利用共内吞测定法在胞吞作用期间对 LDL 受体寡聚化进行成像。
Imaging LDL receptor oligomerization during endocytosis using a co-internalization assay.
出版信息
ACS Chem Biol. 2011 Apr 15;6(4):308-13. doi: 10.1021/cb100361k. Epub 2011 Jan 14.
Abstract
Methods to probe receptor oligomerization are useful to understand the molecular mechanisms of receptor signaling. Here we report a fluorescence imaging method to determine receptor oligomerization state in living cells during endocytic internalization. The wild-type receptor is co-expressed with an internalization-defective mutant, and the internalization kinetics of each are independently monitored. If the receptor internalizes as an oligomer, then the wild-type and mutant isoforms will mutually influence each others' trafficking properties, causing co-internalization of the mutant or co-retention of the wild-type at the cell surface. Using this approach, we found that the low density lipoprotein (LDL) receptor internalizes as an oligomer into cells, both in the presence and absence of LDL ligand. The internalization kinetics of the wild-type receptor are not changed by LDL binding. We also found that the oligomerization domain of the LDL receptor is located in its cytoplasmic tail.
摘要
探测受体寡聚化的方法有助于理解受体信号转导的分子机制。本文报道了一种荧光成像方法,用于在受体内化的胞内吞过程中测定活细胞中受体的寡聚化状态。野生型受体与一个内化缺陷型突变体共表达,可独立监测它们各自的内化动力学。如果受体作为寡聚体内化,那么野生型和突变型同工型将相互影响彼此的转运特性,导致突变体共内化或野生型在细胞表面共保留。使用这种方法,我们发现 LDL 受体在 LDL 配体存在或不存在的情况下均以寡聚体形式进入细胞内,而 LDL 受体的内化动力学不受 LDL 结合的影响。我们还发现 LDL 受体的寡聚化结构域位于其细胞质尾部。
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