Lack of relationship in long-term type 1 diabetic patients between diabetic nephropathy and polymorphisms in apolipoprotein {varepsilon}, lipoprotein lipase and cholesteryl ester transfer protein

doi:10.1093/ndt/15.12.1971

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Nephrol Dial Transplant (2000) 15: 1971-1976
© 2000 European Renal Association-European Dialysis and Transplant Association

Lack of relationship in long-term type 1 diabetic patients between diabetic nephropathy and polymorphisms in apolipoprotein ${varepsilon}$ , lipoprotein lipase and cholesteryl ester transfer protein

Samy Hadjadj¹, Yves Gallois², Gilles Simard², Béatrice Bouhanick¹, Philippe Passa³, André Grimaldi⁴, Pierre Drouin⁵, Jean Tichet⁶, Michel Marre^,1, on behalf of the GENEDIAB (Genétique de la Nephropathie Diabétique) Study Group^,7 and the D.E.S.I.R. (Données Epidémiologiques sur le Syndrome d'Insulino-Résistance) Study Group^,7

¹ Médecine B and ² Biochimie B, University Hospital, Angers, ³ Saint-Louis Hospital, Paris, ⁴ La Pitié Hospital, Paris, ⁵ Jeanne D'Arc Hospital, Dommartin Les Toul and ⁶ Institut Régional de la Santé, La Riche, France ⁷ See appendix

Background. Genetic susceptibility contributes to the riskof diabetic nephropathy. Lipid disorders may favour diabeticnephropathy. Thus polymorphisms in lipid metabolism are candidatesfor the genetic component of risk for diabetic nephropathy.

Methods. We searched for a contribution of the geneticpolymorphisms of lipoprotein lipase (LPL), cholesteryl estertransfer protein (CETP) and apolipoprotein ${varepsilon}$ (Apo E) to the developmentof diabetic nephropathy by studying 494 type 1 diabetic patientswith proliferative retinopathy and various stages of diabeticnephropathy (GENEDIAB Study). The selection process ensuredthat all patients had expressed their risk of chronic complicationsdue to uncontrolled diabetes. Thus the nephropathy stages werelargely influenced by genetic background. The lipid profileincluded fasting plasma total cholesterol (TC), triglycerides(TG), apolipoprotein A1 (Apo A1) and B (Apo B), and lipoprotein(a) (Lp(a)). Genetic polymorphisms were determined by PCR-baseddetection of Apo ${varepsilon}$ (e2/e3/e4), LPL (mutation Asn 291 Ser) andCETP (TaqIB B1/B2).

Results. One hundred and fifty-seven patients (32%) hadno nephropathy, 104 (21%) incipient nephropathy, 126 (25%) establishednephropathy and 107 (22%) advanced nephropathy. There was asignificant relationship between the stages of diabetic nephropathyand TC (P=0.002), TG (P<0.0001), Apo B (P=0.0007) or Lp(a)(P=0.038), but not Apo A1. However the genetic polymorphismdistributions of LPL, CETP and Apo ${varepsilon}$ did not differ in termsof renal complications. The study power to reject the null hypothesiswas 58% for the Apo ${varepsilon}$ genotypes.

Conclusion. These results support no or only marginal effectsof a genetic basis for lipid disturbances encountered in diabeticnephropathy.

Keywords: apolipoprotein E; cholesteryl ester transfer protein; diabetic nephropathy; genetics; lipoprotein lipase; type 1 diabetes

Correspondence and offprint requests to: Michel Marre, Endocrinologie,Diabétologie, Hôpital Bichat, 46 rue Henri Huchard,F-75018 Paris, France.

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Lack of relationship in long-term type 1 diabetic patients between diabetic nephropathy and polymorphisms in apolipoprotein , lipoprotein lipase and cholesteryl ester transfer protein

Lack of relationship in long-term type 1 diabetic patients between diabetic nephropathy and polymorphisms in apolipoprotein ${varepsilon}$ , lipoprotein lipase and cholesteryl ester transfer protein