Attenuation of the anti-contractile effect of cooling in the rat aorta by perivascular adipose tissue

Y. Rafique, M. AlBader, M. Oriowo
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Abstract

  1. In addition to providing mechanical support for blood vessels, the perivascular adipose tissue (PVAT) secretes a number of vasoactive substances and exerts an anticontractile effect. The main objective of this study was to find out whether the anticontractile effect of cooling in the rat aorta is affected by PVAT. Our hypothesis was that PVAT would enhance the anticontractile effect of cooling in the rat aorta.
  2. Aorta segments, with or without PVAT, were used in this investigation. Cumulative concentration-response curves were established for phenylephrine at 37°C or 24°C. Phenylephrine (10-9M – 10-5M) induced concentration-dependent contractions of aorta segments with or without PVAT at 37°C. The maximum response, but not pD2 value, was reduced in aorta segments with PVAT.
  3. Cooling the tissues to 24 °C resulted in a significant reduction in the maximum response in aorta segments without PVAT with no change in pD2 values. However, the anticontractile effect of cooling was attenuated in the presence of PVAT with no significant (p > 0.05) change in either the maximum response or pD2 value.
  4. L-NAME potentiated PE-induced contractions and this was greater in aorta segments without PVAT at both temperatures.
  5. The expression of eNOS protein and basal tissue level of nitric oxide (NO) were greater in aorta segments with PVAT at both temperatures. However, PE significantly increased tissue levels of NO only in aorta segments without PVAT.
  6. We concluded that PVAT-induced loss of anticontractile effect of cooling against PE-induced contractions could be due to impaired generation of NO in aorta segments with PVAT.
血管周围脂肪组织对大鼠主动脉降温抗收缩作用的衰减
除了为血管提供机械支持外,血管周围脂肪组织(PVAT)还分泌许多血管活性物质并发挥抗收缩作用。本研究的主要目的是探讨PVAT是否影响大鼠主动脉降温的抗收缩作用。我们的假设是PVAT会增强大鼠主动脉冷却的抗收缩作用。主动脉段,有无PVAT,用于本研究。建立苯肾上腺素在37°C和24°C时的累积浓度-响应曲线。在37℃时,苯肾上腺素(10-9M - 10-5M)诱导有或无PVAT的主动脉段的浓度依赖性收缩。主动脉段PVAT的最大反应降低,但不降低pD2值。将组织冷却至24°C导致无PVAT的主动脉段最大反应显著降低,而pD2值没有变化。然而,在PVAT的存在下,冷却的抗收缩作用减弱,没有显著的(p >0.05)最大响应或pD2值的变化。在两种温度下,L-NAME都能增强pe诱导的收缩,而在没有PVAT的主动脉段,这种作用更大。在两种温度下,PVAT主动脉段eNOS蛋白表达和一氧化氮(NO)的基础组织水平均较高。然而,PE仅在无PVAT的主动脉段显著增加组织NO水平。我们得出结论,PVAT诱导的冷却对pe诱导的收缩的抗收缩作用的丧失可能是由于PVAT损伤了主动脉段NO的生成。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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