A组链球菌致病性研究。II. M蛋白和荚膜凝胶的抗吞噬作用。
Studies on the pathogenicity of group A streptococci. II. The antiphagocytic effects of the M protein and the capsular gel.
作者信息
FOLEY M J, WOOD W B
出版信息
J Exp Med. 1959 Oct 1;110(4):617-28. doi: 10.1084/jem.110.4.617.
Abstract
A QUANTITATIVE STUDY OF THE COMBINED ANTIPHAGOCYTIC EFFECTS OF THE M PROTEIN AND THE HYALURONIC ACID CAPSULES OF FOUR STRAINS OF GROUP A STREPTOCOCCI REVEALED THE FOLLOWING FACTS RELATING TO THEIR INTRAPERITONEAL VIRULENCE IN MICE AND RATS
- The most virulent strain, S23M (matt), produced both a large hyaluronic acid capsule and a full complement of M protein, the combined effects of which rendered the organism highly resistant to surface phagocytosis. 2. The slightly less virulent strain, T14/46 (matt virulent) was somewhat more susceptible to surface phagocytosis owing to the fact that its smaller capsule was less antiphagocytic than that of the S23M organism. 3. The glossy variant of the S23 strain (S23G), which ranked third in virulence, was still more susceptible to surface phagocytosis because of its lack of detectable M substance. Its large hyaluronic acid capsule, however, was capable of protecting it against phagocytosis on glass. 4. The least virulent strain, T14 (matt avirulent), was the most susceptible of all to phagocytosis. Though it possessed both M substance and capsule, which together prevented its phagocytosis on glass, each of them was shown to be quantitatively and functionally deficient as compared to Strain S23M. The differences in phagocytability, which appear to be directly related to the pathogenicity of the organisms, could be adequately demonstrated in vitro only by phagocytic tests designed to measure surface phagocytosis in the absence of opsonins. This fact is in keeping with the observation, previously reported, that surface phagocytosis plays a critical role in the defense of the host, particularly during the earliest stages of experimental streptococcal infections. Its possible relation to suppuration during the later stages of infection is also discussed.
摘要
对四株A组链球菌的M蛋白和透明质酸荚膜联合抗吞噬作用的定量研究揭示了以下与它们在小鼠和大鼠体内腹腔毒性相关的事实:1. 毒性最强的菌株S23M(粗糙型)产生了大的透明质酸荚膜和完整的M蛋白,二者的联合作用使该菌对表面吞噬具有高度抗性。2. 毒性稍弱的菌株T14/46(粗糙型有毒)对表面吞噬更敏感一些,因为其较小的荚膜抗吞噬能力不如S23M菌。3. S23菌株的光滑变种(S23G),其毒性排名第三,由于缺乏可检测到的M物质,对表面吞噬更敏感。然而,其大的透明质酸荚膜能够保护它在玻璃上不被吞噬。4. 毒性最弱的菌株T14(粗糙型无毒)是所有菌株中最易被吞噬的。虽然它同时拥有M物质和荚膜,二者共同作用可防止其在玻璃上被吞噬,但与S23M菌株相比,它们在数量和功能上均有缺陷。吞噬能力的差异似乎与细菌的致病性直接相关,只有通过旨在测量无调理素时表面吞噬作用的吞噬试验才能在体外充分证明这一点。这一事实与先前报道的观察结果一致,即表面吞噬在宿主防御中起关键作用,尤其是在实验性链球菌感染的最早阶段。本文还讨论了其与感染后期化脓的可能关系。
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