Guanidino compounds as cause of cardiovascular damage in chronic kidney disease: an in vitro evaluation

Eva Schepers; Griet Glorieux; Laetitia Dou; Claire Cerini; Nathalie Gayrard; Loïc Louvet; Charlotte Maugard; Pierre Preus; Maria Rodriguez-Ortiz; Angel Argiles; Philippe Brunet; Gerald Cohen; Joachim Jankowski; Vera Jankowski; Ziad Massy; Mariano Rodriguez; Raymond Vanholder; European Uremic Toxin Work Group (EUTox)

doi:10.1159/000320765

Guanidino compounds as cause of cardiovascular damage in chronic kidney disease: an in vitro evaluation

Blood Purif. 2010;30(4):277-87. doi: 10.1159/000320765. Epub 2010 Nov 16.

Authors

Eva Schepers¹, Griet Glorieux, Laetitia Dou, Claire Cerini, Nathalie Gayrard, Loïc Louvet, Charlotte Maugard, Pierre Preus, Maria Rodriguez-Ortiz, Angel Argiles, Philippe Brunet, Gerald Cohen, Joachim Jankowski, Vera Jankowski, Ziad Massy, Mariano Rodriguez, Raymond Vanholder; European Uremic Toxin Work Group (EUTox)

Affiliation

¹ Nephrology Division, Department of Internal Medicine, University Hospital Gent, De Pintelaan 185, Gent, Belgium.

PMID: 21079396
DOI: 10.1159/000320765

Abstract

Chronic kidney disease is considered a major cause of cardiovascular risk and non-traditional risk factors remain largely unknown. The in vitro toxicity of 10 guanidino compounds (GCs) was evaluated via a standardized approach on different cell systems of relevance in cardiovascular disease. The parameters evaluated were production of reactive oxygen species, expression of surface molecules, cell proliferation, cytotoxicity and calcification. Several GCs had a stimulatory effect on monocytes and granulocytes (SDMA, creatine and guanidinobutyric acid (GBA)). Some GCs (guandine (G), guanidinosuccinic acid (GSA) and SDMA) inhibited endothelial cell proliferation or reduced calcification in osteoblast-like human VSMC (ADMA, GSA and SDMA). Stimulation of osteoclastogenesis could be demonstrated for ADMA, G, guanidinoacetic acid and GBA in a RAW264.7 cell line. No compounds were cytotoxic to AoSMC or endothelial cells, nor influenced their viability. GCs, especially SDMA, likely contribute to cardiovascular complications in uremia, mainly those related to microinflammation and leukocyte activation.

MeSH terms

Calcinosis / metabolism
Cardiovascular Diseases* / etiology
Cardiovascular Diseases* / metabolism
Cardiovascular Diseases* / pathology
Cell Proliferation / drug effects
Endothelial Cells / metabolism
Guanidines* / adverse effects
Guanidines* / toxicity
Humans
Kidney Failure, Chronic / complications*
Kidney Failure, Chronic / metabolism
Leukocytes / metabolism
Lymphocyte Activation / drug effects
Reactive Oxygen Species / analysis
Reactive Oxygen Species / metabolism
Receptors, Antigen / analysis
Receptors, Antigen / drug effects
Renal Insufficiency, Chronic / complications*
Renal Insufficiency, Chronic / metabolism
Risk
Uremia / complications
Uremia / metabolism

Substances

Guanidines
Reactive Oxygen Species
Receptors, Antigen