正常和病理人中性粒细胞中过氧化物酶阳性颗粒的异质性。

R T Parmley
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摘要

研究表明,中性粒细胞颗粒形态和物理密度具有显著的异质性。利用细胞化学方法定位含复合碳水化合物的过氧化物酶和邻苯二醇,研究了13个分离颗粒密度组分中完整人中性粒细胞颗粒的异质性,钙离子载体A23187治疗了chediakhigashi综合征和特异性颗粒缺乏症患者的中性粒细胞和中性粒细胞。根据过氧化物酶染色、邻甘醇染色、形态学、β -葡萄糖醛酸酶和防御素含量以及物理密度特征,鉴定出至少4个不同的过氧化物酶阳性颗粒(PPG)群体。最小的PPG(直径0.15微米)是密度最小的颗粒,具有独特的过氧化物酶/ β -葡萄糖醛酸酶比例,与邻近的乙二醇反应强烈,抵抗离子载体脱粒,并且在Chediak-Higashi综合征中不被消耗成大颗粒。最大的(平均直径0.3微米)和物理密度最大的PPG富含防御素,对邻近的乙醇染色较弱,在特定颗粒缺乏中不存在。这些研究证明并关联了PPG群体在形态、生化、功能和病理上的差异。
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Heterogeneity of peroxidase positive granules in normal and pathologic human neutrophils.

Studies have demonstrated significant heterogeneity in neutrophil granule morphology and physical density. Using cytochemical methods to localize peroxidase and vicinal glycol containing complex carbohydrates we examined the heterogeneity of neutrophil granules from intact human neutrophil granules in 13 isolated granule density fractions, calcium ionophore A23187 treated neutrophils and neutrophils from patients with Chediak-Higashi Syndrome and Specific Granule Deficiency. At least four distinct populations of peroxidase positive granules (PPG) were identified based on peroxidase staining, vicinal glycol staining, morphology, beta-glucuronidase and defensin content, and physical density characteristics. The smallest (0.15 micron diameter) PPG was the least dense granule, had a unique peroxidase/beta-glucuronidase ratio, reacted intensely for vicinal glycols, resisted ionophore degranulation and was not consumed in giant granule formation in Chediak-Higashi Syndrome. The largest (0.3 micron average diameter) and most physically dense PPG was rich in defensins, stained weakly for vicinal glycols, and was absent in specific granule deficiency. These studies demonstrate and correlate morphologic, biochemical, functional, and pathologic differences in PPG populations.

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