Berkow R L, Weisman S J, Tzeng D, Haak R A, Kleinhans F W, Barefoot S, Baehner R L
J Lab Clin Med. 1984 Nov;104(5):698-710.
Standard preparative techniques for human polymorphonuclear leukocytes involves the sequential exposure of the PMN to dextran, Ficoll-Hypaque (FH) gradient centrifugation, and hypotonic stress. Counterflow centrifugal elutriation (CCE) allows isolation of PMN from whole blood without exposure to these potentially toxic substances. We have previously reported that PMN isolated by CCE release more superoxide on stimulation than do PMN isolated by standard techniques (FH PMN). In this report, we extend these observations and show that CCE and FH PMN have similar binding kinetics for the chemotactic peptide N-formyl-methionyl-leucyl-phenylalanine (FMLP) and similar membrane fluidity. CCE PMN, however, were noted to have a more marked membrane depolarization on stimulation with FMLP than FH PMN. We show that exposure of purified CCE PMN to dextran increases their superoxide release on stimulation, as well as the available FMLP binding sites. Exposure of FH PMN to elutriation buffer increased their superoxide release on stimulation. It was also noted that both CCE and FH PMN re-exposed to FH increased available binding sites for FMLP. The possible reasons for these findings are discussed.
人多形核白细胞的标准制备技术包括将多形核白细胞依次暴露于右旋糖酐、Ficoll-Hypaque(FH)梯度离心和低渗应激。逆流离心淘析(CCE)可从全血中分离多形核白细胞,而无需暴露于这些潜在的有毒物质。我们之前曾报道,通过CCE分离的多形核白细胞在受到刺激时比通过标准技术(FH多形核白细胞)分离的多形核白细胞释放更多的超氧化物。在本报告中,我们扩展了这些观察结果,并表明CCE和FH多形核白细胞对趋化肽N-甲酰甲硫氨酰-亮氨酰-苯丙氨酸(FMLP)具有相似的结合动力学和相似的膜流动性。然而,在用FMLP刺激时,CCE多形核白细胞的膜去极化比FH多形核白细胞更明显。我们表明,将纯化的CCE多形核白细胞暴露于右旋糖酐会增加其在受到刺激时的超氧化物释放,以及可用的FMLP结合位点。将FH多形核白细胞暴露于淘析缓冲液会增加其在受到刺激时的超氧化物释放。还注意到,再次暴露于FH的CCE和FH多形核白细胞都会增加FMLP的可用结合位点。讨论了这些发现的可能原因。
