Mesonero Alexander, Suarez David L, van Santen Edzard, Tang De-Chu C, Toro Haroldo
College of Veterinary Medicine, Auburn University, Auburn, AL 36849-5519, USA.
Avian Dis. 2011 Jun;55(2):285-92. doi: 10.1637/9600-112210-Reg.1.
Protective immunity against avian influenza (AI) can be elicited in chickens in a single-dose regimen by in ovo vaccination with a replication-competent adenovirus (RCA)-free human adenovirus serotype 5 (Ad)-vector encoding the AI virus (AIV) hemagglutinin (HA). We evaluated vaccine potency, antibody persistence, transfer of maternal antibodies (MtAb), and interference between MtAb and active in ovo or mucosal immunization with RCA-free recombinant Ad expressing a codon-optimized AIV H5 HA gene from A/turkey/WI/68 (AdTW68.H5(ck)). Vaccine coverage and intrapotency test repeatability were based on anti-H5 hemagglutination inhibition (HI) antibody levels detected in in ovo vaccinated chickens. Even though egg inoculation of each replicate was performed by individuals with varying expertise and with different vaccine batches, the average vaccine coverage of three replicates was 85%. The intrapotency test repeatability, which considers both positive as well as negative values, varied between 0.69 and 0.71, indicating effective vaccination. Highly pathogenic (HP) AIV challenge of chicken groups vaccinated with increasing vaccine doses showed 90% protection in chickens receiving > or = 10(8) ifu (infectious units)/bird. The protective dose 50% (PD50) was determined to be 10(6.5) ifu. Even vaccinated chickens that did not develop detectable antibody levels were effectively protected against HP AIV challenge. This result is consistent with previous findings ofAd-vector eliciting T lymphocyte responses. Higher vaccine doses significantly reduced viral shedding as determined by AIV RNA concentration in oropharyngeal swabs. Assessment of antibody persistence showed that antibody levels of in ovo immunized chickens continued to increase until 12 wk and started to decline after 18 wk of age. Intramuscular (IM) booster vaccination with the same vaccine at 16 wk of age significantly increased the antibody responses in breeder hens, and these responses were maintained at high levels throughout the experimental period (34 wk of age). AdTW68.H5(ch)-immunized breeder hens effectively transferred MtAb to progeny chickens. The level of MtAb in the progenies was consistent with the levels detected in the breeders, i.e., intramuscularly boosted breeders transferred higher concentrations of antibodies to the offspring. Maternal antibodies declined with time in the progenies and achieved marginal levels by 34 days of age. Chickens with high maternal antibody levels that were vaccinated either in ovo or via mucosal routes (ocular or spray) did not seroconvert. In contrast, chickens without MtAb successfully developed specific antibody levels after either in ovo or mucosal vaccination. These results indicate that high levels of MtAb interfered with active Ad-vectored vaccination.
通过在鸡胚中接种编码禽流感病毒(AIV)血凝素(HA)的无复制能力腺病毒(RCA)的人腺病毒血清型5(Ad)载体,可在单剂量方案中诱导鸡对禽流感(AI)产生保护性免疫。我们评估了疫苗效力、抗体持久性、母源抗体(MtAb)的传递以及MtAb与无RCA重组Ad在鸡胚中或黏膜免疫之间的干扰,该重组Ad表达来自A/火鸡/WI/68(AdTW68.H5(ck))的密码子优化的AIV H5 HA基因。疫苗覆盖率和效价测试重复性基于在鸡胚接种疫苗的鸡中检测到的抗H5血凝抑制(HI)抗体水平。尽管每个重复组的蛋接种由具有不同专业知识和不同疫苗批次的个体进行,但三个重复组的平均疫苗覆盖率为85%。考虑到正值和负值的效价测试重复性在0.69至0.71之间,表明疫苗接种有效。用递增剂量疫苗接种的鸡群经高致病性(HP)AIV攻毒,结果显示接受≥10⁸ifu(感染单位)/只的鸡有90%得到保护。确定保护剂量50%(PD50)为10⁶·⁵ifu。即使未产生可检测抗体水平的接种疫苗的鸡也能有效抵御HP AIV攻毒。这一结果与先前关于Ad载体引发T淋巴细胞反应的研究结果一致。如通过口咽拭子中AIV RNA浓度所确定的,较高的疫苗剂量显著减少了病毒脱落。抗体持久性评估表明,鸡胚免疫鸡的抗体水平在12周龄前持续升高,18周龄后开始下降。在16周龄时用同一疫苗进行肌肉注射(IM)加强免疫显著提高了种母鸡的抗体反应,并且这些反应在整个实验期(34周龄)都维持在高水平。用AdTW68.H5(ch)免疫的种母鸡有效地将MtAb传递给后代雏鸡。后代雏鸡中MtAb的水平与在种母鸡中检测到的水平一致,即经肌肉注射加强免疫的种母鸡向后代传递了更高浓度的抗体。后代雏鸡中的母源抗体随时间下降,到34日龄时达到临界水平。母源抗体水平高的鸡无论是通过鸡胚接种还是通过黏膜途径(眼内或喷雾)接种疫苗都未发生血清转化。相反 , 没有MtAb的鸡在鸡胚接种或黏膜接种疫苗后成功产生了特异性抗体水平。这些结果表明高水平的MtAb会干扰Ad载体的主动免疫接种。
