2017
DOI: 10.1113/ep086293
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β1‐Adrenoceptor, but not β2‐adrenoceptor, subtype regulates heart rate in type 2 diabetic rats in vivo

Abstract: Edited by: Marc Kaufman New Findings r What is the central question of the study?The sympathetic system regulates heart rate via β-adrenoceptors; this is impaired during diabetes. However, the specific β-adrenoceptor subtype contributions in heart rate regulation in diabetes in vivo are unknown. r What is the main finding and its importance?Telemetric recordings in conscious non-diabetic and type 2 diabetic rats demonstrated that the β 1 -adrenoceptor subtype, and not the β 2 -adrenoceptor, regulated the lower… Show more

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Cited by 8 publications
(18 citation statements)
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“…The ZDF fa/fa rats had higher blood glucose concentrations and body weights than their ZDF +/+ and ZDF +/− littermates (Table ), confirming their type 2 diabetes and obese status, as previously shown (Bussey, de Leeuw, & Lamberts, ; Cook et al., ; Thaung et al., ). Heart weight, tibia length and their ratio were not different between groups.…”
Section: Resultssupporting
confidence: 84%
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“…The ZDF fa/fa rats had higher blood glucose concentrations and body weights than their ZDF +/+ and ZDF +/− littermates (Table ), confirming their type 2 diabetes and obese status, as previously shown (Bussey, de Leeuw, & Lamberts, ; Cook et al., ; Thaung et al., ). Heart weight, tibia length and their ratio were not different between groups.…”
Section: Resultssupporting
confidence: 84%
“…The present study also found no difference in the β 1 ‐AR chronotropic responsiveness in the denervated isolated type 2 diabetic rat heart compared with non‐diabetics, which is in line with assessment of non‐specific β‐AR chronotropic responsiveness in previous studies (Thaung et al., ). Importantly, these results provide new evidence that the increased β 1 ‐AR chronotropic responsiveness in vivo in ZDF rats (Cook et al., ) does not reside within the heart, but must be the result of systemic non‐cardiac adaptations. As suggested previously by Cook et al.…”
Section: Discussionmentioning
confidence: 59%
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“…Given that we recently showed in Zucker diabetic fatty rats that only the β 1 ‐AR subtype was directly responsible for the contractile responses (Cook et al., ), we only confirmed the reduced expression of the β 1 ‐AR subtype. This, however, does not exclude the possibility that other β‐AR subtypes could be affected during obesity (Chatelain et al., ; Jiang et al., ; Strassheim et al., ) or play an important supportive role in the pathophysiology of obesity and diabetes (Cook et al., ; Li et al., ; Perez‐Schindler et al., ). More importantly, given that from a clinical viewpoint targeting β‐ARs with β‐blockers is commonly advised against in obese individuals owing to their unfavourable metabolic effects (Gress et al., ; Sharma et al., ) and given that β‐AR downregulation is most probably not the sole mechanism underlying the reduced β‐adrenergic responsiveness of the heart in obesity (Ferron et al., ; Vileigas et al., ), alternative mechanisms should be explored.…”
Section: Discussionmentioning
confidence: 48%
“…Higher levels of muscle (Agapitov, Correia, Sinkey, & Haynes, ; Huggett et al., ) and cardiac (Thaung, Baldi et al., ) sympathetic nerve activity indicate a systemic sympathetic overdrive, but importantly, increased sympathetic input directly to the heart. Consequently, several studies have demonstrated decreased β‐adrenoceptor (β‐AR) expression in, and reduced β‐AR responsiveness of, the heart in obesity (Bass & Ritter, ; Bunag, Tomita, & Krizsan, ; Chatelain et al., ; Jiang et al., ; Sherwood, Hill, Blumenthal, Johnson, & Hinderliter, ; Strassheim, Houslay, & Milligan, ), with similar reports in diabetes (Cook, Bussey, Mellor, Cragg, & Lamberts, ; Dincer et al., ; Dincer, Onay, Ari, Ozcelikay, & Altan, ; Lamberts et al., ; Thaung, Baldi et al., ).…”
Section: Introductionmentioning
confidence: 76%