Dissection of a genetic locus influencing renal function in the rat and its concordance with kidney disease loci on human chromosome 1q21.

Previously, we conducted a genome scan on a population derived from the Dahl salt-sensitive hypertensive (S) and the spontaneously hypertensive rat (SHR) using urinary albumin excretion (UAE) as our primary measure of renal function. We identified 10 quantitative trait loci (QTL) linked to several renal and/or cardiovascular traits. In particular, linkage and subsequent congenic strain analysis demonstrated that the loci on chromosome 2 had a large and significant effect on UAE compared with the S rat. The present work sought to characterize the chromosome 2 congenic strain [S.SHR] by conducting a time-course analysis (week 4-20), including evaluating additional renal parameters, histology, electron microscopy, and gene expression/ pathway analysis. Throughout the time course the congenic strain consistently maintained a threefold reduction in UAE compared with S rats and was supported by the histological findings of significantly reduced glomerular, tubular and interstitial changes. Gene expression/pathway analysis performed at week 4, 12, and 20 revealed that pathways involved in cellular assembly and organization, cellular movement, and immune response were controlled differently between the S and congenic. When all the data are considered, the chromosome 2 congenic appears to attenuate renal damage primarily through an altered fibrotic response. Recombinant progeny testing was employed to reduce the QTL to approximately 1.5 cM containing several interesting candidate genes. The concordance of this rat QTL with renal disease loci on human chromosome 1q21 demonstrate that elucidating the causative gene and mechanism of the rat QTL may be of particular importance for understanding kidney disease in humans.