Young V B, Falkow S, Schoolnik G K
Department of Microbiology, Stanford University, California 94305.
J Cell Biol. 1992 Jan;116(1):197-207. doi: 10.1083/jcb.116.1.197.
Yersinia enterocolitica, a facultative intracellular pathogen of mammals, readily enters (i.e., invades) cultured eukaryotic cells, a process that can be conferred by the cloned inv locus of the species. We have studied the mechanism by which the product of inv, a microbial outer membrane protein termed "invasin," mediates the internalization of bacteria by HEp-2 cells and chicken embryo fibroblasts. Invasin-bearing bacteria initially bound the filopodia and the leading edges of cultured cells. Multiple points of contact between the bacterial surface and the surface of the cell ensued and led to the internalization of the bacterium within an endocytic vacuole; the same multi-step process could be induced by an inert particle coated with invasin-containing membranes. Both adherence and internalization were blocked by an antisera directed against the beta 1 integrin cell-adherence molecule. Ultrastructural studies of detergent-insoluble cytoskeletons from infected cells and immunofluorescence microscopy of phalloidin-labeled cells showed alterations in the structure of the cytoskeleton during the internalization process including the accumulation of polymerized actin around entering bacteria. Bacterial entry was prevented by cytochalasin D indicating that the internalization process requires actin microfilament function. Possible linkages between beta 1 containing integrins and the cytoskeleton were examined during the internalization process through the use of protein-specific antibodies and immunofluorescence microscopy. Like actin, the actin-associated proteins filamin, talin and the beta 1 integrin subunit were also found to accumulate around entering bacteria. These findings suggest that the invasin-mediated internalization process is associated with cytoskeletal reorganization.
小肠结肠炎耶尔森菌是哺乳动物的兼性胞内病原体,它很容易进入(即侵袭)培养的真核细胞,这一过程可由该菌种克隆的inv基因座赋予。我们研究了inv基因产物(一种称为“侵袭素”的微生物外膜蛋白)介导HEp - 2细胞和鸡胚成纤维细胞内化细菌的机制。携带侵袭素的细菌最初结合培养细胞的丝状伪足和前缘。细菌表面与细胞表面随后出现多个接触点,并导致细菌在内吞泡内内化;用含有侵袭素的膜包被的惰性颗粒可诱导相同的多步骤过程。抗β1整合素细胞黏附分子的抗血清可阻断黏附和内化。对感染细胞的去污剂不溶性细胞骨架的超微结构研究以及用鬼笔环肽标记细胞的免疫荧光显微镜检查显示,在内化过程中细胞骨架结构发生改变,包括在进入细菌周围聚合肌动蛋白的积累。细胞松弛素D可阻止细菌进入,表明内化过程需要肌动蛋白微丝功能。在内化过程中,通过使用蛋白质特异性抗体和免疫荧光显微镜检查,研究了含β1整合素与细胞骨架之间可能的联系。与肌动蛋白一样,肌动蛋白相关蛋白细丝蛋白、踝蛋白和β1整合素亚基也被发现聚集在进入的细菌周围。这些发现表明,侵袭素介导的内化过程与细胞骨架重组有关。