Abstract
Severe forms of hypertension are characterized by high blood pressure combined with end organ damage. Through the development and refinement of a transgenic rat model of malignant hypertension incorporating the mouse renin gene, we previously identified a quantitative trait locus on chromosome 10, which affects malignant hypertension severity and morbidity. We next generated an inducible malignant hypertensive model where the timing, severity, and duration of hypertension was placed under the control of the researcher, allowing development of and recovery from end organ damage to be investigated. We have now generated novel consomic Lewis and Fischer rat strains with inducible hypertension and additional strains that are reciprocally congenic for the refined chromosome 10 quantitative trait locus. We have captured a modifier of end organ damage within the congenic region and, using a range of bioinformatic, biochemical and molecular biological techniques, have identified angiotensin-converting enzyme as the modifier of hypertension-induced tissue microvascular injury. Reciprocal differences between angiotensin-converting enzyme and the anti-inflammatory tetrapeptide, N-acetyl-Ser-Asp-Lys-Pro in the kidney, a tissue susceptible to end organ damage, suggest a mechanism for the amelioration of hypertension-dependent damage.
Highlights
Resistance of the Lewis strain to the effects of highly elevated blood pressure, and malignant hypertension severity was shown to involve an unknown modifier located within the malignant hypertension severity quantitative trait locus (QTL) on chromosome 10 [15]
To refine the experimental strategy, we placed the mouse Ren2 renin cDNA under the control of an inducible cytochrome P-450 1a1 (Cyp1a1) promoter, on the Fischer (F344) genetic background (Ren2.F), the transgene being integrated on the Y chromosome [16]
To investigate the contribution of the modifier of end organ damage (MOD) to strain differences, we derived two congenic strains in which the reciprocal QTLs were introduced onto the consomic backgrounds
Summary
4 The abbreviations used are: MH, malignant hypertension; Ace, angiotensinconverting enzyme; QTL, quantitative trait locus; BC, backcross; I3C, indole-3carbinol; MOD, modifier of end organ damage; RPF, renal plasma flow; GFR, glomerular filtration rate; Ang, angiotensin; MABP, mean arterial blood pressure; Ac-SDKP, N-acetyl-Ser-Asp-Lys-Pro; ANOVA, analysis of variance. These newly developed lines were used to determine the genetic contributions of background strain and QTL to various parameters of blood pressure, renal function, and end organ damage.
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