Growth, metabolism, and blood pressure disturbances during aging in transgenic rats with altered brain renin-angiotensin systems

doi:10.1152/physiolgenomics.00163.2005

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Growth, metabolism, and blood pressure disturbances during aging in transgenic rats with altered brain renin-angiotensin systems

Sherry O. Kasper ¹, Christy S. Carter ¹, Carlos M. Ferrario ¹, Detlev Ganten ², Leon F. Ferder ³, William E. Sonntag ¹, Patricia E. Gallagher ¹ and Debra I. Diz ¹

¹ Hypertension and Vascular Disease Center and Physiology and Pharmacology Department, Wake Forest University School of Medicine, Winston-Salem, North Carolina
² Charite, University Medicine Berlin, Berlin, Germany
³ Department of Physiology and Pharmacology, Ponce School of Medicine, Ponce, Puerto Rico

Transgenic rats with targeted decreased glial expression ofangiotensinogen (ASrAogen rats) did not show an increase insystolic pressure compared with Sprague-Dawley (SD) rats duringaging (15–69 wk of age). ASrAogen animals had lower bodyweights throughout the study, similar to reports for animalswith systemic knockout of angiotensinogen or treated long termwith renin-angiotensin system (RAS) blockers. Further characterizationof indexes of growth and metabolism in ASrAogen rats comparedwith (mRen2)27 and SD rats, which express elevated versus normalbrain and tissue angiotensin II levels, respectively, revealedthat serum leptin was 100–200% higher in SD and (mRen2)27rats at 46 wk and 69 wk of age. Consistent with low serum leptin,ASrAogen rats had higher food intake (73%) compared with SDor (mRen2)27 rats. (mRen2)27 rats had higher resting insulinlevels than ASrAogen rats at all ages. Insulin levels were constantduring aging in ASrAogen rats, whereas an increase occurredin SD rats, leading to higher insulin levels at 46 and 69 wkof age compared with ASrAogen rats. IGF-1 was comparable amongstrains at all ages, but (mRen2)27 rats had longer and ASrAogenrats had shorter tail lengths versus SD rats at 15 wk of age.In conclusion, reduced expression of glial angiotensinogen bluntsthe age-dependent rise in insulin levels and weight gain, findingsthat mimic the effects of long-term systemic blockade of theRAS or systemic knockout of angiotensinogen. These data implicateglial angiotensinogen in the regulation of body metabolism aswell as hormonal mechanisms regulating blood pressure.

insulin resistance; metabolic syndrome

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