Shuhei Yoshimoto scite author profile

Renal α-Klotho (α-KL) plays a fundamental role as a co-receptor for fibroblast growth factor 23 (FGF23), a phosphaturic hormone and regulator of 1,25(OH)2 vitamin D3 (1,25VitD3). Disruption of FGF23-α-KL signaling is thought to be an early hallmark of chronic kidney disease (CKD) involving reduced renal α-KL expression and a reciprocal rise in serum FGF23. It remains unclear, however, whether the rise in FGF23 is related to the loss of renal α-KL. We evaluated α-KL expression in renal biopsy samples and measured levels of several parameters of mineral metabolism, as well as soluble α-KL (sKL), in serum and urinary samples from CKD patients (n = 236). We found that although renal α-KL levels were significantly reduced and serum FGF23 levels were significantly elevated in early and intermediate CKD, serum phosphate levels remained within the normal range. Multiple regression analysis showed that the increases in FGF23 were significantly associated with reduced renal function and elevated serum phosphate, but were not associated with loss of renal α-KL. Moreover, despite falling renal α-KL levels, the increase in FGF23 enhanced urinary fractional excretion of phosphate and reduced serum 1,25VitD3 levels in early and intermediate CKD, though not in advanced CKD. Serum sKL levels also fell significantly over the course of CKD, and renal α-KL was a significant independent determinant of sKL. These results demonstrate that FGF23 levels rise to compensate for renal failure-related phosphate retention in early and intermediate CKD. This enables FGF23-α-KL signaling and a neutral phosphate balance to be maintained despite the reduction in α-KL. In advanced CKD, however, renal α-KL declines further. This disrupts FGF23 signaling, and serum phosphate levels significantly increase, stimulating greater FGF23 secretion. Our results also suggest the serum sKL concentration may be a useful marker of renal α-KL expression levels.

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Decreased renal α-Klotho expression in early diabetic nephropathy in humans and mice and its possible role in urinary calcium excretion

Asai

Nakatani

Tanaka

et al. 2012

Kidney International

148

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Hypercalciuria is one of the early manifestations of diabetic nephropathy. We explored here the role of α-Klotho, a protein expressed predominantly in distal convoluted tubules that has a role in calcium reabsorption. We studied 31 patients with early diabetic nephropathy and compared them with 31 patients with IgA nephropathy and 7 with minimal change disease. Renal α-Klotho expression was significantly lower and urinary calcium excretion (UCa/UCr) significantly higher in diabetic nephropathy than in IgA nephropathy or minimal change disease. Multiple regression analyses indicated that α-Klotho mRNA was inversely correlated with calcium excretion. We next measured these parameters in a mouse model of streptozotocin (STZ)-induced diabetic nephropathy, characterized by glomerular hyperfiltration, as seen in early diabetic nephropathy. We also confirmed a reduction of renal α-Klotho mRNA down to almost 50% and enhanced calcium excretion in mice with STZ-induced diabetic nephropathy in comparison with nondiabetic mice. Hypercalciuria was exacerbated in heterozygous α-Klotho knockout mice in comparison with wild-type mice, each with STZ-induced diabetic nephropathy. Thus, α-Klotho expression was decreased in distal convoluted tubules in diabetic nephropathy in humans and mice. Renal loss of α-Klotho may affect urinary calcium excretion in early diabetic nephropathy.

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Endothelial adhesion molecules in glomerular lesions: Association with their severity and diversity in lupus models

Nakatani

Fujii

Hasegawa

et al. 2004

Kidney International

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Fractalkine expression and CD16⁺monocyte accumulation in glomerular lesions: association with their severity and diversity in lupus models

Nakatani

Yoshimoto

Iwano

et al. 2010

American Journal of Physiology-Renal Physiology

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Fractalkine (Fkn) is expressed on injured endothelial cells and is a membrane-bound chemokine that attracts cells expressing its receptor, CX3CR1, including CD16(+) monocytes (CD16(+) Mos). To clarify the role played by Fkn in the development of glomerular lesions in lupus nephritis, we examined Fkn expression and CD16(+) Mo accumulation induced in experimental C.B-17/Inc-scid/scid (SCID) lupus model mice by injection of IgG(3)-producing hybridoma clones obtained from MRL/lpr mice. Glomerular Fkn expression and accumulation of CD16(+) Mos were semiquantitatively evaluated using laser capture microdissection and real-time PCR. Injection of the 2B11.3 and 7B6.8 clones induced formation of glomerular proliferative and wire-loop lesions, respectively. Immunohistological analysis of the localization of Fkn and CD16(+) Mos revealed that Fkn expression and CD16(+) Mo accumulation were markedly elevated in glomerular lesions induced by 2B11.3, whereas no elevation was detected in those induced by 7B6.8. In addition, to examine the contribution of glomerular Fkn to the development of proliferative lesions, L cells producing an Fkn antagonist (Fkn-AT) were transplanted into SCID mice exhibiting proliferative lupus nephritis (DPLN) induced by 2B11.3. Notably, transplantation of the Fkn-AT-producing cells was functionally and histologically protective against this DPLN. Taken together, our findings suggest that Fkn and CD16(+) Mo accumulation are partially associated with the severity and diversity of histology of lupus nephritis.

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