Development of an anti-adhesive vaccine for Pseudomonas aeruginosa targeting the C-terminal region of the pilin structural protein.

H B Sheth, L M Glasier, N W Ellert, P Cachia, W Kohn, K K Lee, W Paranchych, R S Hodges, R T Irvin
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Abstract

This study describes the development of passive and active vaccines directed at the Pseudomonas aeruginosa pilus adhesin. Passive immunization studies were carried out with P. aeruginosa strain K pilus-specific (PK3B, PK99H) and cross-reactive (PAK-13) monoclonal antibodies (MAbs). When A.BY/SnJ mice were passively immunized with a pilus-specific MAb (PK99H), which inhibited pilus-mediated adherence to respiratory epithelial cells, mice challenged with 5 x LD 50 of P. aeruginosa were completely protected while mice were not protected when animals were passively immunized with a pilus specific MAb (PK3B), which did not inhibit pilus adherence to epithilial cells. MAb PAK-13 was found to cross-react with the C-terminal portion of pili of different strains of P. aeruginosa. When mice were passively immunized with MAb PAK-13, subsequent challenge with KB7 (3 x LD50), PAO (8 x LD50) and PAK (3 x LD50) strains of P. aeruginosa resulted in a 70%, 60% and 90% protection of the mice, respectively. MAb PK99H has been previously shown to recognize a linear antigenic epitope consisting of the sequence DEQFIPK. This epitopic peptide was conjugated to protein carriers using different coupling strategies. Use of an appropriate adjuvant and the correct conjugation strategy were critical for raising high affinity antipeptide antisera. In a comparison of Freund's, alum, and Adjuvax, as adjuvants for a peptide-tetanus toxoid conjugate vaccine, highest titers for the synthetic peptide component of the conjugate were obtained with Adjuvax, while highest titers for the carrier protein components were obtained with Freund's. Of the four peptide-conjugates used in this study, only the C-terminal conjugated peptide failed to produce antibodies that bind to native antigen and did not protect mice in active immunization experiments (no survivors at 80 h in the mouse infection model). Conformationally restricted peptide conjugates in which the peptide was conjugated to the carrier at both ends provided better protection in mice challenged with lethal doses of P. aeruginosa than either N- or C-terminal linked peptide-conjugates. The pilus adhesin plays a critical role in P. aeruginosa pathogenesis and this is an excellent vaccine target for either active or passive immunization strategies.

一种针对铜绿假单胞菌结构蛋白c末端的抗黏附疫苗的研制。
本研究描述了铜绿假单胞菌毛粘连素被动疫苗和活性疫苗的发展。采用铜绿假单胞菌K菌特异性(PK3B、PK99H)和交叉反应性(PAK-13)单克隆抗体(mab)进行被动免疫研究。当a . by /SnJ小鼠被动免疫一种抑制毛菌介导的呼吸道上皮细胞粘附的毛菌特异性单抗(PK99H)时,用5倍ld50的铜绿假单抗攻毒的小鼠被完全保护,而用毛菌特异性单抗(PK3B)被动免疫的小鼠没有受到保护,该单抗不抑制毛菌对上皮细胞的粘附。发现MAb PAK-13与不同菌株铜绿假单胞菌菌毛c端发生交叉反应。当小鼠被动免疫MAb PAK-13时,随后用铜绿假单胞菌的KB7(3倍LD50), PAO(8倍LD50)和PAK(3倍LD50)菌株攻毒,小鼠的保护率分别为70%,60%和90%。单抗PK99H先前已被证明可以识别由DEQFIPK序列组成的线性抗原表位。该表位肽通过不同的偶联策略与蛋白载体偶联。使用合适的佐剂和正确的偶联策略是提高高亲和力的抗多肽抗血清的关键。在比较Freund,明矾和佐剂作为肽-破伤风类毒素结合疫苗的佐剂时,佐剂的合成肽组分效价最高,而载体蛋白组分效价最高的是Freund。在本研究中使用的四种肽偶联物中,只有c端偶联肽不能产生与天然抗原结合的抗体,并且在主动免疫实验中不能保护小鼠(在小鼠感染模型中80 h没有存活)。构象限制性肽偶联物,即肽在两端结合到载体上,在致命剂量的铜绿假单胞菌攻击小鼠时,比N端或c端连接的肽偶联物提供更好的保护。菌毛粘附素在铜绿假单胞菌的发病机制中起着至关重要的作用,是主动或被动免疫策略的良好疫苗靶点。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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