Inhibition of RANKL improves the skeletal phenotype of adenine-induced chronic kidney disease in mice

Metzger, Corinne E; Kittaka, Mizuho; LaPlant, Alec N; Ueki, Yasuyoshi; Allen, Matthew R

doi:10.1093/jbmrpl/ziae004

JBMR Plus

2024

DOI: 10.1093/jbmrpl/ziae004

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Inhibition of RANKL improves the skeletal phenotype of adenine-induced chronic kidney disease in mice

Corinne E Metzger,

Mizuho Kittaka,

Alec N LaPlant

et al.

Abstract: Skeletal fragility and high fracture rates are common in chronic kidney disease (CKD). A key component of bone loss in CKD with secondary hyperparathyroidism is high bone turnover and cortical bone deterioration through both cortical porosity and cortical thinning. We hypothesized that receptor activator of nuclear factor-κB ligand (RANKL) drives high bone resorption within cortical bone leading to the development of cortical porosity (Study 1) and that systemic inhibition of RANKL would mitigate the skeletal … Show more

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The Bone-Vascular Axis: A Key Player in Chronic Kidney Disease Associated Vascular Calcification

Shen,

2024

Kidney Dis

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Background: The bone-vascular axis plays a key role in the pathogenesis of vascular calcification (VC) in patients with chronic kidney disease (CKD). Understanding and managing the role of the bone-vascular axis in CKD-mineral and bone disorder (CKD-MBD) is critical for preventing and treating associated complications, including osteoporosis, arterial calcification, and cardiovascular diseases. This study aimed to comprehensively summarize the role of bone metabolism markers in uremic VC. Summary: The skeleton, as an endocrine organ, can regulate systemic metabolic processes by secreting various bioactive substances. These molecules can induce the transdifferentiation of vascular smooth muscle cells, promoting their transition to other functional states, thereby affecting vascular growth and remodeling. Key Messages: The prevalence of VC in individuals with CKD is notably high. CKD-associated VC is characterized by the widespread accumulation of hydroxyapatite within the arterial media, which occurs as a result of the transformation of smooth muscle cells into osteoblastic smooth muscle cells under the influence of uremic toxins. Osteoblasts and osteoclasts in bone tissue secrete mineral metabolic proteins, which can influence neighboring cells, primarily vascular smooth muscle cells, through paracrine signaling. Both circulating and osteocytic sclerostin can exert a protective effect by inhibiting wingless/integrated (WNT)-induced calcification. The therapeutic goal for CKD-MBD is to reduce production of sclerostin by decreasing the osteogenic transdifferentiation of vascular smooth muscle cells. Calciprotein particles act as a physiological agent for delivering calcium-phosphate the bone and inducing fibroblast growth factor-23 expression in osteoblasts.

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The Bone-Vascular Axis: A Key Player in Chronic Kidney Disease Associated Vascular Calcification

Shen,

2024

Kidney Dis

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Inhibition of RANKL improves the skeletal phenotype of adenine-induced chronic kidney disease in mice

Cited by 1 publication

References 43 publications

The Bone-Vascular Axis: A Key Player in Chronic Kidney Disease Associated Vascular Calcification

The Bone-Vascular Axis: A Key Player in Chronic Kidney Disease Associated Vascular Calcification

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