Jingze Zang scite author profile

The Arabidopsis EH proteins (AtEH1/Pan1 and AtEH2/Pan1) are components of the endocytic TPLATE complex (TPC) which is essential for endocytosis. Both proteins are homologues of the yeast ARP2/3 complex activator, Pan1p. Here, we show that these proteins are also involved in actin cytoskeleton regulated autophagy. Both AtEH/Pan1 proteins localise to the plasma membrane and autophagosomes. Upon induction of autophagy, AtEH/Pan1 proteins recruit TPC and AP-2 subunits, clathrin, actin and ARP2/3 proteins to autophagosomes. Increased expression of AtEH/Pan1 proteins boosts autophagosome formation, suggesting independent and redundant pathways for actin-mediated autophagy in plants. Moreover, AtEHs/Pan1-regulated autophagosomes associate with ER-PM contact sites (EPCS) where AtEH1/Pan1 interacts with VAP27-1. Knock-down expression of either AtEH1/Pan1 or VAP27-1 makes plants more susceptible to nutrient depleted conditions, indicating that the autophagy pathway is perturbed. In conclusion, we identify the existence of an autophagy-dependent pathway in plants to degrade endocytic components, starting at the EPCS through the interaction among AtEH/Pan1, actin cytoskeleton and the EPCS resident protein VAP27-1.

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A novel plant actin-microtubule bridging complex regulates cytoskeletal and ER structure at ER-PM contact sites

Zang

Klemm

Pain

et al. 2021

Current Biology

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The Morphological Diversity of Plant Organs: Manipulating the Organization of Microtubules May Do the Trick

Bao¹,

Zang

et al. 2021

Front. Cell Dev. Biol.

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Keep in contact: multiple roles of endoplasmic reticulum–membrane contact sites and the organelle interaction network in plants

et al. 2023

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482 I. Introduction 482 II. The discovery of ER-PM contact sites in plants 483 III. ER morphogenesis and dynamics 485 IV. ER-PM contact sites and the cytoskeleton 486 V. The biological relevance of plant ER-PM contact sites 488 VI. The VAP27 proteins lead the dance at multiple MCS 492 VII. Interpreting protein function at ER-MCS: the caveats and a suggestion 492 VIII. Conclusions 494 Acknowledgements 494 References 494

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Light microscopy of the endoplasmic reticulum–membrane contact sites in plants

Zang

Zhang

Hussey

et al. 2020

Journal of Microscopy

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The existence of membrane contact sites (MCS) has been reported in different systems in the past decade, and their importance has been recognised by the cell biology community. Amongst all endomembrane structures, the endoplasmic reticulum (ER) plays vital roles in organising the organelle interaction network with the plasma membrane (PM), Golgi bodies, mitochondria, plastids, endosomes and autophagosomes. A number of methods have been used to study the establishment and functions of these interactions, among them, light microscopy appears to be one of the most effective approaches. Here, we present an overview of the discovery of ER-PM contact sites, and highlight the latest developments in light microscopical-based techniques that can be used for their study.

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The microtubule-associated protein SlMAP70 interacts with SlIQD21 and regulates fruit shape formation in tomato

Bao

Guo

Deng

et al. 2022

Preprint

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The shape of tomato fruits is closely correlated to microtubule organization and the activity of microtubule associated proteins (MAP), but insights into the mechanism from a cell biology perspective are still largely elusive. Analysis of tissue expression profiles of different microtubule regulators revealed that functionally distinct classes of MAPs are highly expressed during fruit development. Among these, several members of the plant-specific MAP70 family are preferably expressed at the initiation stage of fruit development. Transgenic tomato lines overexpressing SlMAP70 produced elongated fruits that show reduced cell circularity and microtubule anisotropy, while SlMAP70 loss-of-function mutant showed an opposite effect with flatter fruits. Microtubule anisotropy of fruit endodermis cells exhibited dramatic rearrangement during tomato fruit development, and SlMAP70-1 is likely implicated in cortical microtubule organization and fruit elongation throughout this stage by interacting with SUN10/SlIQD21a. The expression of SlMAP70 (or co-expression of SlMAP70 and SUN10/SlIQD21a) induces microtubule stabilization and prevents its dynamic rearrangement, both activities are essential for fruit shape establishment after anthesis. Together, our results identify SlMAP70 as a novel regulator of fruit elongation, and demonstrate that manipulating microtubule stability and organization at the early fruit developmental stage has a strong impact on fruit shape.

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Plant cytoskeletons and the endoplasmic reticulum network organization

Zang

Kriechbaumer

Wang

2021

Journal of Plant Physiology

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A Novel Plant Actin-Microtubule Bridging Complex Regulates Cytoskeletal and ER Structure at Endoplasmic Reticulum-Plasma Membrane Contact Sites (EPCS)

et al. 2020

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Jingze Zang

Plant AtEH/Pan1 proteins drive autophagosome formation at ER-PM contact sites with actin and endocytic machinery

A novel plant actin-microtubule bridging complex regulates cytoskeletal and ER structure at ER-PM contact sites

The Morphological Diversity of Plant Organs: Manipulating the Organization of Microtubules May Do the Trick

Keep in contact: multiple roles of endoplasmic reticulum–membrane contact sites and the organelle interaction network in plants

Light microscopy of the endoplasmic reticulum–membrane contact sites in plants

The microtubule-associated protein SlMAP70 interacts with SlIQD21 and regulates fruit shape formation in tomato

Plant cytoskeletons and the endoplasmic reticulum network organization

A Novel Plant Actin-Microtubule Bridging Complex Regulates Cytoskeletal and ER Structure at Endoplasmic Reticulum-Plasma Membrane Contact Sites (EPCS)

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