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血红蛋白氧亲和力增加可在急性缺氧期间提供保护。

Increased hemoglobin O2 affinity protects during acute hypoxia.

机构信息

Department of Bioengineering, University of California, San Diego, La Jolla, USA.

出版信息

Am J Physiol Heart Circ Physiol. 2012 Aug 1;303(3):H271-81. doi: 10.1152/ajpheart.00078.2012. Epub 2012 May 25.

Abstract

Acclimatization to hypoxia requires time to complete the adaptation mechanisms that influence oxygen (O(2)) transport and O(2) utilization. Although decreasing hemoglobin (Hb) O(2) affinity would favor the release of O(2) to the tissues, increasing Hb O(2) affinity would augment arterial O(2) saturation during hypoxia. This study was designed to test the hypothesis that pharmacologically increasing the Hb O(2) affinity will augment O(2) transport during severe hypoxia (10 and 5% inspired O(2)) compared with normal Hb O(2) affinity. RBC Hb O(2) affinity was increased by infusion of 20 mg/kg of 5-hydroxymethyl-2-furfural (5HMF). Control animals received only the vehicle. The effects of increasing Hb O(2) affinity were studied in the hamster window chamber model, in terms of systemic and microvascular hemodynamics and partial pressures of O(2) (Po(2)). Pimonidazole binding to hypoxic areas of mice heart and brain was also studied. 5HMF decreased the Po(2) at which the Hb is 50% saturated with O(2) by 12.6 mmHg. During 10 and 5% O(2) hypoxia, 5HMF increased arterial blood O(2) saturation by 35 and 48% from the vehicle group, respectively. During 5% O(2) hypoxia, blood pressure and heart rate were 58 and 30% higher for 5HMF compared with the vehicle. In addition, 5HMF preserved microvascular blood flow, whereas blood flow decreased to 40% of baseline in the vehicle group. Consequently, perivascular Po(2) was three times higher in the 5HMF group compared with the control group at 5% O(2) hypoxia. 5HMF also reduced heart and brain hypoxic areas in mice. Therefore, increased Hb O(2) affinity resulted in hemodynamics and oxygenation benefits during severe hypoxia. This acute acclimatization process may have implications in survival during severe environmental hypoxia when logistic constraints prevent chronic acclimatization.

摘要

适应低氧需要时间来完成影响氧气(O(2))运输和 O(2)利用的适应机制。虽然降低血红蛋白(Hb)O(2)亲和力有利于向组织释放 O(2),但增加 Hb O(2)亲和力会在低氧时增加动脉血氧饱和度。本研究旨在测试以下假设:与正常 Hb O(2)亲和力相比,通过输注 20 mg/kg 的 5-羟甲基-2-糠醛(5HMF)增加 RBC Hb O(2)亲和力将在严重低氧(10%和 5%吸入 O(2))期间增加 O(2)运输。仅接受载体的对照动物。在仓鼠窗室模型中,从全身和微血管血液动力学以及氧气分压(Po(2))方面研究了增加 Hb O(2)亲和力的效果。还研究了 5HMF 对小鼠心脏和大脑缺氧区域的吡咯烷结合。5HMF 将血红蛋白与 O(2)的 50%饱和时的 Po(2)降低了 12.6 mmHg。在 10%和 5%O(2)低氧期间,与载体组相比,5HMF 分别使动脉血氧饱和度增加了 35%和 48%。在 5%O(2)低氧期间,与载体相比,5HMF 使血压和心率分别增加了 58%和 30%。此外,5HMF 维持了微血管血流,而在载体组中血流降至基础值的 40%。因此,与对照组相比,在 5%O(2)低氧时,5HMF 组的血管周围 Po(2)高 3 倍。5HMF 还减少了小鼠的心脏和大脑缺氧区域。因此,增加 Hb O(2)亲和力可在严重低氧期间改善血液动力学和氧合作用。这种急性适应过程在严重环境低氧时可能对生存有影响,在严重环境低氧时,后勤限制会阻止慢性适应。

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