打破潜伏感染:ORF37/38缺失突变体如何为抗击 EHV-1 神经致病性带来新希望

Viruses Pub Date : 2024-09-16 DOI:10.3390/v16091472
Yue Hu, Si-Yu Zhang, Wen-Cheng Sun, Ya-Ru Feng, Hua-Rui Gong, Duo-Liang Ran, Bao-Zhong Zhang, Jian-Hua Liu
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摘要

马α疱疹病毒1(EHV-1)与神经系统疾病的出现有关,马疱疹病毒髓脑病(EHM)的爆发给赛马业带来了重大影响。在接触病原体之前建立强大的免疫记忆可以快速识别和消除病原体,防止感染。这对于有效管理 EHV-1 至关重要。去除神经致病因子和免疫逃避基因来开发减毒活疫苗似乎是 EHV-1 疫苗的成功策略。我们制造了不含 ORF38 和 ORF37/38 的突变病毒,并在仓鼠体内验证了它们的神经致病性和免疫原性。∆ORF38 株在高剂量下会造成脑组织损伤,而 ∆ORF37/38 株不会。地塞米松用于确认潜伏的疱疹病毒感染和再激活。注射地塞米松可增加感染亲本株和∆ORF38株的仓鼠大脑中的病毒DNA载量,但不会增加感染∆ORF37/38株的仓鼠大脑中的病毒DNA载量。用 ∆ORF37/38 株作为活疫苗对仓鼠进行鼻内免疫,与相同剂量的 ∆ORF38 株相比,能产生更强的免疫反应。仓鼠对亲本毒株的致命挑战表现出有效的保护。这表明,ORF37/38的缺失可有效抑制病毒的潜伏感染,降低EHV-1的神经致病性,并诱导保护性免疫反应。
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Breaking Latent Infection: How ORF37/38-Deletion Mutants Offer New Hope against EHV-1 Neuropathogenicity
Equid alphaherpesvirus 1 (EHV-1) has been linked to the emergence of neurological disorders, with the horse racing industry experiencing significant impacts from outbreaks of equine herpesvirus myeloencephalopathy (EHM). Building robust immune memory before pathogen exposure enables rapid recognition and elimination, preventing infection. This is crucial for effectively managing EHV-1. Removing neuropathogenic factors and immune evasion genes to develop live attenuated vaccines appears to be a successful strategy for EHV-1 vaccines. We created mutant viruses without ORF38 and ORF37/38 and validated their neuropathogenicity and immunogenicity in hamsters. The ∆ORF38 strain caused brain tissue damage at high doses, whereas the ∆ORF37/38 strain did not. Dexamethasone was used to confirm latent herpesvirus infection and reactivation. Dexamethasone injection increased viral DNA load in the brains of hamsters infected with the parental and ∆ORF38 strains, but not in those infected with the ∆ORF37/38 strain. Immunizing hamsters intranasally with the ∆ORF37/38 strain as a live vaccine produced a stronger immune response compared to the ∆ORF38 strain at the same dose. The hamsters demonstrated effective protection against a lethal challenge with the parental strain. This suggests that the deletion of ORF37/38 may effectively inhibit latent viral infection, reduce the neuropathogenicity of EHV-1, and induce a protective immune response.
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