在氧分压降低的情况下,兔红细胞会释放三磷酸腺苷(ATP)并使骨骼肌小动脉扩张。
Rabbit erythrocytes release ATP and dilate skeletal muscle arterioles in the presence of reduced oxygen tension.
作者信息
Sprague Randy S, Hanson Madelyn S, Achilleus David, Bowles Elizabeth A, Stephenson Alan H, Sridharan Meera, Adderley Shaquria, Procknow Jesse, Ellsworth Mary L
机构信息
Saint Louis University, School of Medicine, Department of Pharmacological & Physiological Science, Saint Louis, MO, USA.
出版信息
Pharmacol Rep. 2009 Jan-Feb;61(1):183-90. doi: 10.1016/s1734-1140(09)70020-9.
In skeletal muscle, oxygen (O(2)) delivery to appropriately meet metabolic need requires mechanisms for detection of the magnitude of O(2) demand and the regulation of O(2) delivery. Erythrocytes, when exposed to a decrease in O(2) tension, release both O(2) and the vasodilator adenosine triphosphate (ATP). The aims of this study were to establish that erythrocytes release ATP in response to reduced O(2) tension and determine if erythrocytes are necessary for the dilation of isolated skeletal muscle arterioles exposed to reduced extraluminal O(2) tension. Rabbit erythrocytes exposed to reduced O(2) tension in a tonometer (n = 5, pO(2) = 27 +/- 3, p < 0.01) released ATP in response to reduced O(2) tension. ATP release increased in proportion to the decrease in O(2) tension. The contribution of erythrocytes to the response of skeletal muscle arterioles to reduced extraluminal O(2) tension was determined using isolated hamster cheek pouch retractor muscle arterioles perfused with buffer (n = 11, mean diameter 52 +/- 3 mum) in the absence and presence of rabbit erythrocytes. Without erythrocytes, arterioles did not dilate when exposed to reduced extraluminal O(2) tension (pO(2) = 32 +/- 4 mmHg). In contrast, when rabbit erythrocytes were present in the perfusate (hematocrit 15%), the same decrease in O(2) tension resulted in a 20 +/- 4% dilation (p < 0.01). These results provide support for the hypothesis that erythrocytes, via their ability to release O(2) along with ATP in response to exposure to reduced O(2) tension, can participate in the matching of O(2) delivery with metabolic need in skeletal muscle.
在骨骼肌中,氧气(O₂)的输送要适当满足代谢需求,需要具备检测O₂需求量大小以及调节O₂输送的机制。红细胞在暴露于O₂张力降低的情况下,会释放O₂和血管舒张剂三磷酸腺苷(ATP)。本研究的目的是确定红细胞是否会因O₂张力降低而释放ATP,并确定红细胞对于暴露于管腔外O₂张力降低的离体骨骼肌小动脉舒张是否必要。在张力计中暴露于降低的O₂张力下的兔红细胞(n = 5,pO₂ = 27±3,p < 0.01)会因O₂张力降低而释放ATP。ATP的释放量与O₂张力的降低成比例增加。使用在无兔红细胞和有兔红细胞情况下用缓冲液灌注的离体仓鼠颊囊牵张肌小动脉(n = 11,平均直径52±3μm),来确定红细胞对骨骼肌小动脉对降低的管腔外O₂张力反应的贡献。没有红细胞时,小动脉在暴露于降低的管腔外O₂张力(pO₂ = 32±4 mmHg)时不会舒张。相反,当灌注液中存在兔红细胞(血细胞比容15%)时,相同的O₂张力降低会导致20±4%的舒张(p < 0.01)。这些结果为以下假设提供了支持:红细胞通过其在暴露于降低的O₂张力时释放O₂和ATP的能力,可以参与骨骼肌中O₂输送与代谢需求的匹配。
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