Dietary phosphorus consumption alters T cell populations, cytokine production, and bone volume in mice
Joseph L. Roberts, … , Roberto Pacifici, George R. Beck Jr
Joseph L. Roberts, … , Roberto Pacifici, George R. Beck Jr
Published April 20, 2023
Citation Information: JCI Insight. 2023;8(10):e154729. https://doi.org/10.1172/jci.insight.154729.
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Research Article Bone biology

Dietary phosphorus consumption alters T cell populations, cytokine production, and bone volume in mice

Abstract

The intake of dietary phosphate far exceeds recommended levels; however, the long-term health consequences remain relatively unknown. Here, the chronic physiological response to sustained elevated and reduced dietary phosphate consumption was investigated in mice. Although serum phosphate levels were brought into homeostatic balance, the prolonged intake of a high-phosphate diet dramatically and negatively impacted bone volume; generated a sustained increase in the phosphate responsive circulating factors FGF23, PTH, osteopontin and osteocalcin; and produced a chronic low-grade inflammatory state in the BM, marked by increased numbers of T cells expressing IL-17a, RANKL, and TNF-α. In contrast, a low-phosphate diet preserved trabecular bone while increasing cortical bone volume over time, and it reduced inflammatory T cell populations. Cell-based studies identified a direct response of T cells to elevated extracellular phosphate. Neutralizing antibodies against proosteoclastic cytokines RANKL, TNF-α, and IL-17a blunted the high-phosphate diet–induced bone loss identifying bone resorption as a regulatory mechanism. Collectively, this study illuminates that habitual consumption of a high-phosphate diet in mice induces chronic inflammation in bone, even in the absence of elevated serum phosphate. Furthermore, the study supports the concept that a reduced phosphate diet may be a simple yet effective strategy to reduce inflammation and improve bone health during aging.

Authors

Joseph L. Roberts, Mingcan Yu, Manjula Viggeswarapu, Jamie L. Arnst, Roberto Pacifici, George R. Beck Jr

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Figure 8

HPD and phosphate altered gene expression from bone, BM, and T cells.

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HPD and phosphate altered gene expression from bone, BM, and T cells. (A...
(A and B) RNA was isolated from BM (A) and bone (flushed of marrow) (B) from the mice described in Figure 7. qPCR of pooled cDNA from individual mice (n = 5) was used to quantify changes in gene expression relative to NPD as indicated. *P < 0.05, **P < 0.01, ***P < 0.005 by Student’s t test relative to HPD. (C) Primary BM pan–T cells were isolated from female 10-week-old C57BL/6J mice and either immediately harvested for RNA or treated overnight with (+) or without (–) 4 mM Pi; they were then activated for 4 hours (activated) with PMA/ionomycin. Gene expression was quantified by qPCR relative to the immediately harvested cells. Fold change was calculated relative to nonactivated, non–Pi-treated control. (D) Jurkat cells were treated for 48 hours with or without 4 mM Pi and in the presence of foscarnet (Fos) (1 mM), PD173074 (PD) (300 nm), or TAS-120 (50 nm); RNA was assessed by qPCR, and fold change was calculated against non–Pi-treated control for each condition. Data represent mean ± SD of samples run in triplicate. *P < 0.05 Student’s t test relative to control.