CD163+ macrophages restrain vascular calcification, promoting the development of high-risk plaque

Atsushi Sakamoto; Rika Kawakami; Masayuki Mori; Liang Guo; Ka Hyun Paek; Jose Verdezoto Mosquera; Anne Cornelissen; Saikat Kumar B. Ghosh; Kenji Kawai; Takao Konishi; Raquel Fernandez; Daniela T. Fuller; Weili Xu; Aimee E. Vozenilek; Yu Sato; Hiroyuki Jinnouchi; Sho Torii; Adam W. Turner; Hirokuni Akahori; Salome Kuntz; Craig C. Weinkauf; Parker J. Lee; Robert Kutys; Kathryn Harris; Alfred Lawrence Killey; Christina M. Mayhew; Matthew Ellis; Leah M. Weinstein; Neel V. Gadhoke; Roma Dhingra; Jeremy Ullman; Armella Dikongue; Maria E. Romero; Frank D. Kolodgie; Clint L. Miller; Renu Virmani; Aloke V. Finn

doi:10.1172/jci.insight.154922

CD163⁺ macrophages restrain vascular calcification, promoting the development of high-risk plaque

Atsushi Sakamoto, Rika Kawakami, Masayuki Mori, Liang Guo, Ka Hyun Paek, Jose Verdezoto Mosquera, Anne Cornelissen, Saikat Kumar B. Ghosh, Kenji Kawai, Takao Konishi, Raquel Fernandez, Daniela T. Fuller, Weili Xu, Aimee E. Vozenilek, Yu Sato, Hiroyuki Jinnouchi, Sho Torii, Adam W. Turner, Hirokuni Akahori, Salome KuntzCraig C. Weinkauf, Parker J. Lee, Robert Kutys, Kathryn Harris, Alfred Lawrence Killey, Christina M. Mayhew, Matthew Ellis, Leah M. Weinstein, Neel V. Gadhoke, Roma Dhingra, Jeremy Ullman, Armella Dikongue, Maria E. Romero, Frank D. Kolodgie, Clint L. Miller, Renu Virmani, Aloke V. Finn

Surgery

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

18 Scopus citations

Abstract

Vascular calcification (VC) is concomitant with atherosclerosis, yet it remains uncertain why rupture-prone high-risk plaques do not typically show extensive calcification. Intraplaque hemorrhage (IPH) deposits erythrocyte-derived cholesterol, enlarging the necrotic core and promoting high-risk plaque development. Pro-atherogenic CD163⁺ alternative macrophages engulf hemoglobin:haptoglobin (HH) complexes at IPH sites. However, their role in VC has never been examined to our knowledge. Here we show, in human arteries, the distribution of CD163⁺ macrophages correlated inversely with VC. In vitro experiments using vascular smooth muscle cells (VSMCs) cultured with HH-exposed human macrophage — M(Hb) — supernatant reduced calcification, while arteries from ApoE^–/– CD163^–/– mice showed greater VC. M(Hb) supernatant–exposed VSMCs showed activated NF-κB, while blocking NF-κB attenuated the anticalcific effect of M(Hb) on VSMCs. CD163⁺ macrophages altered VC through NF-κB–induced transcription of hyaluronan synthase (HAS), an enzyme that catalyzes the formation of the extracellular matrix glycosaminoglycan, hyaluronan, within VSMCs. M(Hb) supernatants enhanced HAS production in VSMCs, while knocking down HAS attenuated its anticalcific effect. NF-κB blockade in ApoE^–/– mice reduced hyaluronan and increased VC. In human arteries, hyaluronan and HAS were increased in areas of CD163⁺ macrophage presence. Our findings highlight an important mechanism by which CD163⁺ macrophages inhibit VC through NF-κB–induced HAS augmentation and thus promote the high-risk plaque development.

Original language	English (US)
Article number	e154922
Journal	JCI Insight
Volume	8
Issue number	5
DOIs	https://doi.org/10.1172/jci.insight.154922
State	Published - Mar 8 2023

ASJC Scopus subject areas

General Medicine

Access to Document

10.1172/jci.insight.154922

Cite this

Sakamoto, A., Kawakami, R., Mori, M., Guo, L., Paek, K. H., Mosquera, J. V., Cornelissen, A., Ghosh, S. K. B., Kawai, K., Konishi, T., Fernandez, R., Fuller, D. T., Xu, W., Vozenilek, A. E., Sato, Y., Jinnouchi, H., Torii, S., Turner, A. W., Akahori, H., ... Finn, A. V. (2023). CD163⁺ macrophages restrain vascular calcification, promoting the development of high-risk plaque. JCI Insight, 8(5), Article e154922. https://doi.org/10.1172/jci.insight.154922

Sakamoto, A, Kawakami, R, Mori, M, Guo, L, Paek, KH, Mosquera, JV, Cornelissen, A, Ghosh, SKB, Kawai, K, Konishi, T, Fernandez, R, Fuller, DT, Xu, W, Vozenilek, AE, Sato, Y, Jinnouchi, H, Torii, S, Turner, AW, Akahori, H, Kuntz, S, Weinkauf, CC, Lee, PJ, Kutys, R, Harris, K, Killey, AL, Mayhew, CM, Ellis, M, Weinstein, LM, Gadhoke, NV, Dhingra, R, Ullman, J, Dikongue, A, Romero, ME, Kolodgie, FD, Miller, CL, Virmani, R & Finn, AV 2023, 'CD163⁺ macrophages restrain vascular calcification, promoting the development of high-risk plaque', JCI Insight, vol. 8, no. 5, e154922. https://doi.org/10.1172/jci.insight.154922

@article{58dc339801d24a2c94c0bf3eed2844e4,

title = "CD163+ macrophages restrain vascular calcification, promoting the development of high-risk plaque",

abstract = "Vascular calcification (VC) is concomitant with atherosclerosis, yet it remains uncertain why rupture-prone high-risk plaques do not typically show extensive calcification. Intraplaque hemorrhage (IPH) deposits erythrocyte-derived cholesterol, enlarging the necrotic core and promoting high-risk plaque development. Pro-atherogenic CD163+ alternative macrophages engulf hemoglobin:haptoglobin (HH) complexes at IPH sites. However, their role in VC has never been examined to our knowledge. Here we show, in human arteries, the distribution of CD163+ macrophages correlated inversely with VC. In vitro experiments using vascular smooth muscle cells (VSMCs) cultured with HH-exposed human macrophage — M(Hb) — supernatant reduced calcification, while arteries from ApoE–/– CD163–/– mice showed greater VC. M(Hb) supernatant–exposed VSMCs showed activated NF-κB, while blocking NF-κB attenuated the anticalcific effect of M(Hb) on VSMCs. CD163+ macrophages altered VC through NF-κB–induced transcription of hyaluronan synthase (HAS), an enzyme that catalyzes the formation of the extracellular matrix glycosaminoglycan, hyaluronan, within VSMCs. M(Hb) supernatants enhanced HAS production in VSMCs, while knocking down HAS attenuated its anticalcific effect. NF-κB blockade in ApoE–/– mice reduced hyaluronan and increased VC. In human arteries, hyaluronan and HAS were increased in areas of CD163+ macrophage presence. Our findings highlight an important mechanism by which CD163+ macrophages inhibit VC through NF-κB–induced HAS augmentation and thus promote the high-risk plaque development.",

author = "Atsushi Sakamoto and Rika Kawakami and Masayuki Mori and Liang Guo and Paek, {Ka Hyun} and Mosquera, {Jose Verdezoto} and Anne Cornelissen and Ghosh, {Saikat Kumar B.} and Kenji Kawai and Takao Konishi and Raquel Fernandez and Fuller, {Daniela T.} and Weili Xu and Vozenilek, {Aimee E.} and Yu Sato and Hiroyuki Jinnouchi and Sho Torii and Turner, {Adam W.} and Hirokuni Akahori and Salome Kuntz and Weinkauf, {Craig C.} and Lee, {Parker J.} and Robert Kutys and Kathryn Harris and Killey, {Alfred Lawrence} and Mayhew, {Christina M.} and Matthew Ellis and Weinstein, {Leah M.} and Gadhoke, {Neel V.} and Roma Dhingra and Jeremy Ullman and Armella Dikongue and Romero, {Maria E.} and Kolodgie, {Frank D.} and Miller, {Clint L.} and Renu Virmani and Finn, {Aloke V.}",

note = "Publisher Copyright: {\textcopyright} 2023, Sakamoto et al.",

year = "2023",

month = mar,

day = "8",

doi = "10.1172/jci.insight.154922",

language = "English (US)",

volume = "8",

journal = "JCI Insight",

issn = "2379-3708",

publisher = "American Society for Clinical Investigation",

number = "5",

}

TY - JOUR

T1 - CD163+ macrophages restrain vascular calcification, promoting the development of high-risk plaque

AU - Sakamoto, Atsushi

AU - Kawakami, Rika

AU - Mori, Masayuki

AU - Guo, Liang

AU - Paek, Ka Hyun

AU - Mosquera, Jose Verdezoto

AU - Cornelissen, Anne

AU - Ghosh, Saikat Kumar B.

AU - Kawai, Kenji

AU - Konishi, Takao

AU - Fernandez, Raquel

AU - Fuller, Daniela T.

AU - Xu, Weili

AU - Vozenilek, Aimee E.

AU - Sato, Yu

AU - Jinnouchi, Hiroyuki

AU - Torii, Sho

AU - Turner, Adam W.

AU - Akahori, Hirokuni

AU - Kuntz, Salome

AU - Weinkauf, Craig C.

AU - Lee, Parker J.

AU - Kutys, Robert

AU - Harris, Kathryn

AU - Killey, Alfred Lawrence

AU - Mayhew, Christina M.

AU - Ellis, Matthew

AU - Weinstein, Leah M.

AU - Gadhoke, Neel V.

AU - Dhingra, Roma

AU - Ullman, Jeremy

AU - Dikongue, Armella

AU - Romero, Maria E.

AU - Kolodgie, Frank D.

AU - Miller, Clint L.

AU - Virmani, Renu

AU - Finn, Aloke V.

PY - 2023/3/8

Y1 - 2023/3/8

N2 - Vascular calcification (VC) is concomitant with atherosclerosis, yet it remains uncertain why rupture-prone high-risk plaques do not typically show extensive calcification. Intraplaque hemorrhage (IPH) deposits erythrocyte-derived cholesterol, enlarging the necrotic core and promoting high-risk plaque development. Pro-atherogenic CD163+ alternative macrophages engulf hemoglobin:haptoglobin (HH) complexes at IPH sites. However, their role in VC has never been examined to our knowledge. Here we show, in human arteries, the distribution of CD163+ macrophages correlated inversely with VC. In vitro experiments using vascular smooth muscle cells (VSMCs) cultured with HH-exposed human macrophage — M(Hb) — supernatant reduced calcification, while arteries from ApoE–/– CD163–/– mice showed greater VC. M(Hb) supernatant–exposed VSMCs showed activated NF-κB, while blocking NF-κB attenuated the anticalcific effect of M(Hb) on VSMCs. CD163+ macrophages altered VC through NF-κB–induced transcription of hyaluronan synthase (HAS), an enzyme that catalyzes the formation of the extracellular matrix glycosaminoglycan, hyaluronan, within VSMCs. M(Hb) supernatants enhanced HAS production in VSMCs, while knocking down HAS attenuated its anticalcific effect. NF-κB blockade in ApoE–/– mice reduced hyaluronan and increased VC. In human arteries, hyaluronan and HAS were increased in areas of CD163+ macrophage presence. Our findings highlight an important mechanism by which CD163+ macrophages inhibit VC through NF-κB–induced HAS augmentation and thus promote the high-risk plaque development.

AB - Vascular calcification (VC) is concomitant with atherosclerosis, yet it remains uncertain why rupture-prone high-risk plaques do not typically show extensive calcification. Intraplaque hemorrhage (IPH) deposits erythrocyte-derived cholesterol, enlarging the necrotic core and promoting high-risk plaque development. Pro-atherogenic CD163+ alternative macrophages engulf hemoglobin:haptoglobin (HH) complexes at IPH sites. However, their role in VC has never been examined to our knowledge. Here we show, in human arteries, the distribution of CD163+ macrophages correlated inversely with VC. In vitro experiments using vascular smooth muscle cells (VSMCs) cultured with HH-exposed human macrophage — M(Hb) — supernatant reduced calcification, while arteries from ApoE–/– CD163–/– mice showed greater VC. M(Hb) supernatant–exposed VSMCs showed activated NF-κB, while blocking NF-κB attenuated the anticalcific effect of M(Hb) on VSMCs. CD163+ macrophages altered VC through NF-κB–induced transcription of hyaluronan synthase (HAS), an enzyme that catalyzes the formation of the extracellular matrix glycosaminoglycan, hyaluronan, within VSMCs. M(Hb) supernatants enhanced HAS production in VSMCs, while knocking down HAS attenuated its anticalcific effect. NF-κB blockade in ApoE–/– mice reduced hyaluronan and increased VC. In human arteries, hyaluronan and HAS were increased in areas of CD163+ macrophage presence. Our findings highlight an important mechanism by which CD163+ macrophages inhibit VC through NF-κB–induced HAS augmentation and thus promote the high-risk plaque development.

UR - http://www.scopus.com/inward/record.url?scp=85150000355&partnerID=8YFLogxK

UR - http://www.scopus.com/inward/citedby.url?scp=85150000355&partnerID=8YFLogxK

U2 - 10.1172/jci.insight.154922

DO - 10.1172/jci.insight.154922

M3 - Article

C2 - 36719758

AN - SCOPUS:85150000355

SN - 2379-3708

VL - 8

JO - JCI Insight

JF - JCI Insight

IS - 5

M1 - e154922

ER -

CD163⁺ macrophages restrain vascular calcification, promoting the development of high-risk plaque

Abstract

ASJC Scopus subject areas

Access to Document

Other files and links

Fingerprint

Cite this