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A genetically clamped renin transgene for the induction of hypertension.


ABSTRACT: Experimental analysis of the effects of individual components of complex mammalian systems is frequently impeded by compensatory adjustments that animals make to achieve homeostasis. We here introduce a genetic procedure for eliminating this type of impediment, by using as an example the development and testing of a transgene for "genetically clamping" the expression of renin, the major homeostatically responding component of the renin-angiotensin system, one of the most important regulators of blood pressure. To obtain a renin transgene whose expression is genetically clamped at a constant level, we have used single-copy chosen-site gene targeting to insert into a liver-specific locus a single copy of a modified mouse renin transgene driven by a liver-specific promoter/enhancer. The resulting transgene expresses renin ectopically at a constant high level in the liver and leads to elevated plasma levels of prorenin and active renin. The transgenic mice display high blood pressure, enhanced thirst, high urine output, proteinuria, and kidney damage. Treatment with the angiotensin II type I receptor antagonist, losartan, reduces the hypertension, albuminuria, and kidney damage, but does not affect expression of the transgene. This genetically clamped renin transgene can be used in models in which hypertension and its complications need to be investigated in a high prorenin/renin environment that is not subject to homeostatic compensations by the animal when other factors are changed.

SUBMITTER: Caron KM 

PROVIDER: S-EPMC123053 | biostudies-literature | 2002 Jun

REPOSITORIES: biostudies-literature

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A genetically clamped renin transgene for the induction of hypertension.

Caron Kathleen M I KM   James Leighton R LR   Kim Hyung-Suk HS   Morham Scott G SG   Sequeira Lopez Maria Luisa S ML   Gomez R Ariel RA   Reudelhuber Timothy L TL   Smithies Oliver O  

Proceedings of the National Academy of Sciences of the United States of America 20020528 12


Experimental analysis of the effects of individual components of complex mammalian systems is frequently impeded by compensatory adjustments that animals make to achieve homeostasis. We here introduce a genetic procedure for eliminating this type of impediment, by using as an example the development and testing of a transgene for "genetically clamping" the expression of renin, the major homeostatically responding component of the renin-angiotensin system, one of the most important regulators of  ...[more]

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