Literature DB >> 19690791

Characterization of dystrophic calcification induced in mice by cardiotoxin.

Yongdong Zhao1, Annette L Urganus, Lyudmila Spevak, Sheela Shrestha, Stephen B Doty, Adele L Boskey, Lauren M Pachman.   

Abstract

Dystrophic calcifications often occur after injury, infection, or onset of certain rheumatic diseases. Treatment has been limited to surgical removal following failure of medical therapy. In an attempt to establish a reproducible animal model for dystrophic calcification that permitted the screening of potential interventions, we evaluated cardiotoxin (injury)-induced calcifications in three murine strains at both the cellular and ultrastructural levels. All osteopontin null mice and tumor necrosis factor receptor null mice on a C57B6 background had calcifications at days 3 and 7 after injury compared to 75% of wild-type C57B6 mice. There was no difference in mineral content among calcifications from the three mouse strains. Osteogenesis was suggested by the expression of osteocalcin, osterix, and alkaline phosphatase in calcified murine muscle tissue. Osteoclast-like cells facilitated the removal of transient dystrophic deposits (<28 days) in all models. However, none of the models showed an association of mineral crystals with collagen, suggesting that the deposits were not bone-like. The dystrophic mechanism was validated as cell death, and mitochondrial calcifications occurred soon after skeletal muscle injury in the three murine strains.

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Year:  2009        PMID: 19690791      PMCID: PMC2830143          DOI: 10.1007/s00223-009-9271-5

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


  28 in total

1.  Fgfr4 is required for effective muscle regeneration in vivo. Delineation of a MyoD-Tead2-Fgfr4 transcriptional pathway.

Authors:  Po Zhao; Giuseppina Caretti; Stephanie Mitchell; Wallace L McKeehan; Adele L Boskey; Lauren M Pachman; Vittorio Sartorelli; Eric P Hoffman
Journal:  J Biol Chem       Date:  2005-11-02       Impact factor: 5.157

2.  The effect of cardiotoxin on (Ca2+ + Mg2+)-ATPase of the erythrocyte and sarcoplasmic reticulum.

Authors:  A M Fourie; S Meltzer; M C Berman; A I Louw
Journal:  Biochem Int       Date:  1983-05

3.  Pathological calcification in juvenile dermatomyositis (JDM): microCT and synchrotron x-ray diffraction reveal hydroxyapatite with varied microstructures.

Authors:  S Stock; K Ignatiev; P Lee; K Abbott; L Pachman
Journal:  Connect Tissue Res       Date:  2004       Impact factor: 3.417

4.  Inhibitory effects of mevastatin and a geranylgeranyl transferase I inhibitor (GGTI-2166) on mononuclear osteoclast formation induced by receptor activator of NF kappa B ligand (RANKL) or tumor necrosis factor-alpha (TNF-alpha).

Authors:  Je-Tae Woo; Hiroshi Nakagawa; Annette M Krecic; Kazuo Nagai; Andrew D Hamilton; Said M Sebti; Paula H Stern
Journal:  Biochem Pharmacol       Date:  2005-01-01       Impact factor: 5.858

5.  Role of TNF-{alpha} signaling in regeneration of cardiotoxin-injured muscle.

Authors:  Shuen-Ei Chen; Eric Gerken; Yingmin Zhang; Mei Zhan; Raja K Mohan; Andrew S Li; Michael B Reid; Yi-Ping Li
Journal:  Am J Physiol Cell Physiol       Date:  2005-08-03       Impact factor: 4.249

6.  Calcification in atherosclerosis: bone biology and chronic inflammation at the arterial crossroads.

Authors:  Terence M Doherty; Kamlesh Asotra; Lorraine A Fitzpatrick; Jian-Hua Qiao; Douglas J Wilkin; Robert C Detrano; Colin R Dunstan; Prediman K Shah; Tripathi B Rajavashisth
Journal:  Proc Natl Acad Sci U S A       Date:  2003-09-19       Impact factor: 11.205

7.  Cardiotoxin 1 from cobra (Naja naja atra) venom causes necrosis of skeletal muscle in vivo.

Authors:  C L Ownby; J E Fletcher; T R Colberg
Journal:  Toxicon       Date:  1993-06       Impact factor: 3.033

8.  Infrared analysis of the mineral and matrix in bones of osteonectin-null mice and their wildtype controls.

Authors:  Adele L Boskey; David J Moore; Michael Amling; Ernesto Canalis; Anne M Delany
Journal:  J Bone Miner Res       Date:  2003-06       Impact factor: 6.741

9.  Osteopontin modulates CD44-dependent chemotaxis of peritoneal macrophages through G-protein-coupled receptors: evidence of a role for an intracellular form of osteopontin.

Authors:  Baoqian Zhu; Keiko Suzuki; Harvey A Goldberg; Susan R Rittling; David T Denhardt; Christopher A G McCulloch; Jaro Sodek
Journal:  J Cell Physiol       Date:  2004-01       Impact factor: 6.384

10.  Soft-tissue calcifications: differential diagnosis and therapeutic approaches.

Authors:  J Hussmann; R C Russell; J O Kucan; R Khardori; H U Steinau
Journal:  Ann Plast Surg       Date:  1995-02       Impact factor: 1.539
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  11 in total

1.  Biophysical analysis of dystrophic and osteogenic models of valvular calcification.

Authors:  Joseph Chen; Jon R Peacock; Janelle Branch; W David Merryman
Journal:  J Biomech Eng       Date:  2015-01-26       Impact factor: 2.097

2.  Spontaneous cardiac calcinosis in BALB/cByJ mice.

Authors:  Aaron M Glass; Wanda Coombs; Steven M Taffet
Journal:  Comp Med       Date:  2013-02       Impact factor: 0.982

3.  Barriers in contribution of human mesenchymal stem cells to murine muscle regeneration.

Authors:  Anabel S de la Garza-Rodea; Hester Boersma; Cheryl Dambrot; Antoine Af de Vries; Dirk W van Bekkum; Shoshan Knaän-Shanzer
Journal:  World J Exp Med       Date:  2015-05-20

4.  Progressive secondary neurodegeneration and microcalcification co-occur in osteopontin-deficient mice.

Authors:  Walter Maetzler; Daniela Berg; Claudia Funke; Freya Sandmann; Holger Stünitz; Corina Maetzler; Cordula Nitsch
Journal:  Am J Pathol       Date:  2010-06-03       Impact factor: 4.307

5.  Gentamicin Reduces Calcific Nodule Formation by Aortic Valve Interstitial Cells In Vitro.

Authors:  Aditya Kumar; Dena C Wiltz; K Jane Grande-Allen
Journal:  Cardiovasc Eng Technol       Date:  2013-03-01       Impact factor: 2.495

Review 6.  Calcinosis in systemic sclerosis.

Authors:  Srijana Davuluri; Christian Lood; Lorinda Chung
Journal:  Curr Opin Rheumatol       Date:  2022-08-19       Impact factor: 4.941

7.  Monitoring change in volume of calcifications in juvenile idiopathic inflammatory myopathy: a pilot study using low dose computed tomography.

Authors:  Maria Ibarra; Cynthia Rigsby; Gabrielle A Morgan; Christina L Sammet; Chiang-Ching Huang; Dong Xu; Ira N Targoff; Lauren M Pachman
Journal:  Pediatr Rheumatol Online J       Date:  2016-11-29       Impact factor: 3.054

8.  Mitochondrial Calcification.

Authors:  Bhargavi Duvvuri; Christian Lood
Journal:  Immunometabolism       Date:  2021-01-29

9.  Gene-expression analysis reveals that embryonic stem cells cultured under osteogenic conditions produce mineral non-specifically compared to marrow stromal cells or osteoblasts.

Authors:  Nicholas D Evans; Robin J Swain; Eileen Gentleman; Molly M Gentleman; Molly M Stevens
Journal:  Eur Cell Mater       Date:  2012-09-24       Impact factor: 3.942

10.  Exacerbated skeletal muscle inflammation and calcification in the acute phase of infection by Mexican Trypanosoma cruzi DTUI strain.

Authors:  Andrea Vizcaíno-Castillo; Andrea Jiménez-Marín; Bertha Espinoza
Journal:  Biomed Res Int       Date:  2014-06-02       Impact factor: 3.411
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