Insights into Dahl salt-sensitive hypertension revealed by temporal patterns of renal medullary gene expression

doi:10.1152/physiolgenomics.00089.2002

Insights into Dahl salt-sensitive hypertension revealed by temporal patterns of renal medullary gene expression

Mingyu Liang , Baozhi Yuan , Elizabeth Rute , Andrew S. Greene , Michael Olivier and Allen W. Cowley, Jr.

Department of Physiology, Medical College of Wisconsin, Milwaukee, Wisconsin 53226

Dahl salt-sensitive SS and consomic, salt-resistant SS-13^BN/Mcwrats possess a highly similar genetic background but exhibitsubstantial differences in blood pressure salt sensitivity.We used cDNA microarrays to examine sequential changes of mRNAexpression of $~$ 2,000 currently known rat genes in the renal medulla(a tissue critical for long-term blood pressure regulation)in SS and SS-13^BN/Mcw rats in response to a high-salt diet (16h, 3 days, or 2 wk). Differentially expressed genes in eachbetween-group comparison were identified based on a thresholddetermined experimentally using a reference distribution thatwas constructed by comparing rats within the same group. A differenceanalysis of 54 microarrays identified 50 genes that exhibitedthe most distinct temporal patterns of expression between SSand SS-13^BN/Mcw rats over the entire time course. Thirty ofthese genes could be linked to the regulation of arterial bloodpressure or renal injury based on their known involvement infunctional pathways such as renal tubular transport, metabolismof vasoactive substances, extracellular matrix formation, andapoptosis. Importantly, the majority of the 30 genes exhibitedtemporal expression patterns that would be expected to lowerarterial pressure and reduce renal injury in SS-13^BN/Mcw comparedwith SS rats. The phenotypic impact of the other 20 genes wasless clear. These 50 genes are widely distributed on chromosome13 and several other chromosomes. This suggested that primarygenetic defects, although important, are unlikely to be solelyresponsible for the full manifestation of this type of hypertensionand associated injury phenotypes. In summary, the results ofthis study identified a number of pathways potentially importantfor the amelioration of hypertension and renal injury in SS-13^BN/Mcwrats, and these results generated a series of testable hypothesesrelated to the role of the renal medulla in the complex mechanismof salt-sensitive hypertension.

microarray; 11ß-hydroxysteroid dehydrogenase; glucagon receptor; extracellular matrix; apoptosis

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