Skeleton-secreted PDGF-BB mediates arterial stiffening
Lakshmi Santhanam, … , Xu Cao, Mei Wan
Lakshmi Santhanam, … , Xu Cao, Mei Wan
Published August 26, 2021
Citation Information: J Clin Invest. 2021;131(20):e147116. https://doi.org/10.1172/JCI147116.
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Research Article Bone biology Vascular biology Article has an altmetric score of 14

Skeleton-secreted PDGF-BB mediates arterial stiffening

Abstract

Evidence links osteoporosis and cardiovascular disease but the cellular and molecular mechanisms are unclear. Here we identify skeleton-secreted platelet-derived growth factor–BB (PDGF-BB) as a key mediator of arterial stiffening in response to aging and metabolic stress. Aged mice and those fed high-fat diet (HFD), relative to young mice and those fed normal chow food diet, respectively, had higher serum PDGF-BB and developed bone loss and arterial stiffening. Bone/bone marrow preosteoclasts in aged mice and HFD mice secrete an excessive amount of PDGF-BB, contributing to the elevated PDGF-BB in blood circulation. Conditioned medium prepared from preosteoclasts stimulated proliferation and migration of the vascular smooth muscle cells. Conditional transgenic mice, in which PDGF-BB is overexpressed in preosteoclasts, had 3-fold higher serum PDGF-BB concentration and developed simultaneous bone loss and arterial stiffening spontaneously at a young age. Conversely, in conditional knockout mice, in which PDGF-BB is deleted selectively in preosteoclasts, HFD did not affect serum PDGF-BB concentration; as a result, HFD-induced bone loss and arterial stiffening were attenuated. These studies confirm that preosteoclasts are a main source of excessive PDGF-BB in blood circulation during aging and metabolic stress and establish the role of skeleton-derived PDGF-BB as an important mediator of vascular stiffening.

Authors

Lakshmi Santhanam, Guanqiao Liu, Sandeep Jandu, Weiping Su, Bulouere P. Wodu, William Savage, Alan Poe, Xiaonan Liu, Lacy M. Alexander, Xu Cao, Mei Wan

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Figure 6

Conditional Pdgfb transgenic mice recapitulate an aging-associated bone phenotype.

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Conditional Pdgfb transgenic mice recapitulate an aging-associated bone ...
(AE) Representative μCT images (A) and quantitative analyses (BE) of the trabecular bone area of the distal femur from male 6-month-old PdgfbcTG mice and WT littermates. BV/TV (B), Tb.Th (C), Tb.N (D), and Tb.Sp (E). Representative μCT images (F) and quantitative analysis (G and H) of the cross-sections of femoral mid-diaphysis of mice. Ct.Th, cortical bone thickness; B. Ar, bone area. (IL) Quantitative μCT analyses of the trabecular bone area of the distal femur from female 9-month-old PdgfbcTG mice and WT littermates. BV/TV (I), Tb.Th (J), Tb.N (K), and Tb.Sp (L). (M and N) Representative immunohistochemical staining (M) and quantitative analysis of osteocalcin (OCN) (N) in femur sections. (O and P) Representative TRAP staining (O) and quantitative analysis of TRAP+ cells in femur sections (P). N.OB/B.Pm, number of osteocalcin+ osteoblasts per bone perimeter; N.OC/B.Pm, number of TRAP+ osteoclasts per bone perimeter. *P < 0.05, **P < 0.01, ***P < 0.001 as determined by Student’s t tests.