Angele M K, Ayala A, Monfils B A, Cioffi W G, Bland K I, Chaudry I H
Center for Surgical Research and the Department of Surgery, Brown University School of Medicine and Rhode Island Hospital, Providence 02903, USA.
J Trauma. 1998 Jan;44(1):78-85. doi: 10.1097/00005373-199801000-00007.
Previous studies indicate that after severe hemorrhage, immune functions are markedly depressed in males, whereas females do not show any depression. Although androgen depletion by castration of mice before soft-tissue trauma and hemorrhagic shock prevents the depression of cell-mediated immunity, it remains unknown whether testosterone per se is responsible for producing immune depression.
Female C3H/HeN mice were pretreated with 5alpha-dihydrotestosterone (DHT) or vehicle for 20 days. The mice then underwent soft-tissue trauma (laparotomy) and hemorrhagic shock (blood pressure 35+/-5 mm Hg for 90 minutes) followed by adequate fluid resuscitation (shed blood and lactated Ringer's solution) or sham operation. Two groups of nontreated male C3H/HeN mice were included as controls: one group was subjected to hemorrhagic shock followed by resuscitation, and the second group underwent only sham operation. At 24 hours after trauma-hemorrhage and resuscitation, animals were killed, macrophages harvested from the peritoneum and spleen, and their ability to release interleukin (IL)-1 and IL-6 was evaluated. Plasma DHT, estradiol, and corticosterone levels were measured by radioimmunoassay.
Treatment of female mice with DHT produces a significant increase in DHT levels that was comparable with those seen in nontreated male mice. Alternatively, estradiol levels in female mice were significantly depressed by DHT treatment to levels comparable with those observed in control males. In the vehicle-treated female mice, no depression of the macrophage function was evident after trauma hemorrhage. In contrast, testosterone-treated female mice that had experienced hemorrhage showed significant depression in splenic and peritoneal macrophage IL-1 and IL-6 production, comparable with the values seen in macrophages from male mice that had experienced hemorrhage.
These findings indicate that pretreatment of female mice with DHT depresses macrophage function after trauma-hemorrhage, which mimics the changes seen in normal male mice subjected to trauma-hemorrhage. We propose, therefore, that high testosterone and/or low estradiol levels are responsible for producing the immune depression in male mice after trauma-hemorrhage. Testosterone receptor blocking agents, e.g., flutamide, and/or estradiol administration should thus be useful adjuncts for preventing immune depression in male trauma patients.
先前的研究表明,严重出血后,雄性动物的免疫功能会显著降低,而雌性动物则无此现象。虽然在软组织创伤和失血性休克前对小鼠进行阉割以去除雄激素可防止细胞介导免疫功能的降低,但睾酮本身是否导致免疫功能降低尚不清楚。
对雌性C3H/HeN小鼠用5α-双氢睾酮(DHT)或溶剂预处理20天。然后小鼠接受软组织创伤(剖腹术)和失血性休克(血压35±5mmHg,持续90分钟),随后进行充分的液体复苏(回输血液和乳酸林格氏液)或假手术。两组未处理的雄性C3H/HeN小鼠作为对照:一组接受失血性休克后复苏,另一组仅进行假手术。在创伤性出血和复苏后24小时,处死动物,收集腹膜和脾脏中的巨噬细胞,评估其释放白细胞介素(IL)-1和IL-6的能力。通过放射免疫分析法测定血浆DHT、雌二醇和皮质酮水平。
用DHT处理雌性小鼠可使DHT水平显著升高,与未处理的雄性小鼠相当。相反,DHT处理可使雌性小鼠的雌二醇水平显著降低至与对照雄性小鼠相当的水平。在接受溶剂处理的雌性小鼠中,创伤性出血后巨噬细胞功能未见降低。相比之下,经历过出血的经睾酮处理的雌性小鼠脾脏和腹膜巨噬细胞IL-1和IL-6的产生显著降低,与经历过出血的雄性小鼠巨噬细胞中的值相当。
这些发现表明,用DHT预处理雌性小鼠会降低创伤性出血后的巨噬细胞功能,这与正常雄性小鼠创伤性出血后的变化相似。因此,我们认为高睾酮和/或低雌二醇水平是雄性小鼠创伤性出血后产生免疫抑制的原因。因此,睾酮受体阻断剂(如氟他胺)和/或给予雌二醇应有助于预防男性创伤患者的免疫抑制。
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