Lipids in biocalcification: contrasts and similarities between intimal and medial vascular calcification and bone by NMR

David G. Reid; Catherine M. Shanahan; Melinda J. Duer; Luis G. Arroyo; Michael Schoppet; Roger A. Brooks; Rachel C. Murray

doi:10.1194/jlr.M026088

Lipids in biocalcification: contrasts and similarities between intimal and medial vascular calcification and bone by NMR

David G. Reid, Catherine M. Shanahan, Melinda J. Duer, Luis G. Arroyo, Michael Schoppet, Roger A. Brooks, Rachel C. Murray

Cardiovascular Sciences

Research output: Contribution to journal › Article › peer-review

33 Citations (Scopus)

Abstract

Pathomechanisms underlying vascular calcification biogenesis are still incompletely understood. Biomineral from human atherosclerotic intimal plaques; human, equine, and bovine medial vascular calcifications; and human and equine bone was released from collagenous organic matrix by sodium hydroxide/sodium hypochlorite digestion. Solid-state C-13 NMR of intimal plaque mineral shows signals from cholesterol/cholesteryl esters and fatty acids. In contrast, in mineral from pure medial calcifications and bone mineral, fatty acid signals predominate. Refluxing (chloroform/methanol) intimal plaque calcifications removes the cholesterylic but not the fatty acyl signals. The lipid composition of this refluxed mineral now closely resembles that of the medial and bone mineral, which is unchanged by reflux. Thus, intimal and medial vascular calcifications and bone mineral have in common a pool of occluded mineral-entrained fatty acyl-rich lipids. This population of fatty acid may contain methyl-branched fatty acids, possibly representing lipoprotein particle remnants. Cell signaling and mechanistic parallels between physiological (orthotopic) and pathological (ectopic) calcification are also reflected thus in the NMR spectroscopic fingerprints of mineral-associated and mineral-entrained lipids. Additionally the atherosclerotic plaque mineral alone shows a significant independent pool of cholesterylic lipids.(jlr) Colocalization of mineral and lipid may be coincidental, but it could also reflect an essential mechanistic component of biomineralization.-Reid, D. G., C. M. Shanahan, M. J. Duer, L. G. Arroyo, M. Schoppet, R. A. Brooks, and R. C. Murray. Lipids in biocalcification: contrasts and similarities between intimal and medial vascular calcification and bone by NMR. J. Lipid Res. 2012. 53: 1569-1575.

Original language	English
Pages (from-to)	1569-1575
Number of pages	7
Journal	Journal of Lipid Research
Volume	53
Issue number	8
Early online date	31 May 2012
DOIs	https://doi.org/10.1194/jlr.M026088
Publication status	Published - Aug 2012

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

Access to Document

10.1194/jlr.M026088

Cite this

@article{15c3bed58c0d4b9db79606fca129f26a,

title = "Lipids in biocalcification: contrasts and similarities between intimal and medial vascular calcification and bone by NMR",

abstract = "Pathomechanisms underlying vascular calcification biogenesis are still incompletely understood. Biomineral from human atherosclerotic intimal plaques; human, equine, and bovine medial vascular calcifications; and human and equine bone was released from collagenous organic matrix by sodium hydroxide/sodium hypochlorite digestion. Solid-state C-13 NMR of intimal plaque mineral shows signals from cholesterol/cholesteryl esters and fatty acids. In contrast, in mineral from pure medial calcifications and bone mineral, fatty acid signals predominate. Refluxing (chloroform/methanol) intimal plaque calcifications removes the cholesterylic but not the fatty acyl signals. The lipid composition of this refluxed mineral now closely resembles that of the medial and bone mineral, which is unchanged by reflux. Thus, intimal and medial vascular calcifications and bone mineral have in common a pool of occluded mineral-entrained fatty acyl-rich lipids. This population of fatty acid may contain methyl-branched fatty acids, possibly representing lipoprotein particle remnants. Cell signaling and mechanistic parallels between physiological (orthotopic) and pathological (ectopic) calcification are also reflected thus in the NMR spectroscopic fingerprints of mineral-associated and mineral-entrained lipids. Additionally the atherosclerotic plaque mineral alone shows a significant independent pool of cholesterylic lipids.(jlr) Colocalization of mineral and lipid may be coincidental, but it could also reflect an essential mechanistic component of biomineralization.-Reid, D. G., C. M. Shanahan, M. J. Duer, L. G. Arroyo, M. Schoppet, R. A. Brooks, and R. C. Murray. Lipids in biocalcification: contrasts and similarities between intimal and medial vascular calcification and bone by NMR. J. Lipid Res. 2012. 53: 1569-1575.",

author = "Reid, {David G.} and Shanahan, {Catherine M.} and Duer, {Melinda J.} and Arroyo, {Luis G.} and Michael Schoppet and Brooks, {Roger A.} and Murray, {Rachel C.}",

year = "2012",

month = aug,

doi = "10.1194/jlr.M026088",

language = "English",

volume = "53",

pages = "1569--1575",

journal = "Journal of Lipid Research",

issn = "0022-2275",

publisher = "American Society for Biochemistry and Molecular Biology Inc.",

number = "8",

}

TY - JOUR

T1 - Lipids in biocalcification: contrasts and similarities between intimal and medial vascular calcification and bone by NMR

AU - Reid, David G.

AU - Shanahan, Catherine M.

AU - Duer, Melinda J.

AU - Arroyo, Luis G.

AU - Schoppet, Michael

AU - Brooks, Roger A.

AU - Murray, Rachel C.

PY - 2012/8

Y1 - 2012/8

N2 - Pathomechanisms underlying vascular calcification biogenesis are still incompletely understood. Biomineral from human atherosclerotic intimal plaques; human, equine, and bovine medial vascular calcifications; and human and equine bone was released from collagenous organic matrix by sodium hydroxide/sodium hypochlorite digestion. Solid-state C-13 NMR of intimal plaque mineral shows signals from cholesterol/cholesteryl esters and fatty acids. In contrast, in mineral from pure medial calcifications and bone mineral, fatty acid signals predominate. Refluxing (chloroform/methanol) intimal plaque calcifications removes the cholesterylic but not the fatty acyl signals. The lipid composition of this refluxed mineral now closely resembles that of the medial and bone mineral, which is unchanged by reflux. Thus, intimal and medial vascular calcifications and bone mineral have in common a pool of occluded mineral-entrained fatty acyl-rich lipids. This population of fatty acid may contain methyl-branched fatty acids, possibly representing lipoprotein particle remnants. Cell signaling and mechanistic parallels between physiological (orthotopic) and pathological (ectopic) calcification are also reflected thus in the NMR spectroscopic fingerprints of mineral-associated and mineral-entrained lipids. Additionally the atherosclerotic plaque mineral alone shows a significant independent pool of cholesterylic lipids.(jlr) Colocalization of mineral and lipid may be coincidental, but it could also reflect an essential mechanistic component of biomineralization.-Reid, D. G., C. M. Shanahan, M. J. Duer, L. G. Arroyo, M. Schoppet, R. A. Brooks, and R. C. Murray. Lipids in biocalcification: contrasts and similarities between intimal and medial vascular calcification and bone by NMR. J. Lipid Res. 2012. 53: 1569-1575.

AB - Pathomechanisms underlying vascular calcification biogenesis are still incompletely understood. Biomineral from human atherosclerotic intimal plaques; human, equine, and bovine medial vascular calcifications; and human and equine bone was released from collagenous organic matrix by sodium hydroxide/sodium hypochlorite digestion. Solid-state C-13 NMR of intimal plaque mineral shows signals from cholesterol/cholesteryl esters and fatty acids. In contrast, in mineral from pure medial calcifications and bone mineral, fatty acid signals predominate. Refluxing (chloroform/methanol) intimal plaque calcifications removes the cholesterylic but not the fatty acyl signals. The lipid composition of this refluxed mineral now closely resembles that of the medial and bone mineral, which is unchanged by reflux. Thus, intimal and medial vascular calcifications and bone mineral have in common a pool of occluded mineral-entrained fatty acyl-rich lipids. This population of fatty acid may contain methyl-branched fatty acids, possibly representing lipoprotein particle remnants. Cell signaling and mechanistic parallels between physiological (orthotopic) and pathological (ectopic) calcification are also reflected thus in the NMR spectroscopic fingerprints of mineral-associated and mineral-entrained lipids. Additionally the atherosclerotic plaque mineral alone shows a significant independent pool of cholesterylic lipids.(jlr) Colocalization of mineral and lipid may be coincidental, but it could also reflect an essential mechanistic component of biomineralization.-Reid, D. G., C. M. Shanahan, M. J. Duer, L. G. Arroyo, M. Schoppet, R. A. Brooks, and R. C. Murray. Lipids in biocalcification: contrasts and similarities between intimal and medial vascular calcification and bone by NMR. J. Lipid Res. 2012. 53: 1569-1575.

U2 - 10.1194/jlr.M026088

DO - 10.1194/jlr.M026088

M3 - Article

SN - 0022-2275

VL - 53

SP - 1569

EP - 1575

JO - Journal of Lipid Research

JF - Journal of Lipid Research

IS - 8

ER -

Lipids in biocalcification: contrasts and similarities between intimal and medial vascular calcification and bone by NMR

Abstract

UN SDGs

Access to Document

Fingerprint

Cite this