Journal: Best Pract Res Clin Endocrinol Metab Date: 2002-06 Impact factor: 4.690

10. Cbfa1-independent decrease in osteoblast proliferation, osteopenia, and persistent embryonic eye vascularization in mice deficient in Lrp5, a Wnt coreceptor.

Authors: Masaki Kato; Millan S Patel; Regis Levasseur; Ivan Lobov; Benny H-J Chang; Donald A Glass; Christine Hartmann; Lan Li; Tae-Ho Hwang; Cory F Brayton; Richard A Lang; Gerard Karsenty; Lawrence Chan
Journal: J Cell Biol Date: 2002-04-15 Impact factor: 10.539

17 in total

1. Novel mutations affecting LRP5 splicing in patients with osteoporosis-pseudoglioma syndrome (OPPG).

Authors: C M Laine; B D Chung; M Susic; T Prescott; O Semler; T Fiskerstrand; P D'Eufemia; M Castori; M Pekkinen; E Sochett; W G Cole; C Netzer; O Mäkitie
Journal: Eur J Hum Genet Date: 2011-03-16 Impact factor: 4.246

2. The impact of LRP5 polymorphism (rs556442) on calcium homeostasis, bone mineral density, and body composition in Iranian children.

Authors: Elham Ashouri; Elham Mahmoodi Meimandi; Forough Saki; Mohammad Hossein Dabbaghmanesh; Gholamhossein Ranjbar Omrani; Marzieh Bakhshayeshkaram
Journal: J Bone Miner Metab Date: 2014-12-17 Impact factor: 2.626

3. Genetics of Bone Mass in Childhood and Adolescence: Effects of Sex and Maturation Interactions.

Authors: Jonathan A Mitchell; Alessandra Chesi; Okan Elci; Shana E McCormack; Heidi J Kalkwarf; Joan M Lappe; Vicente Gilsanz; Sharon E Oberfield; John A Shepherd; Andrea Kelly; Babette S Zemel; Struan F A Grant
Journal: J Bone Miner Res Date: 2015-05-26 Impact factor: 6.741

Review 4. Genetics of pediatric bone strength.

Authors: Jonathan A Mitchell; Diana L Cousminer; Babette S Zemel; Struan F A Grant; Alessandra Chesi
Journal: Bonekey Rep Date: 2016-07-20

5. Large-scale analysis of association between LRP5 and LRP6 variants and osteoporosis.

Authors: Joyce B J van Meurs; Thomas A Trikalinos; Stuart H Ralston; Susana Balcells; Maria Luisa Brandi; Kim Brixen; Douglas P Kiel; Bente L Langdahl; Paul Lips; Osten Ljunggren; Roman Lorenc; Barbara Obermayer-Pietsch; Claes Ohlsson; Ulrika Pettersson; David M Reid; Francois Rousseau; Serena Scollen; Wim Van Hul; Lidia Agueda; Kristina Akesson; Lidia I Benevolenskaya; Serge L Ferrari; Göran Hallmans; Albert Hofman; Lise Bjerre Husted; Marcin Kruk; Stephen Kaptoge; David Karasik; Magnus K Karlsson; Mattias Lorentzon; Laura Masi; Fiona E A McGuigan; Dan Mellström; Leif Mosekilde; Xavier Nogues; Huibert A P Pols; Jonathan Reeve; Wilfried Renner; Fernando Rivadeneira; Natasja M van Schoor; Kurt Weber; John P A Ioannidis; André G Uitterlinden
Journal: JAMA Date: 2008-03-19 Impact factor: 56.272