Literature DB >> 18282131

Attenuated response to in vivo mechanical loading in mice with conditional osteoblast ablation of the connexin43 gene (Gja1).

Susan K Grimston1, Michael D Brodt, Matthew J Silva, Roberto Civitelli.   

Abstract

INTRODUCTION: In vitro data suggest that gap junctional intercellular communication mediated by connexin43 (Cx43) plays an important role in bone cell response to mechanical stimulation. We tested this hypothesis in vivo in a model of genetic deficiency of the Cx43 gene (Gja1).
MATERIALS AND METHODS: Four-month-old female mice with a conditional Gja1 ablation in osteoblasts (ColCre;Gja1(-/flox)), as well as wildtype (Gja1(+/flox)) and heterozygous equivalent (Gja1(-/flox)) littermates (eight per genotype), were subjected to a three-point bending protocol for 5 d/wk for 2 wk. Microstructural parameters and dynamic indices of bone formation were estimated on sections of loaded and control contralateral tibias.
RESULTS: ColCre;Gja1(-/flox) mice had significantly thinner cortices, but larger marrow area and total cross-sectional area in the tibial diaphysis, compared with the other groups. The ColCre;Gja1(-/flox) mice needed approximately 40% more force to generate the required endocortical strain. In Gja1(+/flox) mice, the loading regimen produced abundant double calcein labels at the endocortical surface, whereas predominantly single labels were seen in ColCre;Gja1(-/flox) mice. Accordingly, mineral apposition rate and bone formation rate were significantly lower (54.8% and 50.2%, respectively) in ColCre;Gja1(-/flox) relative to Gja1(+/flox) mice. Intermediate values were found in Gja1(-/flox) mice.
CONCLUSIONS: Gja deficiency results in thinner but larger tibial diaphyses, resembling changes occurring with aging, and it attenuates the anabolic response to in vivo mechanical loading. Thus, Cx43 plays an instrumental role in this adaptive response to physical stimuli.

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Year:  2008        PMID: 18282131      PMCID: PMC2677086          DOI: 10.1359/jbmr.080222

Source DB:  PubMed          Journal:  J Bone Miner Res        ISSN: 0884-0431            Impact factor:   6.741


  47 in total

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2.  Multiple connexins confer distinct regulatory and conductance properties of gap junctions in developing heart.

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3.  Bone histomorphometry: standardization of nomenclature, symbols, and units. Report of the ASBMR Histomorphometry Nomenclature Committee.

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4.  Age and sex-related changes in the structure and strength of the human femoral shaft.

Authors:  R B Martin; P J Atkinson
Journal:  J Biomech       Date:  1977       Impact factor: 2.712

5.  Mechanical strain opens connexin 43 hemichannels in osteocytes: a novel mechanism for the release of prostaglandin.

Authors:  Priscilla P Cherian; Arlene J Siller-Jackson; Sumin Gu; Xin Wang; Lynda F Bonewald; Eugene Sprague; Jean X Jiang
Journal:  Mol Biol Cell       Date:  2005-04-20       Impact factor: 4.138

6.  Connexin 43 (GJA1) mutations cause the pleiotropic phenotype of oculodentodigital dysplasia.

Authors:  William A Paznekas; Simeon A Boyadjiev; Robert E Shapiro; Otto Daniels; Bernd Wollnik; Catherine E Keegan; Jeffrey W Innis; Mary Beth Dinulos; Cathy Christian; Mark C Hannibal; Ethylin Wang Jabs
Journal:  Am J Hum Genet       Date:  2002-11-27       Impact factor: 11.025

7.  Development of mice with osteoblast-specific connexin43 gene deletion.

Authors:  Charles H M Castro; Joseph P Stains; Sharmin Sheikh; Vera Lucia Szejnfeld; Klaus Willecke; Martin Theis; Roberto Civitelli
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8.  Connexin43 mediates direct intercellular communication in human osteoblastic cell networks.

Authors:  R Civitelli; E C Beyer; P M Warlow; A J Robertson; S T Geist; T H Steinberg
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10.  Connexin43 and connexin45 form gap junctions with different molecular permeabilities in osteoblastic cells.

Authors:  T H Steinberg; R Civitelli; S T Geist; A J Robertson; E Hick; R D Veenstra; H Z Wang; P M Warlow; E M Westphale; J G Laing
Journal:  EMBO J       Date:  1994-02-15       Impact factor: 11.598
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  68 in total

1.  Sost downregulation and local Wnt signaling are required for the osteogenic response to mechanical loading.

Authors:  Xiaolin Tu; Yumie Rhee; Keith W Condon; Nicoletta Bivi; Matthew R Allen; Denise Dwyer; Marina Stolina; Charles H Turner; Alexander G Robling; Lilian I Plotkin; Teresita Bellido
Journal:  Bone       Date:  2011-10-30       Impact factor: 4.398

2.  ERK acts in parallel to PKCδ to mediate the connexin43-dependent potentiation of Runx2 activity by FGF2 in MC3T3 osteoblasts.

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3.  Regulation of cellular function by connexin hemichannels.

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4.  Matrix-dependent adhesion mediates network responses to physiological stimulation of the osteocyte cell process.

Authors:  Danielle Wu; Mitchell B Schaffler; Sheldon Weinbaum; David C Spray
Journal:  Proc Natl Acad Sci U S A       Date:  2013-07-01       Impact factor: 11.205

Review 5.  Shifting paradigms on the role of connexin43 in the skeletal response to mechanical load.

Authors:  Shane A Lloyd; Alayna E Loiselle; Yue Zhang; Henry J Donahue
Journal:  J Bone Miner Res       Date:  2014-02       Impact factor: 6.741

6.  The regulation of runt-related transcription factor 2 by fibroblast growth factor-2 and connexin43 requires the inositol polyphosphate/protein kinase Cδ cascade.

Authors:  Corinne Niger; Maria A Luciotti; Atum M Buo; Carla Hebert; Vy Ma; Joseph P Stains
Journal:  J Bone Miner Res       Date:  2013-06       Impact factor: 6.741

Review 7.  Osteocytes: master orchestrators of bone.

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8.  RhoA GTPase interacts with beta-catenin signaling in clinorotated osteoblasts.

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9.  Interaction of connexin43 and protein kinase C-delta during FGF2 signaling.

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10.  Functional adaptation to mechanical loading in both cortical and cancellous bone is controlled locally and is confined to the loaded bones.

Authors:  Toshihiro Sugiyama; Joanna S Price; Lance E Lanyon
Journal:  Bone       Date:  2009-09-03       Impact factor: 4.398
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