Dual roles of AtNBR1 in regulating selective autophagy via liquid-liquid phase separation and recognition of non-ubiquitinated substrates in Arabidopsis.

He Yan, Ao Qi, Zhen Lu, Zhengtao You, Ziheng Wang, Haiying Tang, Xinghai Li, Qiao Xu, Xun Weng, Xiaojuan Du, Lifeng Zhao, Hao Wang
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Abstract

Selective macroautophagy/autophagy in metazoans involves the conserved receptors NBR1 and SQSTM1/p62. Both autophagy receptors manage ubiquitinated cargo recognition, while SQSTM1 has an additional, distinct role of facilitating liquid-liquid phase separation (LLPS) during autophagy. Given that plants lack SQSTM1, it is postulated that plant NBR1 may combine activities of both metazoan NBR1 and SQSTM1. However, the precise mechanism by which plant NBR1 recognizes non-ubiquitinated substrates and its ability to undergo LLPS during selective autophagy remain elusive. Here, we implicate both the ZZ-type zinc finger motif and the four-tryptophan domain of Arabidopsis NBR1 (AtNBR1) in the recognition of non-ubiquitinated cargo proteins. Additionally, we reveal that AtNBR1 indeed undergoes LLPS prior to ATG8-mediated autophagosome formation, crucial for heat stress resistance in Arabidopsis. Our findings unveil the dual roles of AtNBR1 in both cargo recognition and LLPS during plant autophagy and advance our understanding of NBR1-mediated autophagy in plants compared to metazoans.Abbreviations: ATG8: autophagy 8; Co-IP: co-immunoprecipitation; EXO70E2: exocyst subunit EXO70 family protein E2; FRAP: fluorescence recovery after photobleaching; FW domain: four-tryptophan domain; GFP: green fluorescent protein; HS: heat stress; LLPS: liquid-liquid phase separation; LIR: LC3-interacting region; NBR1: next to BRCA1 gene 1; PAS: phagophore assembly site; PB1 domain: Phox and Bem1 domain; RFP: red fluorescent protein; ROF1: rotamase FKBP 1; SARs: selective autophagy receptors; UBA domain: ubiquitin-associated domain; Y2H: yeast two-hybrid; ZZ domain: ZZ-type zinc finger motif domain.

拟南芥中AtNBR1通过液-液相分离和识别非泛素化底物在调节选择性自噬中的双重作用
元古动物的选择性大自噬/自噬涉及保守的受体 NBR1 和 SQSTM1/p62。这两种自噬受体都管理泛素化货物的识别,而 SQSTM1 还有一个独特的作用,即在自噬过程中促进液-液相分离(LLPS)。鉴于植物缺乏 SQSTM1,有人推测植物 NBR1 可能兼具了元动物 NBR1 和 SQSTM1 的活性。然而,植物 NBR1 识别非泛素化底物的确切机制及其在选择性自噬过程中进行 LLPS 的能力仍未确定。在这里,我们发现拟南芥 NBR1(AtNBR1)的 ZZ 型锌指基序和四色氨酸结构域都与识别非泛素化载体蛋白有关。此外,我们还揭示了 AtNBR1 在 ATG8 介导的自噬体形成之前确实经历了 LLPS,这对拟南芥抗热胁迫至关重要。我们的发现揭示了 AtNBR1 在植物自噬过程中识别货物和 LLPS 的双重作用,并加深了我们对 NBR1 介导的植物自噬的理解。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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