Ubiquitin COOH-terminal hydrolase L1 deletion is associated with urinary α-klotho deficiency and perturbed phosphate homeostasis
Loss of ubiquitin COOH-terminal hydrolase L1 (UCHL1), a deubiquitinating enzyme required for neuronal function, led to hyperphosphatemia accompanied by phosphaturia in mice, while calcium homeostasis remained intact. We therefore investigated the mechanisms underlying the phosphate imbalance in Uchl...
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| Veröffentlicht in: | American journal of physiology. Renal physiology 2018-08, Vol.315 (2), p.F353-F363 |
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| container_title | American journal of physiology. Renal physiology |
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| creator | Boisvert, Naomi C Holterman, Chet E Gutsol, Alexey Coulombe, Josée Pan, Wanling Alexander, R Todd Gray, Douglas A Kennedy, Chris R |
| description | Loss of ubiquitin COOH-terminal hydrolase L1 (UCHL1), a deubiquitinating enzyme required for neuronal function, led to hyperphosphatemia accompanied by phosphaturia in mice, while calcium homeostasis remained intact. We therefore investigated the mechanisms underlying the phosphate imbalance in Uchl1
mice. Interestingly, phosphaturia was not a result of lower renal brush border membrane sodium-phosphate cotransporter expression as sodium-phosphate cotransporter 2a and 2c expression levels was similar to wild-type levels. Plasma parathyroid hormone and fibroblast growth factor 23 levels were not different; however, fibroblast growth factor 23 mRNA levels were significantly increased in femur homogenates from Uchl1
mice. Full-length and soluble α-klotho levels were comparable in kidneys from wild-type and Uchl1
mice; however, soluble α-klotho was reduced in Uchl1
mice urine. Consistent with unchanged components of 1,25(OH)
D
metabolism (i.e., CYP27B1 and CYP24A1), sodium-phosphate cotransporter 2b protein levels were not different in ileum brush borders from Uchl1
mice, suggesting that the intestine is not the source of hyperphosphatemia. Nonetheless, when Uchl1
mice were fed a low-phosphate diet, plasma phosphate, urinary phosphate, and fractional excretion of phosphate were significantly attenuated and comparable to levels of low-phosphate diet-fed wild-type mice. Our findings demonstrate that Uchl1-deleted mice exhibit perturbed phosphate homeostasis, likely consequent to decreased urinary soluble α-klotho, which can be rescued with a low-phosphate diet. Uchl1
mice may provide a useful mouse model to study mild perturbations in phosphate homeostasis. |
| doi_str_mv | 10.1152/ajprenal.00411.2017 |
| format | Article |
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mice. Interestingly, phosphaturia was not a result of lower renal brush border membrane sodium-phosphate cotransporter expression as sodium-phosphate cotransporter 2a and 2c expression levels was similar to wild-type levels. Plasma parathyroid hormone and fibroblast growth factor 23 levels were not different; however, fibroblast growth factor 23 mRNA levels were significantly increased in femur homogenates from Uchl1
mice. Full-length and soluble α-klotho levels were comparable in kidneys from wild-type and Uchl1
mice; however, soluble α-klotho was reduced in Uchl1
mice urine. Consistent with unchanged components of 1,25(OH)
D
metabolism (i.e., CYP27B1 and CYP24A1), sodium-phosphate cotransporter 2b protein levels were not different in ileum brush borders from Uchl1
mice, suggesting that the intestine is not the source of hyperphosphatemia. Nonetheless, when Uchl1
mice were fed a low-phosphate diet, plasma phosphate, urinary phosphate, and fractional excretion of phosphate were significantly attenuated and comparable to levels of low-phosphate diet-fed wild-type mice. Our findings demonstrate that Uchl1-deleted mice exhibit perturbed phosphate homeostasis, likely consequent to decreased urinary soluble α-klotho, which can be rescued with a low-phosphate diet. Uchl1
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mice. Interestingly, phosphaturia was not a result of lower renal brush border membrane sodium-phosphate cotransporter expression as sodium-phosphate cotransporter 2a and 2c expression levels was similar to wild-type levels. Plasma parathyroid hormone and fibroblast growth factor 23 levels were not different; however, fibroblast growth factor 23 mRNA levels were significantly increased in femur homogenates from Uchl1
mice. Full-length and soluble α-klotho levels were comparable in kidneys from wild-type and Uchl1
mice; however, soluble α-klotho was reduced in Uchl1
mice urine. Consistent with unchanged components of 1,25(OH)
D
metabolism (i.e., CYP27B1 and CYP24A1), sodium-phosphate cotransporter 2b protein levels were not different in ileum brush borders from Uchl1
mice, suggesting that the intestine is not the source of hyperphosphatemia. Nonetheless, when Uchl1
mice were fed a low-phosphate diet, plasma phosphate, urinary phosphate, and fractional excretion of phosphate were significantly attenuated and comparable to levels of low-phosphate diet-fed wild-type mice. Our findings demonstrate that Uchl1-deleted mice exhibit perturbed phosphate homeostasis, likely consequent to decreased urinary soluble α-klotho, which can be rescued with a low-phosphate diet. Uchl1
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mice. Interestingly, phosphaturia was not a result of lower renal brush border membrane sodium-phosphate cotransporter expression as sodium-phosphate cotransporter 2a and 2c expression levels was similar to wild-type levels. Plasma parathyroid hormone and fibroblast growth factor 23 levels were not different; however, fibroblast growth factor 23 mRNA levels were significantly increased in femur homogenates from Uchl1
mice. Full-length and soluble α-klotho levels were comparable in kidneys from wild-type and Uchl1
mice; however, soluble α-klotho was reduced in Uchl1
mice urine. Consistent with unchanged components of 1,25(OH)
D
metabolism (i.e., CYP27B1 and CYP24A1), sodium-phosphate cotransporter 2b protein levels were not different in ileum brush borders from Uchl1
mice, suggesting that the intestine is not the source of hyperphosphatemia. Nonetheless, when Uchl1
mice were fed a low-phosphate diet, plasma phosphate, urinary phosphate, and fractional excretion of phosphate were significantly attenuated and comparable to levels of low-phosphate diet-fed wild-type mice. Our findings demonstrate that Uchl1-deleted mice exhibit perturbed phosphate homeostasis, likely consequent to decreased urinary soluble α-klotho, which can be rescued with a low-phosphate diet. Uchl1
mice may provide a useful mouse model to study mild perturbations in phosphate homeostasis.</abstract><cop>United States</cop><pmid>29667913</pmid><doi>10.1152/ajprenal.00411.2017</doi><oa>free_for_read</oa></addata></record> |
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| title | Ubiquitin COOH-terminal hydrolase L1 deletion is associated with urinary α-klotho deficiency and perturbed phosphate homeostasis |
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