Literature DB >> 21440062

Material and mechanical properties of bones deficient for fibrillin-1 or fibrillin-2 microfibrils.

Emilio Arteaga-Solis1, Lee Sui-Arteaga, Minwook Kim, Mitchell B Schaffler, Karl J Jepsen, Nancy Pleshko, Francesco Ramirez.   

Abstract

The contribution of non-collagenous components of the extracellular matrix to bone strength is largely undefined. Here we report that deficiency of fibrillin-1 or fibrillin-2 microfibrils causes distinct changes in bone material and mechanical properties. Morphometric examination of mice with hypomorphic or null mutations in fibrillin-1 or fibrillin-2, respectively, revealed appreciable differences in the postnatal shaping and growth of long bones. Fourier transform infrared imaging spectroscopy indicated that fibrillin-1 plays a predominantly greater role than fibrillin-2 in determining the material properties of bones. Biomechanical tests demonstrated that fibrillin-2 exerts a greater positive influence on the mechanical properties of bone than fibrillin-1 assemblies. Published evidence indirectly supports the notion that the above findings are mostly, if not exclusively, related to the differential control of TGFβ family signaling by fibrillin proteins. Our study therefore advances our understanding of the role that extracellular microfibrils play in bone physiology and implicitly, in the pathogenesis of bone loss in human diseases caused by mutations in fibrillin-1 or -2.
Copyright © 2011 International Society of Matrix Biology. Published by Elsevier B.V. All rights reserved.

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Year:  2011        PMID: 21440062      PMCID: PMC3097426          DOI: 10.1016/j.matbio.2011.03.004

Source DB:  PubMed          Journal:  Matrix Biol        ISSN: 0945-053X            Impact factor:   11.583


  50 in total

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Review 3.  Variation in mineral properties in normal and mutant bones and teeth.

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5.  Pathogenetic sequence for aneurysm revealed in mice underexpressing fibrillin-1.

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Review 4.  Contributions of Raman spectroscopy to the understanding of bone strength.

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Review 5.  The microfibril-associated glycoproteins (MAGPs) and the microfibrillar niche.

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Journal:  Matrix Biol       Date:  2015-05-08       Impact factor: 11.583

6.  Fibrillin-1 Regulates Skeletal Stem Cell Differentiation by Modulating TGFβ Activity Within the Marrow Niche.

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10.  Nanointerfacial strength between non-collagenous protein and collagen fibrils in antler bone.

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