Leibovich S J, Ross R
Am J Pathol. 1975 Jan;78(1):71-100.
The role of the monocyte/macrophage in wound repair has been investigated by studying the healing process in wounds depleted of this cell and/or its phagocytic activity. Hydrocortisone acetate (0.6 mg/g body weight) administered as a subcutaneous depot was used to induce a prolonged monocytopenia in guinea pigs, and antimacrophage serum (AMS) was used for local elimination of tissue macrophages. In vitro, the presence of complement, macrophages are rapidly lysed and used killed by AMS. In the absence of complement, AMS is not cytotoxic but potently inhibits adherence to and phagocytosis of opsonized erythrocytes by macrophages. AMS titers were obtained by observation of adherence and phagocytosis of opsonized erythrocytes in serial dilutions of AMS. Six groups of animals were studied: a) untreated animals, b)animals receiving daily subcutaneous injections of normal rabbit serum (NRS) around each wound, c)animals receiving daily subcutaneous AMS around each wound, d)animals receiving systemic hydrocortisone, e)animals receiving systemic hydrocortisone and daily injections of NRS around each wound, and f)animals receiving systemic hydrocortisone and daily AMS around each wound. Wounds consisted of a series of six linear incisions in the dorsal skin. Subcutaneous AMS alone has no effect on the number of circulating monocytes, nor was there any observable effect on the number or the phagocytic ability of wound macrophages. Fibrosis in these wounds was unaffected. Systemic hydrocortisone induced a prolonged monocytopenia. The macrophage level in the wounds of these monocytopenic animals was reduced to approximately one-third that of controls; the phagocytic activity of the monocytes/macrophages that did appear in these wounds was, however, similar to that of controls. Some inhibition of wound debridement was observed in these wounds, but fibrosis was virtually unaffected. Collagen synthesis, as judged morphometrically, was similar to that of control wounds at all stages of repair. Conjoint systemic hydrocortisone and subcutaneous AMS around each wound resulted in the almost complete disappearance of macrophages from the wounds. Wound fibrin levels were elevated, and clearance of fibrin, neutrophils, erythrocytes and other miscellaneous debris from these wounds was delayed. Fibroblasts, which in control wounds first appear by 3 days postwounding and reach maximal levels by day 5, did not appear in these wounds until day 5, and their subsequent rate of proliferation was slower than that of controls. Continued.
通过研究单核细胞/巨噬细胞缺失或其吞噬活性被抑制的伤口愈合过程,对单核细胞/巨噬细胞在伤口修复中的作用进行了研究。将醋酸氢化可的松(0.6毫克/克体重)作为皮下储存剂给药,用于诱导豚鼠出现长期单核细胞减少,抗巨噬细胞血清(AMS)则用于局部清除组织巨噬细胞。在体外,有补体存在时,巨噬细胞会被AMS迅速裂解并杀死。在无补体的情况下,AMS无细胞毒性,但能有效抑制巨噬细胞对调理红细胞的黏附和吞噬。通过观察AMS系列稀释液中调理红细胞的黏附和吞噬情况来获得AMS效价。研究了六组动物:a)未处理的动物;b)在每个伤口周围每日皮下注射正常兔血清(NRS)的动物;c)在每个伤口周围每日皮下注射AMS的动物;d)接受全身氢化可的松治疗的动物;e)接受全身氢化可的松治疗且在每个伤口周围每日注射NRS的动物;f)接受全身氢化可的松治疗且在每个伤口周围每日注射AMS的动物。伤口由背部皮肤的一系列六个线性切口组成。单独皮下注射AMS对循环单核细胞数量没有影响,对伤口巨噬细胞数量或吞噬能力也没有明显影响。这些伤口的纤维化未受影响。全身应用氢化可的松会导致长期单核细胞减少。这些单核细胞减少动物伤口中的巨噬细胞水平降至对照组的约三分之一;然而,出现在这些伤口中的单核细胞/巨噬细胞的吞噬活性与对照组相似。在这些伤口中观察到对伤口清创有一定抑制作用,但纤维化基本未受影响。从形态计量学判断,胶原合成在修复的各个阶段都与对照伤口相似。全身应用氢化可的松并在每个伤口周围皮下注射AMS导致伤口中巨噬细胞几乎完全消失。伤口纤维蛋白水平升高,这些伤口中纤维蛋白、中性粒细胞、红细胞和其他杂物的清除延迟。在对照伤口中,成纤维细胞在受伤后3天首次出现并在第5天达到最高水平,而在这些伤口中直到第5天才出现,其随后的增殖速度比对照组慢。续
