Mahan J D, Hebert L A, McAllister C, Birmingham D J, Shen X P, Cosio F G, Brandt J
Department of Internal Medicine, Ohio State University, Columbus.
Kidney Int. 1993 Oct;44(4):716-25. doi: 10.1038/ki.1993.305.
Abundant glomerular platelet deposition is a hallmark of certain animal models of immune complex (IC)-mediated glomerulonephritis (GN). By contrast, conspicuous platelet deposition is uncommon in the IC-GN seen in humans. This could result from intrinsic differences between human and animal platelets, which are known to be present. To assess whether abundant glomerular platelet deposition can occur in humans with IC-GN, the present studies were undertaken in nonhuman primates (cynomolgus monkeys, CYN), with active experimental IC-GN induced by 12 weeks of daily intravenous infusion of bovine gamma globulin (BGG). CYN are appropriate for these studies because, like humans, CYN platelets do not express the C3b receptor but do express receptors for the Fc region of IgG (FcR gamma II). Furthermore, in this model of IC-GN, which is indistinguishable from IC-GN seen in humans, it is possible to time the biopsy to coincide with a period of peak activity of the GN. The present studies proceeded as follows: ten CYN were studied before and after intravenous infusion of BGG sufficient to achieve conditions near antigen/antibody equivalence for circulating precipitating antibody to BGG. The infusion of BGG, which was given over 10 minutes, resulted in an acute reduction in circulating platelets (mean 43% +/- 5 SE, P < 0.001). However, renal biopsies performed before and five minutes after the acute reduction in circulating platelets showed that relatively few of the platelets removed from the circulation lodged in glomeruli (platelets/glomerular cross section: 0.2 +/- 0.06 before BGG vs. 0.88 +/- 0.31 after BGG, P = 0.035). In five of the CYN studied under the above protocol, autologous platelets were labeled with 111In and reinfused into the CYN just prior to the BGG infusion. These studies confirmed the paucity of platelet deposition in kidney but showed major uptake of the 111In-labeled platelets by liver and spleen (mean +/- SE 111In CPM/mg of tissue: kidney cortex 18 +/- 8, liver 132 +/- 42, and spleen 808 +/- 127, P = 0.038, comparing kidney to liver or spleen by paired t-test). Thus, the platelets removed from the circulation were taken up at the sites which are also the principal sites of IC uptake (liver and spleen), and over the time interval that coincides with the period of maximum uptake of IC by liver and spleen, after BGG infusion. In vitro studies, discussed herein, showed that BGG anti-BGG IC bind to CYN platelets via FcR gamma II.(ABSTRACT TRUNCATED AT 400 WORDS)
丰富的肾小球血小板沉积是某些免疫复合物(IC)介导的肾小球肾炎(GN)动物模型的一个标志。相比之下,在人类的IC - GN中,明显的血小板沉积并不常见。这可能是由于已知存在的人类和动物血小板之间的内在差异。为了评估在患有IC - GN的人类中是否会出现丰富的肾小球血小板沉积,本研究在非人灵长类动物(食蟹猴,CYN)中进行,通过每日静脉输注牛γ球蛋白(BGG)12周诱导出活动性实验性IC - GN。食蟹猴适用于这些研究,因为和人类一样,食蟹猴血小板不表达C3b受体,但表达IgG Fc区的受体(FcRγII)。此外,在这个与人类所见的IC - GN难以区分的IC - GN模型中,可以安排活检时间与GN的活动高峰期相吻合。本研究按以下方式进行:对10只食蟹猴在静脉输注足以使循环中针对BGG的沉淀抗体达到抗原/抗体等效条件的BGG之前和之后进行研究。在10分钟内输注BGG导致循环血小板急性减少(平均43%±5 SE,P<0.001)。然而,在循环血小板急性减少之前和之后5分钟进行的肾活检显示,从循环中清除的血小板相对较少滞留在肾小球中(每肾小球横截面的血小板数:BGG输注前为0.2±0.06,BGG输注后为- 0.88±0.31,P = 0.035)。在按照上述方案研究的5只食蟹猴中,自体血小板用111In标记,并在BGG输注前重新注入食蟹猴体内。这些研究证实了肾脏中血小板沉积很少,但显示111In标记的血小板主要被肝脏和脾脏摄取(平均±SE每毫克组织的111In计数:肾皮质18±8,肝脏132±42,脾脏808±127,通过配对t检验比较肾脏与肝脏或脾脏,P = 0.038)。因此,从循环中清除的血小板在IC摄取的主要部位(肝脏和脾脏)被摄取,并且在BGG输注后与肝脏和脾脏对IC最大摄取期相吻合的时间间隔内被摄取。本文讨论的体外研究表明,BGG抗BGG IC通过FcRγII与食蟹猴血小板结合。(摘要截短于400字)
