| Literature DB >> 31239335 |
Lihong Wang1,2, Mengzhu Cheng1, Qing Yang1, Jigang Li3, Xiang Wang1, Qing Zhou2, Shingo Nagawa4,5, Binxin Xia2, Tongda Xu4,5, Rongfeng Huang4,5, Jingfang He1, Changjiang Li3, Ying Fu3, Ying Liu1, Jianchun Bao1, Haiyan Wei1, Hui Li5,6, Li Tan5, Zhenhong Gu5, Ao Xia1, Xiaohua Huang7, Zhenbiao Yang8,9, Xing Wang Deng10.
Abstract
Endocytosis is essential to all eukaryotes, but how cargoes are selected for internalization remains poorly characterized. Extracellular cargoes are thought to be selected by transmembrane receptors that bind intracellular adaptors proteins to initiate endocytosis. Here, we report a mechanism for clathrin-mediated endocytosis (CME) of extracellular lanthanum [La(III)] cargoes, which requires extracellular arabinogalactan proteins (AGPs) that are anchored on the outer face of the plasma membrane. AGPs were colocalized with La(III) on the cell surface and in La(III)-induced endocytic vesicles in Arabidopsis leaf cells. Superresolution imaging showed that La(III) triggered AGP movement across the plasma membrane. AGPs were then colocalized and physically associated with the μ subunit of the intracellular adaptor protein 2 (AP2) complexes. The AGP-AP2 interaction was independent of CME, whereas AGP's internalization required CME and AP2. Moreover, we show that AGP-dependent endocytosis in the presence of La(III) also occurred in human cells. These findings indicate that extracellular AGPs act as conserved CME cargo receptors, thus challenging the current paradigm about endocytosis of extracellular cargoes.Entities:
Keywords: arabinogalactan proteins; endocytosis; extracellular cargo; lanthanum; superresolution imaging
Year: 2019 PMID: 31239335 PMCID: PMC6628639 DOI: 10.1073/pnas.1902532116
Source DB: PubMed Journal: Proc Natl Acad Sci U S A ISSN: 0027-8424 Impact factor: 11.205