Chondrogenesis Mediated by PP i Depletion Promotes Spontaneous Aortic Calcification in NPP1−/− Mice
Objective— We recently linked human arterial media calcification of infancy to heritable PC-1/nucleotide pyrophosphatase phosphodiesterase 1 (NPP1) deficiency. NPP1 hydrolyzes ATP to generate PP i , a physicochemical inhibitor of hydroxyapatite crystal growth. But pathologic calcification in NPP1 de...
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| Published in | Arteriosclerosis, thrombosis, and vascular biology Vol. 25; no. 4; pp. 686 - 691 |
|---|---|
| Main Authors | , , , |
| Format | Journal Article |
| Language | English |
| Published |
01.04.2005
|
| Online Access | Get full text |
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| Abstract | Objective—
We recently linked human arterial media calcification of infancy to heritable PC-1/nucleotide pyrophosphatase phosphodiesterase 1 (NPP1) deficiency. NPP1 hydrolyzes ATP to generate PP
i
, a physicochemical inhibitor of hydroxyapatite crystal growth. But pathologic calcification in NPP1 deficiency states is tissue-restricted and in perispinal ligaments is endochondral differentiation–mediated rather than simply a dystrophic process. Because ectopic chondro-osseous differentiation promotes artery calcification in atherosclerosis and other disorders, we tested the hypothesis that NPP1 and PP
i
deficiencies regulate cell phenotype plasticity to promote artery calcification.
Methods and Results—
Using cultured multipotential NPP1−/− mouse bone marrow stromal cells, we demonstrated spontaneous chondrogenesis inhibitable by treatment with exogenous PP
i
. We also demonstrated cartilage-specific gene expression, upregulated alkaline phosphatase, decreased expression of the physiological calcification inhibitor osteopontin, and increased calcification in NPP1−/− aortic smooth muscle cells (SMCs). Similar changes were demonstrated in aortic SMCs from
ank/ank
mice, which are extracellular PP
i
–depleted because of defective ANK transmembrane PP
i
transport activity. Moreover, NPP1−/− and
ank/ank
mice demonstrated aortic media calcification by von Kossa staining, and intra-aortic cartilage-specific collagen gene expression was demonstrated in situ in NPP1−/− mice.
Conclusions—
NPP1 and PP
i
deficiencies modulate phenotype plasticity in artery SMCs and chondrogenesis in mesenchymal precursors, thereby stimulating artery calcification by modulating cell differentiation.
Human “idiopathic” infantile arterial media calcification is linked to deficient PP
i
-generating PC-1/nucleotide pyrophosphatase phosphodiesterase 1 (NPP1). We demonstrate that NPP1 and extracellular PP
i
deficiencies promote chondrogenic differentiation in mesenchymal precursors and vascular smooth muscle cells. Therefore, NPP1 and PP
i
deficiencies promote active rather than simply dystrophic artery calcification, mediated partly by primary alterations in cell differentiation. |
|---|---|
| AbstractList | Objective—
We recently linked human arterial media calcification of infancy to heritable PC-1/nucleotide pyrophosphatase phosphodiesterase 1 (NPP1) deficiency. NPP1 hydrolyzes ATP to generate PP
i
, a physicochemical inhibitor of hydroxyapatite crystal growth. But pathologic calcification in NPP1 deficiency states is tissue-restricted and in perispinal ligaments is endochondral differentiation–mediated rather than simply a dystrophic process. Because ectopic chondro-osseous differentiation promotes artery calcification in atherosclerosis and other disorders, we tested the hypothesis that NPP1 and PP
i
deficiencies regulate cell phenotype plasticity to promote artery calcification.
Methods and Results—
Using cultured multipotential NPP1−/− mouse bone marrow stromal cells, we demonstrated spontaneous chondrogenesis inhibitable by treatment with exogenous PP
i
. We also demonstrated cartilage-specific gene expression, upregulated alkaline phosphatase, decreased expression of the physiological calcification inhibitor osteopontin, and increased calcification in NPP1−/− aortic smooth muscle cells (SMCs). Similar changes were demonstrated in aortic SMCs from
ank/ank
mice, which are extracellular PP
i
–depleted because of defective ANK transmembrane PP
i
transport activity. Moreover, NPP1−/− and
ank/ank
mice demonstrated aortic media calcification by von Kossa staining, and intra-aortic cartilage-specific collagen gene expression was demonstrated in situ in NPP1−/− mice.
Conclusions—
NPP1 and PP
i
deficiencies modulate phenotype plasticity in artery SMCs and chondrogenesis in mesenchymal precursors, thereby stimulating artery calcification by modulating cell differentiation.
Human “idiopathic” infantile arterial media calcification is linked to deficient PP
i
-generating PC-1/nucleotide pyrophosphatase phosphodiesterase 1 (NPP1). We demonstrate that NPP1 and extracellular PP
i
deficiencies promote chondrogenic differentiation in mesenchymal precursors and vascular smooth muscle cells. Therefore, NPP1 and PP
i
deficiencies promote active rather than simply dystrophic artery calcification, mediated partly by primary alterations in cell differentiation. |
| Author | van Etten, Deborah Terkeltaub, Robert Johnson, Kristen Polewski, Monika |
| Author_xml | – sequence: 1 givenname: Kristen surname: Johnson fullname: Johnson, Kristen organization: From Rheumatology/Medicine, Veterans Affairs Medical Center/University of California at San Diego, School of Medicine – sequence: 2 givenname: Monika surname: Polewski fullname: Polewski, Monika organization: From Rheumatology/Medicine, Veterans Affairs Medical Center/University of California at San Diego, School of Medicine – sequence: 3 givenname: Deborah surname: van Etten fullname: van Etten, Deborah organization: From Rheumatology/Medicine, Veterans Affairs Medical Center/University of California at San Diego, School of Medicine – sequence: 4 givenname: Robert surname: Terkeltaub fullname: Terkeltaub, Robert organization: From Rheumatology/Medicine, Veterans Affairs Medical Center/University of California at San Diego, School of Medicine |
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