Massachusetts General Hospital, Center for Systems Biology, Simches Research Bldg., Massachusetts General Hospital and Harvard Medical School, 185 Cambridge St., CPZN 8150, Boston, MA 02114, USA.
Am J Physiol Renal Physiol. 2011 Jan;300(1):F199-206. doi: 10.1152/ajprenal.00513.2010. Epub 2010 Oct 27.
Kidney proximal tubule (PT) cells are specialized for the uptake and transport of ions, solutes, peptides, and proteins. These functions are often regulated by hormones that signal at the cell surface and are internalized by clathrin-mediated endocytosis. However, the caveolin/caveolae pathway has also been implicated in normal PT function, often based on data from isolated PTs or PT cells in culture. Although we reported previously that caveolae and caveolin 1 are not detectable in PTs in vivo, reports of caveolin expression and function in PT cells appear periodically in the literature. Therefore, we reexamined caveolin expression in PTs in vivo, in isolated "purified" PTs following collagenase digestion, and in cultured PT cells. Caveolin 1 and 2 protein, mRNA, or immunofluorescence was undetectable in PTs in vivo, but PT cell cultures expressed caveolin 1 and/or 2. Furthermore, caveolin 1 and 2 mRNAs were detected in isolated PTs along with the endothelial markers CD31 and ICAM1. In contrast, no caveolin or endothelial marker mRNAs were detectable in samples isolated from snap-frozen kidneys by laser cut microdissection, which eliminates contamination by other cell types. We conclude 1) caveolin 1 and 2 are not normally expressed by PT cells in situ, 2) caveolin expression is "activated" in cultured PT cells, 3) contamination with non-PT, caveolin-expressing cells is a potential source of caveolin 1 and 2 that must be taken into account when isolated PTs are used in studies to correlate expression of these proteins with PT function.
肾近端小管 (PT) 细胞专门用于离子、溶质、肽和蛋白质的摄取和转运。这些功能通常受细胞表面信号的激素调节,并通过网格蛋白介导的内吞作用内化。然而,小窝/小窝途径也与正常 PT 功能有关,这通常基于分离的 PT 或培养的 PT 细胞的数据。尽管我们之前报道过 caveolin/caveolae 途径在体内 PT 中无法检测到,但有关 caveolin 在 PT 细胞中的表达和功能的报道在文献中时有出现。因此,我们重新检查了体内 PT 中 caveolin 的表达,以及胶原酶消化后分离的“纯化”PT 中和培养的 PT 细胞中的 caveolin 表达。在体内的 PT 中无法检测到 caveolin 1 和 2 蛋白、mRNA 或免疫荧光,但 PT 细胞培养物表达 caveolin 1 和/或 2。此外,在分离的 PT 中检测到 caveolin 1 和 2 mRNA,以及内皮标记物 CD31 和 ICAM1。相比之下,通过激光切割微切割从速冻肾脏中分离的样本中无法检测到 caveolin 或内皮标记物 mRNA,这消除了其他细胞类型的污染。我们得出结论:1)caveolin 1 和 2 通常不在原位的 PT 细胞中表达,2)caveolin 表达在培养的 PT 细胞中“激活”,3)在使用分离的 PT 进行研究以将这些蛋白质的表达与 PT 功能相关联时,必须考虑到与非 PT、caveolin 表达细胞的污染是 caveolin 1 和 2 的潜在来源。
