Abstract
IntroductionGiven the importance of β-adrenoceptor signalling in regulating cardiac structure and function, robust protocols are required to assess potential alterations in such regulation in murine models in vivo. MethodsEchocardiography was performed in naïve and stressed (isoprenaline; 30μg/g/day s.c. for up to 14days) mice, in the absence or presence of acute β-adrenergic stimulation (dobutamine 0.75μg/g, i.p.). Controls received saline infusion and/or injection. Hearts were additionally analysed gravimetrically, histologically and biochemically. ResultsIn naïve mice, acute β-adrenoceptor stimulation with dobutamine increased heart rate, left ventricular (LV) fractional shortening (LVFS), ejection fraction (LVEF) and wall thickness and decreased LV diameter (p<0.05). In stressed mice, dobutamine failed to induce further inotropic and chronotropic responses. Furthermore, following dobutamine injection, these mice exhibited lower LVEF and LVFS at identical heart rates, relative to corresponding controls. Sustained isoprenaline infusion induced LV hypertrophy (increased heart weight, heart weight/body weight ratio, heart weight/tibia length ratio and LV wall thickness (p<0.05)) by 3days, with little further change at 14days. In contrast, increases in LVEF and LVFS were seen only at 14days (p<0.05). DiscussionWe describe protocols for and illustrative data from the assessment of murine cardiac responses to acute and sustained β-adrenergic stimulation in vivo, which would be of value in determining the impact of genetic or pharmacological interventions on such responses. Additionally, our data indicate that acute dobutamine stimulation unmasks early signs of LV dysfunction in the remodelled heart, even at a stage when basal function is enhanced.
Highlights
Given the importance of β-adrenoceptor signalling in regulating cardiac structure and function, robust protocols are required to assess potential alterations in such regulation in murine models in vivo
DOB injection evoked a positive inotropic response that was reflected by pronounced regional thickening of the contracted interventricular septum (IVS), Left ventricular anterior wall (LVAW) and left ventricular posterior wall (LVPW) (Fig. 2B–D)
We describe protocols for and report exemplar data from the in vivo and ex vivo assessment of murine cardiac responses to β-adrenergic stimulation in 3 distinct settings: 4.1
Summary
Given the importance of β-adrenoceptor signalling in regulating cardiac structure and function, robust protocols are required to assess potential alterations in such regulation in murine models in vivo. Results: In naïve mice, acute β-adrenoceptor stimulation with dobutamine increased heart rate, left ventricular (LV) fractional shortening (LVFS), ejection fraction (LVEF) and wall thickness and decreased LV diameter (p b 0.05). Sustained β1-adrenoceptor stimulation induces cardiac hypertrophy and remodelling, which may be physiological or pathological in nature depending on the magnitude and duration of stimulation (Booysen, Norton, Opie, & Woodiwiss, 2012; Kitagawa, Yamashita, Ito, & Takaki, 2004; Webb et al, 2010). Such effects of β1-adrenoceptor stimulation are achieved principally through the activation of cAMP-. We describe methods for the in vivo and ex vivo assessment of the effects of both acute and sustained β1adrenoceptor stimulation on cardiac structure and function in wildtype mice, which may be readily adapted for use in conjunction with such settings
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