Doxorubicin-induced vasomotion and [Ca2+](i) elevation in vascular smooth muscle cells from C57BL/6 mice

Abstract

Aim:To explore the action of doxorubicin on vascular smooth muscle cells.Methods:Isometric tension of denuded or intact thoracic aortic vessels was recorded and [Ca2+](i) in isolated aortic smooth muscle cells was measured by using Fluo-3.Results:Doxorubicin induced phasic and tonic contractions in denuded vessels and increased levels of [Ca2+](i) in single muscle cells. Treatment with 10 mol/L ryanodine had no effect on basal tension, but it did abolish doxorubicin-induced phasic contraction. Treatment with 10 mmol/L caffeine induced a transient phasic contraction only, and the effect was not significantly altered by ryanodine, the omission of extracellular Ca2+ or both. Phenylephrine induced rhythmic contraction (RC) in intact vessels. Treatment with 100 mol/L doxorubicin enhanced RC amplitude, but 1 mmol/L doxorubicin abolished RC, with an increase in maximal tension. Caffeine at 100 mol/L increased the frequency of the RC only. In the presence of 100 mol/L caffeine, however, 100 mol/L doxorubicin abolished the RC and decreased its maximal tension. Treatment with 10 mol/L ryanodine abolished the RC, with an increase in the maximal tension. In Ca2+-free solution, doxorubicin induced a transient [Ca2+](i) increase that could be abolished by ryanodine pretreatment in single muscle cells. The doxorubicin-induced increase in [Ca2+](i) was suppressed by nifedipine and potentiated by ryanodine and charybdotoxin.Conclusion:Doxorubicin not only releases Ca 2+ from the sarcoplasmic reticulum but also promotes the entry of extracellular Ca2+ into vascular smooth muscle cells. © 2009 CPS and SIMM All rights reserved.