Adiponectin in chronic kidney disease is related more to metabolic disturbances than to decline in renal function

doi:10.1093/ndt/gfh568

NDT Advance Access published online on December 7, 2004
Nephrology Dialysis Transplantation, doi:10.1093/ndt/gfh568

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Nephrol Dial Transplant © ERA-EDTA 2004; all rights reserved
Received December 4, 2003
Accepted July 28, 2004

Original Articles

Adiponectin in chronic kidney disease is related more to metabolic disturbances than to decline in renal function

Fitsum Guebre-Egziabher ¹, Jacques Bernhard ², Tohru Funahashi ³, Aoumeur Hadj-Aissa ⁴, and Denis Fouque ¹^*

¹ Département de Néphrologie, Hôpital E. Herriot and Research Unit JE 2411, University Claude Bernard, Lyon, France
² Département de Néphrologie, Hôpital E. Herriot and Research Unit JE 2411, University Claude Bernard, Lyon, France; Laboratoire d’Explorations Fonctionnelles Rénales et Métaboliques, Lyon, France
³ Department of Internal Medicine and Molecular Science, Osaka Medical School, Osaka, Japan
⁴ Laboratoire d’Explorations Fonctionnelles Rénales et Métaboliques, Lyon, France

^* To whom correspondence should be addressed.
Denis Fouque, E-mail: denis.fouque{at}chu-lyon.fr

Abstract

Background. Adiponectin, a newly discovered collagen-like proteinof the collectin family exclusively produced by adipocytes,possesses anti-inflammatory properties. Plasma adiponectin isassociated with a decreased cardiovascular risk in non-renalpatients, and is reduced in obesity and insulin-resistant states.Although reports show an increase in the adiponectin level inmaintenance haemodialysis, peritoneal dialysis and end-stagerenal disease, there is no documentation of adiponectin levelsand regulation in the early stages of chronic kidney disease(CKD).

Methods. We prospectively measured glomerular filtrationrate (GFR) in 48 patients with CKD using inulin clearance. Fastingblood was drawn to determine insulin, leptin, adiponectin andC-reactive protein (CRP) levels. Body fat mass was calculatedusing skinfold thickness measurements.

Results. The patients’mean GFR was 53.5±24.9 (SD) ml/min/1.73 m². Adiponectinwas in the normal range in men (9.8±2.9 mg/l) and women(16.6±5.0 mg/l) with CKD, being significantly higher inwomen than men (P<0.001). Serum leptin was above normal (10.4±10.7µg/l), whereas serum insulin and CRP were within theirnormal ranges (3.5±3.3 µU/ml and 2.6±5.0 mg/l,respectively). In linear regression analysis, adiponectin wasnegatively correlated with GFR (P = 0.02), fat mass (P = 0.03)and body mass index (P = 0.002), and strongly positively correlatedwith serum leptin (P = 0.003). A positive relationship was alsofound between plasma adiponectin and the urinary albumin/creatinineratio (P = 0.007). No relationship was found between adiponectinand insulin or adiponectin and CRP. In multiple regression analysis,adiponectin was significantly positively correlated with leptin(P<0.0001), negatively with body mass index (P<0.0001)and only weakly with GFR (P = 0.04).

Conclusions. Despite anadverse metabolic environment in chronic renal insufficiency,serum adiponectin increases in non-obese patients when renalfunction deteriorates. Adiponectin is only weakly affected byrenal function per se, but appears influenced by proteinuria,and more significantly by body mass index and the change inserum leptin that accompanies decline in renal function.

Keywords: hormones; inflammation; insulin; kidney; patients.

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