Literature DB >> 28615463

Low-Density Lipoprotein Receptor-Related Proteins in Skeletal Development and Disease.

Tao Yang1, Bart O Williams1.   

Abstract

The identification of the low-density lipoprotein receptor (LDLR) provided a foundation for subsequent studies in lipoprotein metabolism, receptor-mediated endocytosis, and many other fundamental biological functions. The importance of the LDLR led to numerous studies that identified homologous molecules and ultimately resulted in the description of the LDL-receptor superfamily, a group of proteins that contain domains also found in the LDLR. Subsequent studies have revealed that members of the LDLR-related protein family play roles in regulating many aspects of signal transduction. This review is focused on the roles of selected members of this protein family in skeletal development and disease. We present background on the identification of this subgroup of receptors, discuss the phenotypes associated with alterations in their function in human patients and mouse models, and describe the current efforts to therapeutically target these proteins to treat human skeletal disease.
Copyright © 2017 the American Physiological Society.

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Year:  2017        PMID: 28615463      PMCID: PMC6347100          DOI: 10.1152/physrev.00013.2016

Source DB:  PubMed          Journal:  Physiol Rev        ISSN: 0031-9333            Impact factor:   37.312


  208 in total

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Journal:  Brain Res Mol Brain Res       Date:  1999-10-01

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Journal:  Nature       Date:  2000-09-28       Impact factor: 49.962

3.  LDL-receptor-related proteins in Wnt signal transduction.

Authors:  K Tamai; M Semenov; Y Kato; R Spokony; C Liu; Y Katsuyama; F Hess; J P Saint-Jeannet; X He
Journal:  Nature       Date:  2000-09-28       Impact factor: 49.962

4.  An LDL-receptor-related protein mediates Wnt signalling in mice.

Authors:  K I Pinson; J Brennan; S Monkley; B J Avery; W C Skarnes
Journal:  Nature       Date:  2000-09-28       Impact factor: 49.962

5.  Solution structure of the sixth LDL-A module of the LDL receptor.

Authors:  C L North; S C Blacklow
Journal:  Biochemistry       Date:  2000-03-14       Impact factor: 3.162

6.  Direct binding of Reelin to VLDL receptor and ApoE receptor 2 induces tyrosine phosphorylation of disabled-1 and modulates tau phosphorylation.

Authors:  T Hiesberger; M Trommsdorff; B W Howell; A Goffinet; M C Mumby; J A Cooper; J Herz
Journal:  Neuron       Date:  1999-10       Impact factor: 17.173

7.  Tyrosine-phosphorylated low density lipoprotein receptor-related protein 1 (Lrp1) associates with the adaptor protein SHC in SRC-transformed cells.

Authors:  H Barnes; B Larsen; M Tyers; P van Der Geer
Journal:  J Biol Chem       Date:  2001-03-20       Impact factor: 5.157

8.  An endocytic pathway essential for renal uptake and activation of the steroid 25-(OH) vitamin D3.

Authors:  A Nykjaer; D Dragun; D Walther; H Vorum; C Jacobsen; J Herz; F Melsen; E I Christensen; T E Willnow
Journal:  Cell       Date:  1999-02-19       Impact factor: 41.582

9.  Molecular cloning of mouse Lrp7(Lr3) cDNA and chromosomal mapping of orthologous genes in mouse and human.

Authors:  D Chen; W Lathrop; Y Dong
Journal:  Genomics       Date:  1999-02-01       Impact factor: 5.736

10.  Collagenase-3 binds to a specific receptor and requires the low density lipoprotein receptor-related protein for internalization.

Authors:  O Y Barmina; H W Walling; G J Fiacco; J M Freije; C López-Otín; J J Jeffrey; N C Partridge
Journal:  J Biol Chem       Date:  1999-10-15       Impact factor: 5.157
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Review 2.  Lipid based nanoparticles as a novel treatment modality for hepatocellular carcinoma: a comprehensive review on targeting and recent advances.

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Journal:  J Nanobiotechnology       Date:  2022-03-05       Impact factor: 10.435

3.  Association of single nucleotide polymorphism in NLRC3, NLRC5, HIP1, and LRP8 genes with fecal egg counts in goats naturally infected with Haemonchus contortus.

Authors:  Abdullah Ibne Omar; Mahmuda Bilkis Bintee Alam; David Russell Notter; Shuhong Zhao; Md Omar Faruque; Thuy Nhien Tran Thi; Lilin Yin; Jingjin Li; Syed Ali Azmal; Xiaoyong Du
Journal:  Trop Anim Health Prod       Date:  2019-12-11       Impact factor: 1.559

4.  miR-30b-5p inhibits cancer progression and enhances cisplatin sensitivity in lung cancer through targeting LRP8.

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5.  Lrp4/Wise regulates palatal rugae development through Turing-type reaction-diffusion mechanisms.

Authors:  Maiko Kawasaki; Katsushige Kawasaki; Fumiya Meguro; Akane Yamada; Ryuichi Ishikawa; Thantrira Porntaveetus; James Blackburn; Yoko Otsuka-Tanaka; Naoaki Saito; Masato S Ota; Paul T Sharpe; John A Kessler; Joachim Herz; Martyn T Cobourne; Takeyasu Maeda; Atsushi Ohazama
Journal:  PLoS One       Date:  2018-09-20       Impact factor: 3.240

6.  LRP8 is overexpressed in estrogen-negative breast cancers and a potential target for these tumors.

Authors:  Virginie Maire; Faisal Mahmood; Guillem Rigaill; Mengliang Ye; Amélie Brisson; Fariba Némati; David Gentien; Gordon C Tucker; Sergio Roman-Roman; Thierry Dubois
Journal:  Cancer Med       Date:  2018-12-21       Impact factor: 4.452

7.  Significant association between RETN genetic polymorphisms and alcohol-induced osteonecrosis of femoral head.

Authors:  Chang Liu; Feimeng An; Yuju Cao; Jiaqi Wang; Ye Tian; Huiqiang Wu; Jianzhong Wang
Journal:  Mol Genet Genomic Med       Date:  2019-06-17       Impact factor: 2.183

8.  Low-density lipoprotein receptor-related protein 8 facilitates the proliferation and invasion of non-small cell lung cancer cells by regulating the Wnt/β-catenin signaling pathway.

Authors:  Zhi Fang; Min Zhong; Ling Zhou; Yi Le; Heng Wang; Ziling Fang
Journal:  Bioengineered       Date:  2022-03       Impact factor: 3.269

9.  Heterozygous LRP1 deficiency causes developmental dysplasia of the hip by impairing triradiate chondrocytes differentiation due to inhibition of autophagy.

Authors:  Wenjin Yan; Liming Zheng; Xingquan Xu; Zheng Hao; Yibo Zhang; Jun Lu; Ziying Sun; Jin Dai; Dongquan Shi; Baosheng Guo; Qing Jiang
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10.  Preclinical techniques to investigate exercise training in vascular pathophysiology.

Authors:  Gurneet S Sangha; Craig J Goergen; Steven J Prior; Sushant M Ranadive; Alisa M Clyne
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  10 in total

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