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DASC, a sensitive classifier for measuring discrete early stages in clathrin-mediated endocytosis

Xinxin Wang, Zhiming Chen, Marcel Mettlen, Jungsik Noh, Sandra L. Schmid, Gaudenz Danuser

2020eLife40 citationsDOIOpen Access PDF

Abstract

Clathrin-mediated endocytosis (CME) in mammalian cells is driven by resilient machinery that includes >70 endocytic accessory proteins (EAP). Accordingly, perturbation of individual EAPs often results in minor effects on biochemical measurements of CME, thus providing inconclusive/misleading information regarding EAP function. Live-cell imaging can detect earlier roles of EAPs preceding cargo internalization; however, this approach has been limited because unambiguously distinguishing abortive coats (ACs) from bona fide clathrin-coated pits (CCPs) is required but unaccomplished. Here, we develop a thermodynamics-inspired method, “disassembly asymmetry score classification (DASC)”, that resolves ACs from CCPs based on single channel fluorescent movies. After extensive verification, we use DASC-resolved ACs and CCPs to quantify CME progression in 11 EAP knockdown conditions. We show that DASC is a sensitive detector of phenotypic variation in CCP dynamics that is uncorrelated to the variation in biochemical measurements of CME. Thus, DASC is an essential tool for uncovering EAP function.

Topics & Concepts

EndocytosisClathrinClassifier (UML)Cell biologyBiologyComputer scienceArtificial intelligenceGeneticsReceptorCellular transport and secretionLipid Membrane Structure and BehaviorGlycosylation and Glycoproteins Research
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