Rachel M. Sinders scite author profile

Chronic Kidney Disease-Mineral Bone Disorder (CKD-MBD) is a newly defined disorder that describes the interacting triad of (1) biochemical abnormalities of calcium, phosphorus, and PTH, (2) vascular calcification, and (3) abnormal bone in patients with CKD. We describe a novel animal model of slowly progressive CKD that spontaneously develops all three components of CKD-MBD while fed a normal phosphorus diet. The advantage of this model is the natural progression of the disease, allowing manipulation early in the course of CKD to better understand the pathophysiology of CKD-MBD. We further demonstrate that different sources of dietary protein, despite having similar total phosphorus contents, can have profound effects on the progression of CKD-MBD, likely due to differences in intestinal bioavailability of these phosphorus sources. Animals with early, but established, CKD fed a casein-based protein source, compared to grain-based protein source, had no differences in serum phosphorus. However, the casein protein-fed animals had increased urinary phosphorus excretion and elevated serum FGF23. Thus, this animal model will allow us to examine early changes in the course of CKD that may lead to CKD-MBD.

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Ciliary and centrosomal defects associated with mutation and depletion of the Meckel syndrome genes MKS1 and MKS3

Tammachote¹,

et al. 2009

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Meckel syndrome (MKS) is a lethal disorder characterized by renal cystic dysplasia, encephalocele, polydactyly and biliary dysgenesis. It is highly genetically heterogeneous with nine different genes implicated in this disorder. MKS is thought to be a ciliopathy because of the range of phenotypes and localization of some of the implicated proteins. However, limited data are available about the phenotypes associated with MKS1 and MKS3, and the published ciliary data are conflicting. Analysis of the wpk rat model of MKS3 revealed functional defects of the connecting cilium in the eye that resulted in lack of formation of the outer segment, whereas infertile wpk males developed spermatids with very short flagella that did not extend beyond the cell body. In wpk renal collecting duct cysts, cilia were generally longer than normal, with additional evidence of cells with multiple primary cilia and centrosome over-duplication. Kidney tissue and cells from MKS1 and MKS3 patients showed defects in centrosome and cilia number, including multi-ciliated respiratory-like epithelia, and longer cilia. Stable shRNA knockdown of Mks1 and Mks3 in IMCD3 cells induced multi-ciliated and multi-centrosomal phenotypes. These studies demonstrate that MKS1 and MKS3 are ciliopathies, with new cilia-related eye and sperm phenotypes defined. MKS1 and MKS3 functions are required for ciliary structure and function, including a role in regulating length and appropriate number through modulating centrosome duplication.

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R-568 reduces ectopic calcification in a rat model of chronic kidney disease-mineral bone disorder (CKD-MBD)

Moe¹,

Seifert

Chen

et al. 2009

Nephrology Dialysis Transplantation

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Thus, R-568, with or without Ca, improved the biochemical abnormalities of hyperparathyroidism but with higher and lower calcium levels, respectively, compared with controls. However, R-568 + Ca had more dramatic improvement in bone volume, but more extraskeletal calcification than R-568 alone. This complexity demonstrates that treatment of one component of CKD-MBD may lead to undesirable effects on other components.

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Calcimimetic Inhibits Late-Stage Cyst Growth in ADPKD

Gattone

Chen

Sinders

et al. 2009

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In polycystic kidney disease (PKD), genetic mutations in polycystin 1 and 2 lead to defective intracellular trafficking of calcium, thereby decreasing intracellular calcium and altering cAMP signaling to favor proliferation. We hypothesized that calcimimetics, allosteric modulators of the calcium-sensing receptor, would reduce cyst growth by increasing intracellular calcium. We randomly assigned 20-wk-old male rats with a form of autosomal dominant PKD (heterozygote Cy/ϩ) to one of four groups for 14 to 18 wk of treatment: (group 1) no treatment; (group 2) calcimimetic R-568 formulated in the diet; (group 3) R-568 plus calcium-supplemented drinking water (R-568 plus Ca); or (group 4) Ca-supplemented drinking water with a normal diet (Ca). Severity of PKD did not progress in any of the three treatment groups between 34 and 38 wk. Compared with no treatment, cyst growth was unaffected at 34 wk by all treatments, but cyst volume and fibrosis were lower at 38 wk, with both R-568-treated groups demonstrating a greater reduction than calcium alone. Between 34 and 38 wk, the total kidney weight increased by 78% in the control group (P Ͻ 0.001) and by 19% in the Ca group (P Ͻ 0.01), but did not increase in the R-568 or R-568 plus Ca groups, suggesting inhibition of disease progression despite equivalent suppression of parathyroid hormone. In summary, treatment of hyperparathyroidism halts late-stage progression of rodent cystic kidney disease. The benefit of R-568 alone suggests calcium-sensing receptor modulation may have additional inhibitory effects on late-stage cyst growth resulting from a direct modulation of intracellular calcium.

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Rachel M. Sinders

A rat model of chronic kidney disease-mineral bone disorder

Ciliary and centrosomal defects associated with mutation and depletion of the Meckel syndrome genes MKS1 and MKS3

R-568 reduces ectopic calcification in a rat model of chronic kidney disease-mineral bone disorder (CKD-MBD)

Calcimimetic Inhibits Late-Stage Cyst Growth in ADPKD

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