Evocalcet rescues secondary hyperparathyroidism-driven cortical porosity in chronic kidney disease male rats.
Tomoka HasegawaShin TokunagaTomomaya YamamotoMariko SakaiHiromi HongoTakehisa KawataNorio AmizukaPublished in: Endocrinology (2023)
To elucidate the effect of evocalcet, a new oral calcimimetic to bone of secondary hyperparathyroidism (SHPT) with chronic kidney disease (CKD), the rats were 5/6 nephrectomized and fed on a high-phosphate diet. The treated rats were then divided into vehicle groups and evocalcet administered groups. The rats in the vehicle groups exhibited increased levels of serum PTH and inorganic phosphate (Pi) levels, high bone turnover, and severe cortical porosity, mimicking SHPT (CKD-SHPT rats). The cortical bone of the CKD-SHPT rats showed broad demineralization around the osteocytes suppression of Phex/SIBLING-mediated mineralization in the periphery of the osteocytic lacunae, and increased levels of osteocytic cell death, all of which were considered as the first steps of cortical porosity. In contrast, evocalcet ameliorated the increased serum PTH levels, the enlarged osteocytic lacunae and the cortical porosity of the CKD-SHPT rats. Osteocytes of CKD-SHPT rats strongly expressed PTH receptor and Pit1/Pit2, which sense extracellular Pi, indicating that PTH and Pi affected these osteocytes. Cell death of cultured osteocytes increased in a Pi concentration-dependent manner, and PTH administration rapidly elevated Pit1 expression and enhanced osteocytic death, indicating the possibility that the highly-concentrated serum PTH and Pi cause severe peri-lacunar osteolysis and osteocytic cell death. It is likely therefore that evocalcet not only decreases serum PTH but also reduces the exacerbation combined with PTH and Pi to the demineralization of osteocytic lacunae and osteocytic cell death, thereby protecting cortical porosity in CKD-SHPT rats.
Keyphrases
- chronic kidney disease
- cell death
- end stage renal disease
- bone mineral density
- physical activity
- chronic obstructive pulmonary disease
- magnetic resonance imaging
- cell cycle arrest
- early onset
- poor prognosis
- mouse model
- body composition
- intensive care unit
- endothelial cells
- binding protein
- long non coding rna
- bone loss
- drug induced