Crystal deposition triggers tubule dilation that accelerates cystogenesis in polycystic kidney disease
Jacob A. Torres, … , Michal Mrug, Thomas Weimbs
Jacob A. Torres, … , Michal Mrug, Thomas Weimbs
Published July 30, 2019
Citation Information: J Clin Invest. 2019;129(10):4506-4522. https://doi.org/10.1172/JCI128503.
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Research Article Nephrology

Crystal deposition triggers tubule dilation that accelerates cystogenesis in polycystic kidney disease

Abstract

The rate of disease progression in autosomal-dominant polycystic kidney disease (ADPKD) has high intrafamilial variability, suggesting that environmental factors may play a role. We hypothesized that a prevalent form of renal insult may accelerate cystic progression and investigated tubular crystal deposition. We report that calcium oxalate (CaOx) crystal deposition led to rapid tubule dilation, activation of PKD-associated signaling pathways, and hypertrophy in tubule segments along the affected nephrons. Blocking mTOR signaling blunted this response and inhibited efficient excretion of lodged crystals. This mechanism of “flushing out” crystals by purposefully dilating renal tubules has not to our knowledge been previously recognized. Challenging PKD rat models with CaOx crystal deposition or inducing calcium phosphate deposition by increasing dietary phosphorus intake led to increased cystogenesis and disease progression. In a cohort of patients with ADPKD, lower levels of urinary excretion of citrate, an endogenous inhibitor of calcium crystal formation, were correlated with increased disease severity. These results suggest that PKD progression may be accelerated by commonly occurring renal crystal deposition that could be therapeutically controlled by relatively simple measures.

Authors

Jacob A. Torres, Mina Rezaei, Caroline Broderick, Louis Lin, Xiaofang Wang, Bernd Hoppe, Benjamin D. Cowley Jr., Vincenzo Savica, Vicente E. Torres, Saeed Khan, Ross P. Holmes, Michal Mrug, Thomas Weimbs

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Figure 5

Chronic CaOx crystal deposition leads to increased cystogenesis and disease progression in the Han:SPRD rat model.

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Chronic CaOx crystal deposition leads to increased cystogenesis and dise...
(A) Timeline of treatment. Han:SPRD rats were given 0.75% ethylene glycol in their drinking water from 3 weeks of age until 8 weeks of age. (B) Bright-field and polarized light microscopic images of H&E-stained kidney sections. Scale bar: 2 mm. (C) Two-kidney/BW (2KD/BW) ratios. (D) Renal cystic index. (E) Cyst numbers in kidney sections per animal. (F) Cyst sizes measured by surface area in H&E-stained sections. (G) Immunostaining for the segment-specific markers AQP1 and AQP2. Scale bars: 50 μm and 100 μm. (H) Quantification of Pizzolato-stained tissue in I of WT and Han:SPRD rats treated with or without citrate. P values in H were determined by Mann-Whitney U test. (I) Pizzolato stained sections from untreated and citrate-treated male, Cy/+ Han:SPRD rats. Animals treated for this experiment: n = 9 WT and n = 9 Cy/+ male rats, 6 WT females, n = 7 Cy/+ females. Untreated animals: n = 4 WT male rats, n = 5 Cy/+ rats, n = 5 WT females, and n = 5 Cy/+ females. Scale bars: 100 μm and 50 μm. Images of ethylene glycol–treated rats are representative of 4 experiments and 3 experiments for the citrate-treated rats. Error bars represent the SD. *P < 0.05 and ***P < 0.001, by Mann-Whitney U test.