Differential metabolomic signatures of declining renal function in Types 1 and 2 diabetes

Differential metabolomic signatures of declining renal function in Types 1 and 2 diabetes

Abstract Background Chronic kidney disease (CKD) shows different clinical features in Types1 (T1D) and 2 diabetes (T2D). Metabolomics have recently provided useful contribution to the identification of biomarkers of CKD progression in either form of the disease. However, no studies have so far compa...

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Published in:Nephrology, dialysis, transplantation Vol. 36; no. 10; pp. 1859 - 1866
Main Authors: Manca, Maria Laura, Solini, Anna, Haukka, Jani K, Sandholm, Niina, Forsblom, Carol, Groop, Per-Henrik, Ferrannini, Ele
Format: Journal Article
Language:English
Published: Oxford University Press 01-10-2021
Subjects:
Type 2 diabetes
nephropathy
GFR
metabolomics
Type 1 diabetes
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Summary:Abstract Background Chronic kidney disease (CKD) shows different clinical features in Types1 (T1D) and 2 diabetes (T2D). Metabolomics have recently provided useful contribution to the identification of biomarkers of CKD progression in either form of the disease. However, no studies have so far compared plasma metabolomics between T1D and T2D in order to identify differential signatures of progression of estimated glomerular filtration rate (eGFR) decline. Methods We used two large cohorts of T1D (from Finland) and T2D (from Italy) patients followed up to 7 and 3 years, respectively. In both groups, progression was defined as the top quartile of yearly decline in eGFR. Pooled data from the two groups were analysed by univariate and bivariate random forest (RF), and confirmed by bivariate partial least squares (PLS) analysis, the response variables being type of diabetes and eGFR progression. Results In progressors, yearly eGFR loss was significantly larger in T2D [−5.3 (3.0), median (interquartile range)mL/min/1.73 m2/year] than T1D [−3.7 (3.1) mL/min/1.73 m2/year ; P = 0.018]. Out of several hundreds, bivariate RF extracted 22 metabolites associated with diabetes type (all higher in T1D than T2D except for 5-methylthioadenosine, pyruvate and β-hydroxypyruvate) and 13 molecules associated with eGFR progression (all higher in progressors than non-progressors except for sphyngomyelin). Three of the selected metabolites (histidylphenylalanine, leucylphenylalanine, tryptophylasparagine) showed a significant interaction between disease type and progression. Only eight metabolites were common to both bivariate RF and PLS. Conclusions Identification of metabolomic signatures of CKD progression is partially dependent on the statistical model. Dual analysis identified molecules specifically associated with progressive renal impairment in both T1D and T2D.
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ISSN:0931-0509
1460-2385
DOI:10.1093/ndt/gfaa175