Zhang, Z. Y.; Ravassa Albéniz, Susana
; Pejchinovski, M.; Yang, W. Y.; Zurbig, P.; López Salazar, Begoña
; Wei, F. F.; Thijs, L.; Jacobs, L.; González Miqueo, Aránzazu
; Voigt, J. U.; Verhamme, P.; Kuznetsova, T.; Díez Martínez, Domingo Francisco Javier
; Mischak, H.; Staessen, J. (Autor de correspondencia)
Introduction: Sequencing peptides included in the urinary proteome identifies the parent proteins and may reveal mechanisms underlying the pathophysiology of chronic kidney disease. Methods: In 805 randomly recruited Flemish individuals (50.8% women; mean age, 51.1 years), we determined the estimated glomerular filtration rate (eGFR) from serum creatinine using the Chronic Kidney Disease Epidemiology Collaboration (CKD-EPI) equation. We categorized eGFR according to the National Kidney Foundation Kidney Disease Outcomes Quality Initiative guideline. We analyzed 74 sequenced urinary peptides with a detectable signal in more than 95% of participants. Follow-up measurements of eGFR were available in 597 participants. Results: In multivariable analyses, baseline eGFR decreased (P <= 0.022) with urinary fragments of mucin-1 (standardized association size expressed in ml/min/1.73 m(2), -4.48), collagen III (-2.84), and fibrinogen (-1.70) and was bi-directionally associated (P <= 0.0006) with 2 urinary collagen I fragments (+2.28 and -3.20). The eGFR changes over 5 years (follow-up minus baseline) resulted in consistent estimates (P <= 0.025) for mucin-1 (-1.85), collagen (-1.37 to 1.43) and fibrinogen (-1.45) fragments. Relative risk of having or progressing to eGFR <60 ml/min/1.73 m(2) was associated with mucin-1. Partial least-squares analysis confirmed mucin-1 as the strongest urinary marker associated with decreased eGFR, with a score of 2.47 compared with 1.80 for a collagen I fragment as the next contender. Mucin-1 predicted eGFR decline to <60 ml/min/1.73 m(2) over and above microalbuminuria (P = 0.011) and retained borderline significance (P = 0.05) when baseline eGFR was accounted for. Discussion: In the general population, mucin-1 subunit alpha, an extracellular protein that is shed from renal tubular epithelium, is a novel biomarker associated with renal dysfunction.