The rodent kidney is a target of many xenobiotics and is typified by regionally specific structure and function. This renders distinct regions of the kidney differentially susceptible to toxic exposure and effect. To characterize these differences at the proteome level, protein patterns from male rat kidney cortex and medulla cytosols were examined by two-dimensional electrophoresis (2-DE) and image analysis and prominent proteins identified immunologically or by matrix-assisted laser desorption/ionization-mass spectrometry (MALDI-MS) and electrospray/ionization-tandem mass spectrometry (ESI-MS/MS) sequence tag identification. An average of 727 protein spots were resolved and matched to the cortex cytosol reference pattern, and 716 in the medulla. Of this total, 127 proteins were found to differ in abundance (86 higher in cortex; 41 higher in medulla) (P < 0.001). Of those proteins that were detectable in both cortex and medulla, the abundance of 97 differed significantly while 30 proteins were found to be unique to one region or the other (26 in cortex, 4 in medulla). Twenty protein spots were identified and their regional differences are discussed. These results both confirm and expand our understanding of the molecular heterogeneity characterizing structurally and functionally distinct regions of the kidney and serve as a useful foundation for future nephrotoxicologic studies.
Cellular stress proteins and molecular chaperones are responsive to a variety of stressors and therefore comprise an ideal set of proteins with the potential to be used as biomarkers of chemical toxicity. We have investigated the expression of a group of well established heat shock and glucose-regulated proteins in the rat liver and kidney using large-scale two-dimensional protein electrophoresis and computerized image analysis. Our goal was to determine the level of their expression in unstressed target tissues and map their coordinate positions on conventional format two-dimensional electrophoresis (2-DE) gels. All the proteins studied, except for Hsp25 (heat-shock protein) whose expression fell below the level of analyzable detection, were constitutively expressed in liver and kidney. With the exception of Hsp70, all the stress proteins analyzed were constitutively more abundant in the liver than the kidney. Comparison of the sum total of all stress protein abundances revealed a nearly threefold higher level of expression in the liver than the kidney. Our results suggest that this group of proteins has significant responsibilities in normal, unstressed cells, due to their constitutive abundance. Correspondingly, the 2-DE stress protein pattern established in this study may be very useful in toxicologic screening as well as describing a broad range of molecular effects of xenobiotic exposure.
Recent studies in this laboratory and by others suggest that two-dimensional polyacrylamide gel electrophoresis of proteins (2-DE) possesses significant utility in the detection of chemical toxicity and in providing information regarding toxic mechanism. After having identified a set of specific heat-shock and glucose-regulated proteins whose expression in rodent liver and kidney is highly conserved and constitutive, we compared the effect of in vivo exposure to perfluoro-n-octanoic acid and perfluoro-n-decanoic acid on their expression. The following stress proteins were identified, their x, y coordinate positions mapped, and abundance statistically analyzed and compared: hsp32, hsp60, hsc70, hsp70, hsp90, grp75, grp94, protein disulfide isomerase (PDI), and ER60. We report here that the stress response to perfluorocarboxylic acids is tissue-, toxicant-, and stress protein class-specific and dose-related. Furthermore, because nearly all of the proteins studied were constitutively expressed at detectable levels in both liver and kidney, the 2-DE stress protein pattern may be suitable to future toxicologic screening applications.
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