Calciprotein particles induce arterial stiffening ex vivo and impair vascular cell function

Cédric H.G. Neutel; Callan D. Wesley; Cindy van Loo; Céline Civati; Freke Mertens; Michelle Zurek; Anja Verhulst; Isabel Pintelon; Winnok H. De Vos; Bart Spronck; Lynn Roth; Guido R.Y. De Meyer; Wim Martinet; Pieter Jan Guns

doi:10.1038/s42003-024-06895-y

Calciprotein particles induce arterial stiffening ex vivo and impair vascular cell function

Cédric H.G. Neutel^*, Callan D. Wesley, Cindy van Loo, Céline Civati, Freke Mertens, Michelle Zurek, Anja Verhulst, Isabel Pintelon, Winnok H. De Vos, Bart Spronck, Lynn Roth, Guido R.Y. De Meyer, Wim Martinet, Pieter Jan Guns

^*Corresponding author for this work

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

Abstract

Calciprotein particles (CPPs) are an endogenous buffering system, clearing excessive amounts of Ca2+ and PO43- from the circulation and thereby preventing ectopic mineralization. CPPs circulate as primary CPPs (CPP1), which are small spherical colloidal particles, and can aggregate to form large, crystalline, secondary CPPs (CPP2). Even though it has been reported that CPPs are toxic to vascular smooth muscle cells (VSMC) in vitro, their effect(s) on the vasculature remain unclear. Here we have shown that CPP1, but not CPP2, increased arterial stiffness ex vivo. Interestingly, the effects were more pronounced in the abdominal infrarenal aorta compared to the thoracic descending aorta. Further, we demonstrated that CPP1 affected both endothelial and VSMC function, impairing vasorelaxation and contraction respectively. Concomitantly, arterial glycosaminoglycan accumulation was observed as well, which is indicative of an increased extracellular matrix stiffness. However, these effects were not observed in vivo. Hence, we concluded that CPP1 can induce vascular dysfunction.

Original language	English
Article number	1241
Number of pages	13
Journal	Communications Biology
Volume	7
Issue number	1
DOIs	https://doi.org/10.1038/s42003-024-06895-y
Publication status	Published - 2 Oct 2024

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Neutel, C. H. G., Wesley, C. D., van Loo, C., Civati, C., Mertens, F., Zurek, M., Verhulst, A., Pintelon, I., De Vos, W. H., Spronck, B., Roth, L., De Meyer, G. R. Y., Martinet, W., & Guns, P. J. (2024). Calciprotein particles induce arterial stiffening ex vivo and impair vascular cell function. Communications Biology, 7(1), Article 1241. https://doi.org/10.1038/s42003-024-06895-y

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title = "Calciprotein particles induce arterial stiffening ex vivo and impair vascular cell function",

abstract = "Calciprotein particles (CPPs) are an endogenous buffering system, clearing excessive amounts of Ca2+ and PO43- from the circulation and thereby preventing ectopic mineralization. CPPs circulate as primary CPPs (CPP1), which are small spherical colloidal particles, and can aggregate to form large, crystalline, secondary CPPs (CPP2). Even though it has been reported that CPPs are toxic to vascular smooth muscle cells (VSMC) in vitro, their effect(s) on the vasculature remain unclear. Here we have shown that CPP1, but not CPP2, increased arterial stiffness ex vivo. Interestingly, the effects were more pronounced in the abdominal infrarenal aorta compared to the thoracic descending aorta. Further, we demonstrated that CPP1 affected both endothelial and VSMC function, impairing vasorelaxation and contraction respectively. Concomitantly, arterial glycosaminoglycan accumulation was observed as well, which is indicative of an increased extracellular matrix stiffness. However, these effects were not observed in vivo. Hence, we concluded that CPP1 can induce vascular dysfunction.",

author = "Neutel, {C{\'e}dric H.G.} and Wesley, {Callan D.} and {van Loo}, Cindy and C{\'e}line Civati and Freke Mertens and Michelle Zurek and Anja Verhulst and Isabel Pintelon and {De Vos}, {Winnok H.} and Bart Spronck and Lynn Roth and {De Meyer}, {Guido R.Y.} and Wim Martinet and Guns, {Pieter Jan}",

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doi = "10.1038/s42003-024-06895-y",

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T1 - Calciprotein particles induce arterial stiffening ex vivo and impair vascular cell function

AU - Neutel, Cédric H.G.

AU - Wesley, Callan D.

AU - van Loo, Cindy

AU - Civati, Céline

AU - Mertens, Freke

AU - Zurek, Michelle

AU - Verhulst, Anja

AU - Pintelon, Isabel

AU - De Vos, Winnok H.

AU - Spronck, Bart

AU - Roth, Lynn

AU - De Meyer, Guido R.Y.

AU - Martinet, Wim

AU - Guns, Pieter Jan

PY - 2024/10/2

Y1 - 2024/10/2

N2 - Calciprotein particles (CPPs) are an endogenous buffering system, clearing excessive amounts of Ca2+ and PO43- from the circulation and thereby preventing ectopic mineralization. CPPs circulate as primary CPPs (CPP1), which are small spherical colloidal particles, and can aggregate to form large, crystalline, secondary CPPs (CPP2). Even though it has been reported that CPPs are toxic to vascular smooth muscle cells (VSMC) in vitro, their effect(s) on the vasculature remain unclear. Here we have shown that CPP1, but not CPP2, increased arterial stiffness ex vivo. Interestingly, the effects were more pronounced in the abdominal infrarenal aorta compared to the thoracic descending aorta. Further, we demonstrated that CPP1 affected both endothelial and VSMC function, impairing vasorelaxation and contraction respectively. Concomitantly, arterial glycosaminoglycan accumulation was observed as well, which is indicative of an increased extracellular matrix stiffness. However, these effects were not observed in vivo. Hence, we concluded that CPP1 can induce vascular dysfunction.

AB - Calciprotein particles (CPPs) are an endogenous buffering system, clearing excessive amounts of Ca2+ and PO43- from the circulation and thereby preventing ectopic mineralization. CPPs circulate as primary CPPs (CPP1), which are small spherical colloidal particles, and can aggregate to form large, crystalline, secondary CPPs (CPP2). Even though it has been reported that CPPs are toxic to vascular smooth muscle cells (VSMC) in vitro, their effect(s) on the vasculature remain unclear. Here we have shown that CPP1, but not CPP2, increased arterial stiffness ex vivo. Interestingly, the effects were more pronounced in the abdominal infrarenal aorta compared to the thoracic descending aorta. Further, we demonstrated that CPP1 affected both endothelial and VSMC function, impairing vasorelaxation and contraction respectively. Concomitantly, arterial glycosaminoglycan accumulation was observed as well, which is indicative of an increased extracellular matrix stiffness. However, these effects were not observed in vivo. Hence, we concluded that CPP1 can induce vascular dysfunction.

U2 - 10.1038/s42003-024-06895-y

DO - 10.1038/s42003-024-06895-y

M3 - Article

SN - 2399-3642

VL - 7

JO - Communications Biology

JF - Communications Biology

IS - 1

M1 - 1241

ER -

Calciprotein particles induce arterial stiffening ex vivo and impair vascular cell function

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