Role of the Multidomain Protein Spinophilin in Blood Pressure and Cardiac Function Regulation
2008; Lippincott Williams & Wilkins; Volume: 52; Issue: 4 Linguagem: Inglês
10.1161/hypertensionaha.108.114355
ISSN1524-4563
AutoresAndrey C. da Costa-Goncalves, Jens Tank, Ralph Plehm, André Diedrich, Mihail Todiraş, Maik Gollasch, Arnd Heuser, Maren Wellner, Michael Bäder, Jens Jordan, Friedrich C. Luft, Volkmar Groß,
Tópico(s)Receptor Mechanisms and Signaling
ResumoSpinophilin controls intensity/duration of G protein-coupled receptor signaling and thereby influences synaptic activity. We hypothesize that spinophilin affects blood pressure through central mechanisms. We measured blood pressure and heart rate in SPL-deficient (SPL(-/-)), heterozygous SPL-deficient (SPL(+/-)), and wild-type (SPL(+/+)) mice by telemetry combined with fast Fourier transformation. We also assessed peripheral vascular reactivity and performed echocardiography. SPL(-/-) had higher mean arterial pressure than SPL(+/-) and SPL(+/+) (121+/-2, 112+/-1, and 113+/-1 mm Hg). Heart rate was inversely related to spinophilin expression (SPL(-/-) 565+/-0.4, SPL(+/-) 541+/-5, SPL(+/+) 525+/-8 bpm). The blood pressure response to prazosin, trimethapane, and the heart rate response to metoprolol were stronger in SPL(-/-) than SPL(+/+) mice, whereas heart rate response to atropine was attenuated in SPL(-/-). Mesenteric artery vasoreactivity after angiotensin II, phenylephrine, and the thromboxane mimetic (U46619) as well as change in heart rate, stroke volume, and cardiac output after dobutamine were similar in SPL(-/-) and SPL(+/+). Baroreflex sensitivity was attenuated in SPL(-/-) compared with SPL(+/-) and SPL(+/+), which was confirmed by pharmacological testing. Heart rate variability parameters were attenuated in SPL(-/-) mice. We suggest that an increase in central sympathetic outflow participates in blood pressure and heart rate increases in SPL(-/-) mice. The elevated blood pressure in SPL(-/-) mice was associated with attenuated baroreflex sensitivity and decreased parasympathetic activity. Our study is the first to show a role for the spinophilin gene in blood pressure regulation.
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