RANKL/OPG system regulation by endogenous PTH and PTH1R/ATF4 axis in bone: Implications for bone accrual and strength in growing rats with mild uremia

• Published in: Cytokine (Philadelphia, Pa.) Vol. 106; pp. 19 - 28
• Main Authors: Znorko, Beata, Pawlak, Dariusz, Oksztulska-Kolanek, Ewa, Domaniewski, Tomasz, Pryczynicz, Anna, Roszczenko, Alicja, Rogalska, Joanna, Lipowicz, Paweł, Doroszko, Michał, Brzoska, Malgorzata Michalina, Pawlak, Krystyna
• Format: Journal Article
• Language: English
• Published: England Elsevier Ltd 01.06.2018
• Subjects: Growing rats; Mild chronic kidney disease; Parathyroid hormone; PTH1R/ATF4 pathway; RANKL/OPG system; RANKL; PTH; OPG; CKD–MBD; RANK; PTH1R; Parathyroid hormone; vBMD; Growing rats; PTH1R/ATF4 pathway; Mild chronic kidney disease; RANKL/OPG system; CKD; ATF4
• ISSN: 1043-4666; 1096-0023
• DOI: 10.1016/j.cyto.2018.03.002

•An experimental model of mild, chronic kidney disease (CKD) in growing rats was used.•Bone RANKL, RANKL/OPG ratios decreased during 3-month CKD development.•Serum PTH, bone PTH1R/ATF4 axis, cortical bone accrual and strength rise at this time.•Decrease in RANKL/OPG system depends on PTH-mediated activation of PTH1R/ATF4 pathway.•Endogenous PTH exerts beneficial effect oncortical bone accrual and strength. Osteoprotegerin (OPG), receptor activator of NF-κB ligand (RANKL), and parathyroid hormone (PTH) play a central role in the regulation of bone turnover in chronic kidney disease (CKD), but their influence on bone mineral density (BMD) and strength remains unclear, particularly in children. We studied the clinical significance of OPG and RANKL in relation to PTH, femur weight, BMD, and bone biomechanical properties in growing rats after one month (CKD-1) and three months (CKD-3) of surgically-induced mild CKD. Gene expression of parathyroid hormone 1 receptor (PTH1R) and activating transcription factor 4 (ATF4), major regulators of anabolic PTH response in bone, was also determined. Serum PTH and bone PTH1R/ATF4 expression was elevated in CKD-3 compared with other groups, and it positively correlated with femur weight, BMD, and the biomechanical properties of the femoral diaphysis reflecting cortical bone strength. In contrast, bone RANKL/OPG ratios were decreased in CKD-3 rats compared with other groups, and they were inversely correlated with PTH and the other abovementioned bone parameters. However, the PTH-PTH1R-ATF4 axis exerted an unfavorable effect on the biomechanical properties of the femoral neck. In conclusion, this study showed for the first time an inverse association between serum PTH and the bone RANKL/OPG system in growing rats with mild CKD. A decrease in the RANKL/OPG ratio, associated with PTH-dependent activation of the anabolic PTH1R/ATF4 pathway, seems to be responsible for the unexpected, beneficial effect of PTH on cortical bone accrual and strength. Simultaneously, impaired biomechanical properties of the femoral neck were observed, making this bone site more susceptible to fractures.