AI Article Synopsis
- The study examined how diabetes affects the electrical properties of heart cells (ventricular myocytes) in rats, specifically after the rats were given a diabetes-inducing chemical called streptozotocin (STZ).
- It was found that shortly after STZ treatment, the rats had higher blood sugar levels and longer action potentials (the electrical signals in heart cells), with more significant elongation in diabetic rats as stimulation rates increased.
- The research highlighted that specific potassium currents responsible for returning the action potential to its resting state were diminished and slowed down in diabetic rats, affecting overall heart cell function, and these changes were not due to thyroid hormone levels.
Article Abstract
The electrophysiological properties of single ventricular myocytes from control rats and from rats made diabetic by streptozotocin (STZ) injection (100 mg/kg body weight) have been investigated using whole-cell voltage-clamp measurements. Our major goal was to define the effects of diabetes on rate-dependent changes in action potential duration and the underlying outward K+ currents. As early as 4 to 6 days after STZ treatment, significant elevation of plasma glucose levels occurs, and the action potential duration increases. In both control and diabetic rats, when the stimulation rate is increased, the action potential is prolonged, but this lengthening is considerably more pronounced in myocytes from diabetic rats. In ventricular myocytes from diabetic rats, the Ca(2+)-independent transient outward K+ current (I(t)) is reduced in amplitude, and its reactivation kinetics are slowed. These changes result in a smaller I(t) at physiological heart rates. The steady-state outward K+ current (IK) also exhibits rate-dependent attenuation, and this phenomenon is more pronounced in cells from diabetic rats. These STZ-induced changes in I(t) and IK also develop when a lower dose (55 mg/kg) of STZ is used and measurements are made after 7 weeks of treatment. These electrophysiological effects are not related to the hypothyroid conditions that accompany the diabetic state, since they cannot be reversed by replacement of the hormone L-triiodothyronine to physiological levels. Direct effects of STZ could be ruled out, since preceding the STZ injection with a bolus injection of 3-O-methylglucose, which prevents development of hyperglycemia, prevents the electrophysiological changes.(ABSTRACT TRUNCATED AT 250 WORDS)
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| http://dx.doi.org/10.1161/01.res.74.4.620 | DOI Listing |
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