Steinman R M, Cohn Z A
J Cell Biol. 1972 Oct;55(1):186-204. doi: 10.1083/jcb.55.1.186.
The in vitro interaction of soluble horseradish peroxidase (HRP) with homogeneous mono layers of mouse macrophages has been studied using sensitive biochemical and cytochemical techniques. The compartmentalization of HRP in extracellular and intracellular sites has been quantitatively evaluated. A significant fraction is bound to a serum-derived layer, which coats the surface of culture vessels and may be removed by appropriate washes. Macrophages interiorize HRP as a solute in pinocytic vesicles without appreciable binding of the glycoprotein to the plasma membrane. Uptake is directly proportional to the concentration of HRP in the culture medium. 1 x 10(6) cells ingest 0.0025% of the administered load per hr over a wide range of concentrations. Cytochemically, all demonstrable HRP is sequestered within the endocytic vesicles and secondary lysosomes of the vacuolar apparatus. After uptake, the enzymatic activity of HRP is inactivated exponentially with a half-life of 7-9 hr, until enzyme is no longer detectable. When macrophages have pinocytosed trace-labeled HRP-(125)I, cell-associated isotope disappears with a t (1/2) of 20-30 hr and they release monoiodotyrosine-(125)I into the culture medium. We were unable to obtain evidence that significant amounts of HRP (>2%) can be exocytosed after uptake, can exist intact on the cell surface, or can be digested extracellularly. It is difficult to reconcile these observations with several of the postulated mechanisms whereby macrophages are thought to play a prominent role in the induction of an immune response.
已使用灵敏的生化和细胞化学技术研究了可溶性辣根过氧化物酶(HRP)与小鼠巨噬细胞均匀单层的体外相互作用。对HRP在细胞外和细胞内位点的区室化进行了定量评估。相当一部分与血清衍生层结合,该层覆盖培养容器表面,可通过适当洗涤去除。巨噬细胞将HRP作为溶质内化到胞饮小泡中,糖蛋白与质膜无明显结合。摄取量与培养基中HRP的浓度成正比。在很宽的浓度范围内,1×10⁶个细胞每小时摄取0.0025%的给药量。细胞化学上,所有可检测到的HRP都被隔离在液泡装置的内吞小泡和次级溶酶体内。摄取后,HRP的酶活性呈指数失活,半衰期为7 - 9小时,直至不再能检测到酶。当巨噬细胞胞饮微量标记的HRP -(¹²⁵)I时,细胞相关同位素以20 - 30小时的t(1/2)消失,并且它们将单碘酪氨酸 -(¹²⁵)I释放到培养基中。我们无法获得证据表明摄取后有大量HRP(>2%)可被胞吐、完整存在于细胞表面或在细胞外被消化。很难将这些观察结果与巨噬细胞被认为在免疫应答诱导中起重要作用的几种假设机制相协调。