Potential use of isolated glomeruli and cultured mesangial cells as in vitro models to assess nephrotoxicity

The purpose of this short review is to present the potential of using isolated glomeruli and cultured mesangial cells as two different in vitro models to assess the glomerular effect of molecules with nephrotoxic properties. The advantage of using isolated renal glomeruli is that they conserve the a...

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Published in:Cell biology and toxicology 2000-01, Vol.16 (3), p.145-153
Main Authors: RODRIGUEZ-BARBERO, A, L'AZOU, B, CAMBAR, J, LOPEZ-NOVOA, J. M
Format: Article
Language:English
Subjects:
Animals
Antineoplastic Agents - toxicity
Biological and medical sciences
Cadmium
Cadmium - toxicity
Cisplatin - toxicity
Cyclosporine - toxicity
General aspects. Methods
Glomerular Mesangium - cytology
Glomerular Mesangium - drug effects
Hormones
Humans
Immunosuppressive Agents - toxicity
Kidneys
Medical sciences
mesangial cells
Organ Culture Techniques
Surface area
Toxicants
Toxicology
Ultrafiltration
Xenobiotics
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Summary:The purpose of this short review is to present the potential of using isolated glomeruli and cultured mesangial cells as two different in vitro models to assess the glomerular effect of molecules with nephrotoxic properties. The advantage of using isolated renal glomeruli is that they conserve the architecture of this anatomical region of the kidney; moreover, they are free of any vascular, nervous or humoral influences derived from other regions of the kidney. Mesangial cells are perivascular pericytes located within the central portion of the glomerular tuft between capillary loops. Mesangial cells have a variety of functions including synthesis and assembly of the mesangial matrix, endocytosis and processing of plasma macromolecules, and control of glomerular hemodynamics, mainly the ultrafiltration coefficient Kf, via mesangial cell contraction or release of vasoactive hormones. Most authors agree that mesangial cells play a major role in glomerular contraction, filtration surface area, and Kf regulation. One of the major effects of toxicants on glomerular structures is contraction. We can assess quantitatively the degree of toxicant-induced mesangial cell contraction or glomerular contraction by measuring the changes in planar cell surface area or apparent glomerular cross-sectional area after exposition to the toxicant. These in vitro models can also reveal glomerular effects of xenobiotics that are difficult or impossible to observe in vivo. In addition, these studies permit a fundamental examination of the mechanism of action of xenobiotics on glomerular cells, including the possibility that at least a part of their effects are mediated by local mediators released by glomerular cells. We review the effects and the mechanisms of action of several toxicants such as gentamicin, cyclosporin, cisplatin, and cadmium on isolated glomeruli or cultured mesangial cells. As such in vitro results confirm in vivo renal hemodynamic changes caused by toxicants, we conclude that these models are fruitful tools for the study of renal toxicity. These in vitro systems might also serve as a predictive tool in the evaluation of drugs inducing changes in glomerular filtration rate and as a way to propose protective agents against these dramatic hemodynamic effects.
ISSN:0742-2091
1573-6822
DOI:10.1023/A:1007683320660