Kachko Alla, Frey Sharon E, Sirota Lev, Ray Ranjit, Wells Frances, Zubkova Iryna, Zhang Pei, Major Marian E
Division of Viral Products, CBER/FDA, Silver Spring, MD.
Division of Infectious Diseases, Allergy and Immunology, Saint Louis University School of Medicine, St Louis, MO.
Hepatology. 2015 Dec;62(6):1670-82. doi: 10.1002/hep.28108. Epub 2015 Oct 16.
Hepatitis C virus (HCV) neutralization occurring at the E2 region 412-426 (EP-I) could be enhanced when antibodies directed specifically to the E2 region 434-446 (EP-II) were removed from serum samples of persistently infected patients and vaccinated chimpanzees, a phenomenon of so-called antibody interference. Here, we show that this type of interference can be observed in individuals after immunization with recombinant E1E2 proteins. One hundred twelve blinded serum samples from a phase I, placebo-controlled, dose escalation trial using recombinant HCV E1E2 with MF59C.1 adjuvant in healthy HCV-negative adults were tested in enzyme-linked immunosorbent assay for binding reactivity to peptides representing the E2 regions 412-426 (EP-I) and 434-446 (EP-II). All samples were subsequently tested for neutralizing activity using cell-culture HCV 1a(H77)/2a chimera, HCV pseudotype particles (HCVpp) H77, and HCVpp HCV-1 after treatment to remove EP-II-specific antibodies or mock treatment with a control peptide. Among the 112 serum samples, we found 22 double positive (EP-I and EP-II), 6 EP-II positive only, 14 EP-I positive only, and 70 double negative. Depleting EP-II antibodies from double-positive serum samples increased 50% inhibitory dose (ID50) neutralizing antibody titers (up to 4.9-fold) in up to 72% of samples (P ≤ 0.0005), contrasting with ID50 neutralization titer increases in 2 of 70 double-negative samples (2.9%; P > 0.5). In addition, EP-I-specific antibody levels in serum samples showed a significant correlation with ID50 neutralization titers when EP-II antibodies were removed (P < 0.0003).
These data show that antibodies to the region 434-446 are induced during immunization of individuals with recombinant E1E2 proteins, and that these antibodies can mask effective neutralizing activity from EP-I-specific antibodies. Elicitation of EP-II-specific antibodies with interfering capacity should be avoided in producing an effective cross-neutralizing vaccine aimed at the HCV envelope proteins.
当从持续感染患者和接种疫苗的黑猩猩的血清样本中去除特异性针对E2区域434 - 446(EP-II)的抗体时,在E2区域412 - 426(EP-I)发生的丙型肝炎病毒(HCV)中和作用可能会增强,这是一种所谓的抗体干扰现象。在此,我们表明这种类型的干扰在使用重组E1E2蛋白免疫的个体中也能观察到。在一项I期、安慰剂对照、剂量递增试验中,使用重组HCV E1E2与MF59C.1佐剂对健康的HCV阴性成年人进行试验,将112份盲法血清样本用酶联免疫吸附测定法检测与代表E2区域412 - 426(EP-I)和434 - 446(EP-II)的肽的结合反应性。所有样本随后在去除EP-II特异性抗体或用对照肽进行模拟处理后,使用细胞培养的HCV 1a(H77)/2a嵌合体、HCV假型颗粒(HCVpp)H77和HCVpp HCV-1检测中和活性。在这112份血清样本中,我们发现22份双阳性(EP-I和EP-II)、6份仅EP-II阳性、14份仅EP-I阳性和70份双阴性。从双阳性血清样本中去除EP-II抗体后,高达72%的样本中50%抑制剂量(ID50)中和抗体滴度增加(高达4.9倍)(P≤0.0005),相比之下,70份双阴性样本中有2份ID50中和滴度增加(2.9%;P>0.5)。此外,当去除EP-II抗体时,血清样本中EP-I特异性抗体水平与ID50中和滴度显示出显著相关性(P<0.0003)。
这些数据表明,在用重组E1E2蛋白免疫个体的过程中会诱导产生针对区域434 - 446的抗体,并且这些抗体可以掩盖EP-I特异性抗体的有效中和活性。在生产针对HCV包膜蛋白的有效交叉中和疫苗时,应避免诱导具有干扰能力的EP-II特异性抗体。
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