Arabidopsis metacaspase MC1 localizes in stress granules, clears protein aggregates, and delays senescence

Nerea Ruiz Solaní; Jose Salguero Linares; Laia Armengot; Jaime Santos; Irantzu Pallarès i Goitiz; Katarina P. van Midden; Ujjal Jyoti Phukan; Seda Koyuncu; Júlia Borràs-Bisa; Liang Li; Crina Popa; Frederik Eisele; Anna Maria Eisele-Bürger; Sandra Malgrem Hill; Emilio Gutiérrez-Beltrán; Thomas Nyström; Marc Valls; Ernesto Llamas; David Vilchez; Marina Klemenčič; Salvador Ventura; Núria Sánchez Coll

doi:10.1093/plcell/koad172

Arabidopsis metacaspase MC1 localizes in stress granules, clears protein aggregates, and delays senescence

Nerea Ruiz Solaní, Jose Salguero Linares, Laia Armengot, Jaime Santos, Irantzu Pallarès i Goitiz, Katarina P. van Midden, Ujjal Jyoti Phukan, Seda Koyuncu, Júlia Borràs-Bisa, Liang Li, Crina Popa, Frederik Eisele, Anna Maria Eisele-Bürger, Sandra Malgrem Hill, Emilio Gutiérrez-Beltrán, Thomas Nyström, Marc Valls, Ernesto Llamas, David Vilchez, Marina KlemenčičSalvador Ventura, Núria Sánchez Coll

Centre for Research in Agricultural Genomics (CRAG)

Research output: Contribution to journal › Article › Research › peer-review

13 Citations (Scopus)

Abstract

Stress granules (SGs) are highly conserved cytoplasmic condensates that assemble in response to stress and contribute to maintaining protein homeostasis. These membraneless organelles are dynamic, disassembling once the stress is no longer present. Persistence of SGs due to mutations or chronic stress has been often related to age-dependent protein-misfolding diseases in animals. Here, we find that the metacaspase MC1 is dynamically recruited into SGs upon proteotoxic stress in Arabidopsis (Arabidopsis thaliana). Two predicted disordered regions, the prodomain and the 360 loop, mediate MC1 recruitment to and release from SGs. Importantly, we show that MC1 has the capacity to clear toxic protein aggregates in vivo and in vitro, acting as a disaggregase. Finally, we demonstrate that overexpressing MC1 delays senescence and this phenotype is dependent on the presence of the 360 loop and an intact catalytic domain. Together, our data indicate that MC1 regulates senescence through its recruitment into SGs and this function could potentially be linked to its remarkable protein aggregate-clearing activity.

Original language	English
Pages (from-to)	3325-3344
Number of pages	20
Journal	Plant Cell
Volume	35
Issue number	9
Early online date	1 Jul 2023
DOIs	https://doi.org/10.1093/plcell/koad172
Publication status	Published - Sept 2023

Keywords

Crystal-structure
Degradation
Disease
Liquid phase-separation
Mechanism
Paracaspases
Processing bodies
Programmed cell-death
Rna
Transthyretin

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10.1093/plcell/koad172

https://ddd.uab.cat/record/283652

Cite this

Ruiz Solaní, N., Salguero Linares, J., Armengot, L., Santos, J., Pallarès i Goitiz, I., van Midden, K. P., Phukan, U. J., Koyuncu, S., Borràs-Bisa, J., Li, L., Popa, C., Eisele, F., Eisele-Bürger, A. M., Hill, S. M., Gutiérrez-Beltrán, E., Nyström, T., Valls, M., Llamas, E., Vilchez, D., ... Sánchez Coll, N. (2023). Arabidopsis metacaspase MC1 localizes in stress granules, clears protein aggregates, and delays senescence. Plant Cell, 35(9), 3325-3344. https://doi.org/10.1093/plcell/koad172

@article{6b02100bda5b4c9c86968c37045aa855,

title = "Arabidopsis metacaspase MC1 localizes in stress granules, clears protein aggregates, and delays senescence",

abstract = "Stress granules (SGs) are highly conserved cytoplasmic condensates that assemble in response to stress and contribute to maintaining protein homeostasis. These membraneless organelles are dynamic, disassembling once the stress is no longer present. Persistence of SGs due to mutations or chronic stress has been often related to age-dependent protein-misfolding diseases in animals. Here, we find that the metacaspase MC1 is dynamically recruited into SGs upon proteotoxic stress in Arabidopsis (Arabidopsis thaliana). Two predicted disordered regions, the prodomain and the 360 loop, mediate MC1 recruitment to and release from SGs. Importantly, we show that MC1 has the capacity to clear toxic protein aggregates in vivo and in vitro, acting as a disaggregase. Finally, we demonstrate that overexpressing MC1 delays senescence and this phenotype is dependent on the presence of the 360 loop and an intact catalytic domain. Together, our data indicate that MC1 regulates senescence through its recruitment into SGs and this function could potentially be linked to its remarkable protein aggregate-clearing activity.",

keywords = "Crystal-structure, Degradation, Disease, Liquid phase-separation, Mechanism, Paracaspases, Processing bodies, Programmed cell-death, Rna, Transthyretin",

author = "{Ruiz Solan{\'i}}, Nerea and {Salguero Linares}, Jose and Laia Armengot and Jaime Santos and {Pallar{\`e}s i Goitiz}, Irantzu and {van Midden}, {Katarina P.} and Phukan, {Ujjal Jyoti} and Seda Koyuncu and J{\'u}lia Borr{\`a}s-Bisa and Liang Li and Crina Popa and Frederik Eisele and Eisele-B{\"u}rger, {Anna Maria} and Hill, {Sandra Malgrem} and Emilio Guti{\'e}rrez-Beltr{\'a}n and Thomas Nystr{\"o}m and Marc Valls and Ernesto Llamas and David Vilchez and Marina Klemen{\v c}i{\v c} and Salvador Ventura and {S{\'a}nchez Coll}, N{\'u}ria",

note = "Publisher Copyright: {\textcopyright} 2023 The Author(s). Published by Oxford University Press on behalf of American Society of Plant Biologists.",

year = "2023",

month = sep,

doi = "10.1093/plcell/koad172",

language = "English",

volume = "35",

pages = "3325--3344",

journal = "Plant Cell",

issn = "1040-4651",

publisher = "American Society of Plant Biologists",

number = "9",

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Ruiz Solaní, N, Salguero Linares, J, Armengot, L, Santos, J, Pallarès i Goitiz, I, van Midden, KP, Phukan, UJ, Koyuncu, S, Borràs-Bisa, J, Li, L, Popa, C, Eisele, F, Eisele-Bürger, AM, Hill, SM, Gutiérrez-Beltrán, E, Nyström, T, Valls, M, Llamas, E, Vilchez, D, Klemenčič, M, Ventura, S & Sánchez Coll, N 2023, 'Arabidopsis metacaspase MC1 localizes in stress granules, clears protein aggregates, and delays senescence', Plant Cell, vol. 35, no. 9, pp. 3325-3344. https://doi.org/10.1093/plcell/koad172

TY - JOUR

T1 - Arabidopsis metacaspase MC1 localizes in stress granules, clears protein aggregates, and delays senescence

AU - Ruiz Solaní, Nerea

AU - Salguero Linares, Jose

AU - Armengot, Laia

AU - Santos, Jaime

AU - Pallarès i Goitiz, Irantzu

AU - van Midden, Katarina P.

AU - Phukan, Ujjal Jyoti

AU - Koyuncu, Seda

AU - Borràs-Bisa, Júlia

AU - Li, Liang

AU - Popa, Crina

AU - Eisele, Frederik

AU - Eisele-Bürger, Anna Maria

AU - Hill, Sandra Malgrem

AU - Gutiérrez-Beltrán, Emilio

AU - Nyström, Thomas

AU - Valls, Marc

AU - Llamas, Ernesto

AU - Vilchez, David

AU - Klemenčič, Marina

AU - Ventura, Salvador

AU - Sánchez Coll, Núria

PY - 2023/9

Y1 - 2023/9

N2 - Stress granules (SGs) are highly conserved cytoplasmic condensates that assemble in response to stress and contribute to maintaining protein homeostasis. These membraneless organelles are dynamic, disassembling once the stress is no longer present. Persistence of SGs due to mutations or chronic stress has been often related to age-dependent protein-misfolding diseases in animals. Here, we find that the metacaspase MC1 is dynamically recruited into SGs upon proteotoxic stress in Arabidopsis (Arabidopsis thaliana). Two predicted disordered regions, the prodomain and the 360 loop, mediate MC1 recruitment to and release from SGs. Importantly, we show that MC1 has the capacity to clear toxic protein aggregates in vivo and in vitro, acting as a disaggregase. Finally, we demonstrate that overexpressing MC1 delays senescence and this phenotype is dependent on the presence of the 360 loop and an intact catalytic domain. Together, our data indicate that MC1 regulates senescence through its recruitment into SGs and this function could potentially be linked to its remarkable protein aggregate-clearing activity.

AB - Stress granules (SGs) are highly conserved cytoplasmic condensates that assemble in response to stress and contribute to maintaining protein homeostasis. These membraneless organelles are dynamic, disassembling once the stress is no longer present. Persistence of SGs due to mutations or chronic stress has been often related to age-dependent protein-misfolding diseases in animals. Here, we find that the metacaspase MC1 is dynamically recruited into SGs upon proteotoxic stress in Arabidopsis (Arabidopsis thaliana). Two predicted disordered regions, the prodomain and the 360 loop, mediate MC1 recruitment to and release from SGs. Importantly, we show that MC1 has the capacity to clear toxic protein aggregates in vivo and in vitro, acting as a disaggregase. Finally, we demonstrate that overexpressing MC1 delays senescence and this phenotype is dependent on the presence of the 360 loop and an intact catalytic domain. Together, our data indicate that MC1 regulates senescence through its recruitment into SGs and this function could potentially be linked to its remarkable protein aggregate-clearing activity.

KW - Crystal-structure

KW - Degradation

KW - Disease

KW - Liquid phase-separation

KW - Mechanism

KW - Paracaspases

KW - Processing bodies

KW - Programmed cell-death

KW - Rna

KW - Transthyretin

UR - http://www.scopus.com/inward/record.url?scp=85169504504&partnerID=8YFLogxK

UR - https://www.mendeley.com/catalogue/8ef63271-13cb-377c-9123-4455a092d62d/

U2 - 10.1093/plcell/koad172

DO - 10.1093/plcell/koad172

M3 - Article

C2 - 37401663

SN - 1040-4651

VL - 35

SP - 3325

EP - 3344

JO - Plant Cell

JF - Plant Cell

IS - 9

ER -

Arabidopsis metacaspase MC1 localizes in stress granules, clears protein aggregates, and delays senescence

Abstract

Keywords

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PROTEIN AGGREGATION: BIOMEDICAL AND BIOTECHNOLOGICAL APPLICATIONS

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Arabidopsis metacaspase MC1 localizes in stress granules, clears protein aggregates, and delays senescence

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Keywords

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PROTEIN AGGREGATION: BIOMEDICAL AND BIOTECHNOLOGICAL APPLICATIONS

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