Sadarangani C, Skamene E, Kongshavn P A
Infect Immun. 1980 May;28(2):381-6. doi: 10.1128/iai.28.2.381-386.1980.
The characteristics of the mononuclear phagocytes mediating resistance to infection with Listeria during the early phase (0 to 48 h) of the response have been investigated in genetically determined susceptible (A/J) and resistant (C57BL/6, B10.A/SgSn) strains of mice. Irradiation immediately before infection profoundly enhanced the bacterial growth in the resistant strain, while having no effect in the susceptible strain, over a wide range (3 x 10(3) to 10(5)) of infective doses. This effect of irradiation is demonstrable at low-dose radiation (200 roentgens) and can be reversed by repopulation with 20 x 10(6) syngeneic nucleated bone marrow cells. Administration of dextran sulfate 500 24 h before infection profoundly enhanced the bacterial growth in the susceptible strain, while having much less effect in the resistant strain. Thus, the genetic advantage of the resistant mouse strains to listerial infection, at least during the early phase of the response, appears to be due to a cellular mechanism that is highly radiosensitive and relatively insensitive to dextran sulfate 500. In the susceptible strain, the early protective cellular mechanism is radioresistant and highly dextran sulfate 500 sensitive.
在对李斯特菌感染产生应答的早期阶段(0至48小时),已对基因决定的易感(A/J)和抗性(C57BL/6、B10.A/SgSn)小鼠品系中介导抗李斯特菌感染的单核吞噬细胞的特性进行了研究。在感染前立即进行照射,在广泛的感染剂量范围(3×10³至10⁵)内,抗性品系中的细菌生长显著增强,而在易感品系中则无影响。低剂量辐射(200伦琴)即可显示出这种照射效应,并且通过注入20×10⁶同基因有核骨髓细胞可使其逆转。在感染前24小时给予硫酸葡聚糖500,易感品系中的细菌生长显著增强,而在抗性品系中的影响则小得多。因此,抗性小鼠品系对李斯特菌感染的遗传优势,至少在应答的早期阶段,似乎是由于一种对辐射高度敏感且对硫酸葡聚糖500相对不敏感的细胞机制。在易感品系中,早期保护性细胞机制对辐射有抗性且对硫酸葡聚糖500高度敏感。