Brucella melitensis Rev1Δwzm: Placental pathogenesis studies and safety in pregnant ewes.

Irati Poveda-Urkixo, Sara Mena-Bueno, Gustavo A Ramírez, Ana Zabalza-Baranguá, Renee M Tsolis, María-Jesús Grilló
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Abstract

One of the main causes of human brucellosis is Brucella melitensis infecting small ruminants. To date, Rev1 is the only vaccine successfully used to control ovine and caprine brucellosis. However, it is pathogenic for pregnant animals, resulting in abortions and vaginal and milk shedding, as well as being infectious for humans. Therefore, there is an urgent need to develop an effective vaccine that is safer than Rev1. In efforts to further attenuate Rev1, we recently used wzm inactivation to generate a rough mutant (Rev1Δwzm) that retains a complete antigenic O-polysaccharide in the bacterial cytoplasm. The aim of the present study was to evaluate the placental pathogenicity of Rev1Δwzm in trophoblastic cells, throughout pregnancy in mice, and in ewes inoculated in different trimesters of pregnancy. This mutant was evaluated in comparison with the homologous 16MΔwzm derived from a virulent strain of B. melitensis and the naturally rough sheep pathogen B. ovis. Our results show that both wzm mutants triggered reduced cytotoxic, pro-apoptotic, and pro-inflammatory signaling in Bewo trophoblasts, as well as reduced relative expression of apoptosis genes. In mice, both wzm mutants produced infection but were rapidly cleared from the placenta, in which only Rev1Δwzm induced a low relative expression of pro-apoptotic and pro-inflammatory genes. In the 66 inoculated ewes, Rev1Δwzm was safe and immunogenic, displaying a transient serological interference in standard RBT but not CFT S-LPS tests; this serological response was minimized by conjunctival administration. In conclusion, these results support that B. melitensis Rev1Δwzm is a promising vaccine candidate for use in pregnant ewes and its efficacy against B. melitensis and B. ovis infections in sheep warrants further study.

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布鲁氏菌 Rev1Δwzm:妊娠母羊的胎盘致病机理研究和安全性。
人类布鲁氏菌病的主要病因之一是小反刍动物感染了布鲁氏菌。迄今为止,Rev1 是唯一成功用于控制绵羊和山羊布鲁氏菌病的疫苗。然而,它对怀孕动物具有致病性,会导致流产、阴道和乳汁脱落,对人类也有传染性。因此,迫切需要开发一种比 Rev1 更安全的有效疫苗。为了进一步减弱Rev1,我们最近利用wzm灭活技术产生了一种粗糙突变体(Rev1Δwzm),它在细菌胞质中保留了完整的抗原O-多糖。本研究旨在评估Rev1Δwzm在滋养细胞、小鼠整个妊娠期以及母羊不同妊娠期接种的胎盘致病性。我们将该突变体与来自梅毒杆菌毒株的同源16MΔwzm和天然粗糙的绵羊病原体B. ovis进行了比较评估。我们的研究结果表明,这两种 wzm 突变体在 Bewo 滋养细胞中引发的细胞毒性、促凋亡和促炎症信号转导减少,凋亡基因的相对表达也减少。在小鼠体内,两种 wzm 突变体都会产生感染,但会迅速从胎盘中清除,其中只有 Rev1Δwzm 能诱导较低的促凋亡和促炎症基因的相对表达。在接种的 66 只母羊中,Rev1Δwzm 是安全的,具有免疫原性,在标准 RBT 而非 CFT S-LPS 试验中显示出短暂的血清学干扰;结膜给药可将这种血清学反应降至最低。总之,这些结果表明梅毒杆菌 Rev1Δwzm 是一种很有前途的候选疫苗,可用于妊娠母羊,其对绵羊梅毒杆菌和绵羊猫鼬感染的有效性值得进一步研究。
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