单击此处,请单击此处阅读完整的文章。细胞免疫减轻因肺炎肺炎感染而引起的炎症损伤。
摘要来源:
bmc vet res。 2024年9月7日; 20(1):399。 EPUB 2024 9月7日。PMID: 39244529“> 39244529 Xiaowei Fang, Chun Fang, Xiongyan Liang, Jing Liu, Yuying Yang
Article Affiliation:Yang ZengAbstract:
BACKGROUND: Klebsiella pneumoniae (KP), responsible for acute lung injury (ALI) and inflammation of the胃肠道是一种人畜共患病原体,对全世界的牲畜种植构成威胁。尽管如此,有铜没有经过验证的疫苗来防止KP感染。 The development of mucosal vaccines against KP using Lactobacillus plantarum (L. plantarum) is an effective strategy.
RESULTS: Firstly, the L. plantarum strains NC8-pSIP409-aCD11c and NC8-pLc23-aCD11c were constructed via homologous重组以诱导或组成症表达ACD11C蛋白。 NC8-PSIP409-ACD11C和NC8-PLC23-ACD11C菌株均可增强骨髓衍生的树突状细胞(BMDC)的粘附和侵袭,与对照NC8-PSIP409 Interro相比,BMDC的激活。 Following oral immunization of mice with NC8-pSIP409-aCD11c and NC8-pLc23-aCD11c, the cellular, humoral, and mucosal immunity were significantly improved, as evidenced by the increased expression of CD4IL-4T cells in the spleen, IgG in serum, and secretory IgA (sIgA) in the intestinal lavage fluid (ILF).此外,专业人士通过评估各种组织中的细菌负荷,肺湿/D),炎症细胞因子的水平以及组织学评估,从而证实了植物植物乳杆菌对KP感染引起的炎症损伤的影响,从而影响了T Helper 17(Th17)(Th17)和调节性T(TREG)细胞(Treg)细胞(Treg)细胞(Treg)细胞(Treg)细胞。 class =“ sub_abstract_label”>结论: 诱导和组成型plantarum菌株NC8-PSIP409-ACD11C和NC8-PLC23-ACD11C都已发现刺激细胞和体情免疫水平,并减轻了kP的炎症响应。这些发现为开发针对KP的新型疫苗提供了基础。