Lack of ß2 -adrenoceptors aggravates heart failure-induced skeletal muscle myopathy in mice.

Skeletal myopathy is a hallmark of heart failure (HF) and has been associated with a poor prognosis. HF and other chronic degenerative diseases share a common feature of a stressed system: sympathetic hyperactivity. Although beneficial acutely, chronic sympathetic hyperactivity is one of the main triggers of skeletal myopathy in HF. Considering that ß2 -adrenoceptors mediate the activity of sympathetic nervous system in skeletal muscle, we presently evaluated the contribution of ß2 -adrenoceptors for the morphofunctional alterations in skeletal muscle and also for exercise intolerance induced by HF. Male WT and ß2 -adrenoceptor knockout mice on a FVB genetic background (ß2 KO) were submitted to myocardial infarction (MI) or SHAM surgery. Ninety days after MI both WT and ß2 KO mice presented to cardiac dysfunction and remodelling accompanied by significantly increased norepinephrine and epinephrine plasma levels, exercise intolerance, changes towards more glycolytic fibres and vascular rarefaction in plantaris muscle. However, ß2 KO MI mice displayed more pronounced exercise intolerance and skeletal myopathy when compared to WT MI mice. Skeletal muscle atrophy of infarcted ß2 KO mice was paralleled by reduced levels of phosphorylated Akt at Ser 473 while increased levels of proteins related with the ubiquitin--proteasome system, and increased 26S proteasome activity. Taken together, our results suggest that lack of ß2 -adrenoceptors worsen and/or anticipate the skeletal myopathy observed in HF.

Resposta taquicárdica e controle autonômico no exercício físico em modelo genético de insuficiência cardíaca / Tachycardic response and autonomic control in physical exercise in genetic model of cardiac insufficiency

O aumento da atividade nervosa simpática e a taquicardia em repouso ou durante esforços físicos estão associados ao aumento da morbimortalidade, mesmo na ausência de sinais clínicos de doença cardíaca. Sabendo-se da importância dos receptores α2A/α2C-adrenérgicos na modulação da atividade nervosa e frequência cardíaca (FC), o presente trabalho utiliza um modelo genético de cardiomiopatia induzida por excesso de catecolaminas circulantes baseado na inativação gênica dos receptores α2A/α2C-adrenérgicos em camundongos (α2A/α2CKO) para verificar a resposta da FC ao exercício físico (EF), assim como o controle simpatovagal da FC ao EF. Testou-se a hipótese de que haveria resposta taquicárdica exacerbada durante o EF nos camundongos α2A/α2CKO mesmo quando a função cardíaca ainda estivesse preservada em repouso, sendo o receptor α2A-adrenérgico o principal responsável por essa resposta. Camundongos machos da linhagem C57Bl6J, controle (CO) e com inativação gênica para os receptores α2A (α2AKO), α2C α2CKO) e α2A/α2CKO foram submetidos a um teste de tolerância ao esforço físico. Outros dois grupos de camundongos, CO e α2A/α2CKO, foram submetidos ao bloqueio farmacológico dos receptores muscarínicos e β-adrenérgicos e ao EF progressivo para se avaliar a contribuição simpatovagal para a taquicardia de EF. Observou-se intolerância ao esforço físico (1.220 ± 18 e 1.460 ± 34 vs. 2.630 ± 42m, respectivamente) e maior taquicardia ao EF (765 ± 16 e 792 ± 13 vs. 603 ± 18bpm, respectivamente) nos camundongos α2AKO e α2A/α2CKO vs. CO. Além disso, o balanço autonômico estava alterado nos camundongos α2A/α2CKO pela hiperatividade simpática e menor efeito vagal cardíaco. Esses resultados demonstram a importância dos receptores α2A/α2C-adrenérgicos no controle autonômico não só no repouso, mas também durante o EF, sendo o receptor ...

Increase of sympathetic nervous activity and tachycardia at rest or during physical exertions are associated with increase of morbimortality, even in the absence of clinical signs of cardiac disease. Considering the importance of the α2A/α2C-adrenergic receptors in the modulation of the nervous activity and heart rate (HR), the present study uses a genetic model of cardiomyopathy induced by excess of circulating catecholamine in the gene inactivation of the α2A/α2 -adrenergic receptors in mice (α2A/α2CKO) to verify the HR response to physical exercise (PE), as well as the sympathetic-vagal control of the HR to PE. The hypothesis is that there would be exacerbated tachycardic response during PE in α2A/α2CKO mice even when the cardiac function was still preserved at rest, being the α2A-adrenergic receptor the main reason for this response. Male mice of the C57Bl6J lineage, control (CO) and with gene inactivation for the a2A (α2AKO), α2C α2CKO) and α2A/α2CKO receptors were submitted to tolerance to a physical exercise test. Two other groups of mice, CO and α2A/α2CKO, were submitted to pharmacological blocking of the muscarinic and β-adrenergic receptors as well as to progressive PE to assess the sympathetic-vagal contribution to PE tachycardia. Intolerance to physical exercise (1.220 ± 18 and 1.460 ± 34 vs. 2.630 ± 42m, respectively) and higher tachycardia to PE (765 ± 16 e 792 ± 13 vs. 603 ± 18 bpm, respectively) in the α2AKO and α2A/α2CKO vs. CO mice was observed. Moreover, the autonomic balance was altered in the α2A/α2CKO mice by the sympathetic hyperactivity and lower cardiac vagal effect. These outcomes demonstrated the importance of the α2A/α2C-adrenergic receptors in autonomic control not only at rest, but also during PE, being theα2A-adrenergic receptor responsible for the sympathetic hyperactivity and lower ...