Susanne B. Axtner scite author profile

Susanne B. Axtner

2Publications

99Citation Statements Received

79Citation Statements Given

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University of Lübeck

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NewDyscalcloci for myocardial cell necrosis and calcification (dystrophic cardiac calcinosis) in mice

Ivandic

Utz

Kaczmarek

et al. 2001

Physiological Genomics

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Dystrophic cardiac calcinosis (DCC) occurs among certain inbred strains of mice and involves necrosis and subsequent calcification as response of myocardial tissue to injury. Using a complete linkage map approach, we investigated the genetics of DCC in an F(2) intercross of resistant C57BL/6J and susceptible C3H/HeJ inbred strains and identified previously a major predisposing quantitative trait locus (QTL), Dyscalc1, on proximal chromosome 7. Analysis of inheritance suggested, however, that DCC is influenced by additional modifier QTL, which have as yet not been mapped. Here, we report the identification by composite interval mapping of the DCC loci Dyscalc2, Dyscalc3, and Dyscalc4 on chromosomes 4, 12 and 14, respectively. Together, the four Dyscalc loci explained 47% of the phenotypic variance of DCC, which was induced by a high-fat diet. Additive epistasis between Dyscalc1 and Dyscalc2 enhanced DCC. Examining recombinant inbred strains, we propose a 10-cM interval containing Dyscalc1 and discuss potential candidate genes.

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A Locus on Chromosome 7 Determines Dramatic Up-Regulation of Osteopontin in Dystrophic Cardiac Calcification in Mice

Aherrahrou

Axtner

Kaczmarek

et al. 2004

The American Journal of Pathology

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Calcification of necrotic tissue is frequently observed in chronic inflammation and atherosclerosis. A similar response of myocardium to injury, referred to as dystrophic cardiac calcinosis (DCC), occurs in certain inbred strains of mice. We now examined a putative inhibitor of calcification, osteopontin, in DCC after transdiaphragmal myocardial freeze-thaw injury. Strong osteopontin expression was found co-localizing with calcification in DCC-susceptible strain C3H/ HeNCrlBr, which exhibited low osteopontin plasma concentrations otherwise. Osteopontin mRNA induction was 20-fold higher than in resistant strain C57BL/ 6NCrlBr, which exhibited fibrous lesions without calcification and little osteopontin expression. Sequence analysis identified several polymorphisms in calcium-binding and phosphorylation sites in osteopontin cDNA. Their potential relevance for DCC was tested in congenic mice, which shared the osteopontin locus with C57BL/6NCrlBr, but retained a chromosomal segment from C3H/HeNCrlBr on proximal chromosome 7. These mice exhibited strong osteopontin expression and DCC comparable to C3H/HeNCrlBr suggesting that a trans-activator of osteopontin transcription residing on chromosome 7 and not the osteopontin gene on chromosome 5 was responsible for the genetic differences in osteopontin expression. A known osteopontin activator encoded by a gene on chromosome 7 is the transforming growth factor-␤1, which was more induced (3.5؋) in C3H/HeNCrlBr than in C57BL/6NCrlBr mice.

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Susanne B. Axtner

NewDyscalcloci for myocardial cell necrosis and calcification (dystrophic cardiac calcinosis) in mice

A Locus on Chromosome 7 Determines Dramatic Up-Regulation of Osteopontin in Dystrophic Cardiac Calcification in Mice

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