A loss of genome buffering capacity of Dahl salt-sensitive model to modulate blood pressure as a cause of hypertension

doi:10.1093/hmg/ddi412

Human Molecular Genetics Advance Access originally published online on November 8, 2005
Human Molecular Genetics 2005 14(24):3877-3884; doi:10.1093/hmg/ddi412

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A loss of genome buffering capacity of Dahl salt-sensitive model to modulate blood pressure as a cause of hypertension

Sophie Charron, Raphaëlle Lambert, Vasiliki Eliopoulos, Chenda Duong, Annie Ménard, Julie Roy and Alan Y. Deng^*

Research Centre-CHUM, Montréal, Québec H2W 1T8, Canada

^* To whom correspondence should be addressed at: Research Centre, Centre Hospitalier de l'Université de Montréal (CHUM), 7-132 Pavillon Jeanne Mance, 3840, rue St Urbain, Montreal, Quebec H2W 1T8, Canada. Tel: +1 5148908000 ext. 15522; Fax: +1 5144127152; Email: alan.deng{at}umontreal.ca

Received September 20, 2005; Accepted October 31, 2005

Essential hypertension is a complex trait influenced by multiplegenes known as quantitative trait loci (QTLs) for blood pressure(BP). It is not clear, however, what roles these QTLs play inmaintaining normotension. Insights gained toward the maintenanceof normotension will shed light on how hypertension can resultfrom a deficiency or malfunctioning of this maintenance. Currently,congenic strains were systematically constructed using Dahlsalt-sensitive (DSS) and Lewis (LEW) rats not only to defineQTLs (i.e. in DSS background), but also to ascertain effectsof the same QTLs in preserving normotension (i.e. in LEW background),a first such study. Results showed that although LEW allelesfor two QTLs on Chromosome (Chr) 18 lowered BP on the DSS background,their BP-increasing DSS alleles failed to influence BP in theLEW background. To further prove that the LEW background isresistant and the DSS background is susceptible to the effectsof QTLs, BP-increasing alleles of a QTL on Chr 2 were introgressedinto the DSS background, and its BP-decreasing alleles intothe LEW background. Indeed, there was no BP-decreasing effecton the LEW background while demonstrating a BP-increasing effecton the DSS background. Thus, a genetic regulation of BP QTLsin the LEW genome inhibits BP changes by nullifying the effectsof BP-altering QTLs. In comparison, the DSS genome must havelost the buffering capacity for stabilizing BP. The currentwork presents good evidence that a lack of regulation for functionsof BP QTLs is a potential underlying cause of hypertension.

These authors contributed equally to the current work.

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