Identification of dicarbonyl and L-xylulose reductase as a therapeutic target in human chronic kidney disease
Paul Perco, … , Michael Rudnicki, Nephrotic Syndrome Study Network (NEPTUNE)
Paul Perco, … , Michael Rudnicki, Nephrotic Syndrome Study Network (NEPTUNE)
Published June 20, 2019
Citation Information: JCI Insight. 2019;4(12):e128120. https://doi.org/10.1172/jci.insight.128120.
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Research Article Nephrology

Identification of dicarbonyl and L-xylulose reductase as a therapeutic target in human chronic kidney disease

Abstract

An imbalance of nephroprotective factors and renal damaging molecules contributes to development and progression of chronic kidney disease (CKD). We investigated associations of renoprotective factor gene expression patterns with CKD severity and outcome. Gene expression profiles of 197 previously reported renoprotective factors were analyzed in a discovery cohort in renal biopsies of 63 CKD patients. Downregulation of dicarbonyl and L-xylulose reductase (DCXR) showed the strongest association with disease progression. This significant association was validated in an independent set of 225 patients with nephrotic syndrome from the multicenter NEPTUNE cohort. Reduced expression of DCXR was significantly associated with degree of histological damage as well as with lower estimated glomerular filtration rate and increased urinary protein levels. DCXR downregulation in CKD was confirmed in 3 publicly available transcriptomics data sets in the context of CKD. Expression of DCXR showed positive correlations to enzymes that are involved in dicarbonyl stress detoxification based on transcriptomics profiles. The sodium glucose cotransporter-2 (SGLT2) inhibitors canagliflozin and empagliflozin showed a beneficial effect on renal proximal tubular cells under diabetic stimuli–enhanced DCXR gene expression. In summary, lower expression of the renoprotective factor DCXR in renal tissue is associated with more severe disease and worse outcome in human CKD.

Authors

Paul Perco, Wenjun Ju, Julia Kerschbaum, Johannes Leierer, Rajasree Menon, Catherine Zhu, Matthias Kretzler, Gert Mayer, Michael Rudnicki, Nephrotic Syndrome Study Network (NEPTUNE)

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Figure 4

DCXR expression in renal tissue.

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DCXR expression in renal tissue. (A) DCXR mRNA expression is significan...
(A) DCXR mRNA expression is significantly higher (fold change = 3.36, P < 0.001) in tubulointerstitium (n = 6) as compared with glomeruli (n = 6) based on t test statistics. (B) DCXR protein abundance is also restricted to renal tubular cells. (C) Violin plots indicating enriched DCXR expression in proximal tubule cells based on single-cell RNA-Seq experiments from human tissues. aLOH, ascending loop of Henle cells; ICT/CNT, intercalated/connecting cells; dLOH, distal/descending loop of Henle cells; CD/DCT/CNT, collecting duct/distal/connecting cells; CD8+/NKC, CD8+/natural killer cells. (D) Violin plots indicating that DCXR expression is mainly restricted to S1, S2, and S3 tubular segments. S1, S1 proximal tubule; S2, S2 proximal tubule; S3, S3 proximal tubule; IMCD, inner medullar collecting duct; CCD, cortical collecting duct; DCT, distal convoluted tubule; OMCD, outer medullary collecting duct; mTAL, medullary thick ascending limb; CNT, connecting tubule; cTAL, cortical thick ascending limb; SDL, short descending limb; LDLOM, long descending limb, outer medulla; LDLIM, long descending limb, inner medulla; tAL, thin ascending limb; G, glomeruli; RPKM, reads per kilobase million.