Basal and ethanol-induced cardiac contractile response in lean and obese Zucker rat hearts.

Obesity plays a pivotal role in metabolic and cardiovascular diseases. Certain types of obesity may be related to alcohol ingestion, which itself leads to impaired cardiac function. This study analyzed basal and ethanol-induced cardiac contractile response using left-ventricular papillary muscles and myocytes from lean and obese Zucker rats. Contractile properties analyzed include: peak tension development (PTD), peak shortening amplitude (PS), time to PTD/PS (TPT/TPS), time to 90% relaxation/relengthening (RT(90)/TR(90)) and maximal velocities of contraction/shortening and relaxation/relengthening (+/-VT and +/-dL/dt). Intracellular Ca(2+) transients were measured as fura-2 fluorescence intensity (DeltaFFI) changes and fluorescence decay time (FDT). In papillary muscles from obese rats, the baseline TPT and RT(90) were significantly prolonged accompanied with low to normal PTD and +/-VT compared to those in lean rats. Muscles from obese hearts also exhibited reduced responsiveness to postrest potentiation, increase in extracellular Ca(2+) concentration, and norepinephrine. By contrast, in isolated myocytes, obesity reduced PS associated with a significant prolonged TR(90), normal TPS and +/-dL/dt. Intracellular Ca(2+) recording revealed decreased resting Ca(2+) levels and prolonged FDT. Acute ethanol exposure (80-640 mg/dl) caused comparable concentration-dependent inhibitions of PTD/PS and DeltaFFI, associated with reduced +/-VT in both groups. Collectively, these results suggest altered cardiac contractile function and unchanged ethanol-induced depression in obesity.