Phytaspase Does Not Require Proteolytic Activity for Its Stress-Induced Internalization

Phytaspases differ from other members of the plant subtilisin-like protease family by having rare aspartate cleavage specificity and unusual localization dynamics. Phytaspases are secreted from healthy plant cells but are re-internalized upon perception of death-inducing stresses. Although proteolyt...

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Published in	International journal of molecular sciences Vol. 25; no. 12; p. 6729
Main Authors	Torosian, Tatevik A, Barsukova, Anastasia I, Chichkova, Nina V, Vartapetian, Andrey B
Format	Journal Article
Language	English
Published	Switzerland MDPI AG 19.06.2024 MDPI
Subjects	Aprotinin endocytosis Endoplasmic reticulum Enzymes Ethylenediaminetetraacetic acid Leaves Localization Nicotiana - metabolism Oxidative Stress Peptides phytaspase plant cell Plant Leaves - metabolism Plant Proteins - genetics Plant Proteins - metabolism Plasmids prodomain Proteases protein trafficking Protein Transport Proteins Proteolysis Stress, Physiological Subtilisins - genetics Subtilisins - metabolism subtilisin-like protease protein trafficking plant cell phytaspase endocytosis proteolytic activity oxidative stress prodomain
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Abstract	Phytaspases differ from other members of the plant subtilisin-like protease family by having rare aspartate cleavage specificity and unusual localization dynamics. Phytaspases are secreted from healthy plant cells but are re-internalized upon perception of death-inducing stresses. Although proteolytic activity is required for the secretion of plant subtilases, its requirement for the retrograde transportation of phytaspases is currently unknown. To address this issue, we employed an approach to complement in trans the externalization of a prodomain-less form of phytaspase ( Phyt) with the free prodomain in leaf cells. Using this approach, the generation of the proteolytically active Phyt and its transport to the extracellular space at a level comparable to that of the native Phyt (synthesized as a canonical prodomain-containing precursor protein) were achieved. The application of this methodology to Phyt with a mutated catalytic Ser537 residue resulted in the secretion of the inactive, although processed (prodomain-free), protein as well. Notably, the externalized Phyt Ser537Ala mutant was still capable of retrograde transportation into plant cells upon the induction of oxidative stress. Our data thus indicate that the proteolytic activity of Phyt is dispensable for stress-induced retrograde transport of the enzyme.
AbstractList	Phytaspases differ from other members of the plant subtilisin-like protease family by having rare aspartate cleavage specificity and unusual localization dynamics. Phytaspases are secreted from healthy plant cells but are re-internalized upon perception of death-inducing stresses. Although proteolytic activity is required for the secretion of plant subtilases, its requirement for the retrograde transportation of phytaspases is currently unknown. To address this issue, we employed an approach to complement in trans the externalization of a prodomain-less form of Nicotiana tabacum phytaspase (NtPhyt) with the free prodomain in Nicotiana benthamiana leaf cells. Using this approach, the generation of the proteolytically active NtPhyt and its transport to the extracellular space at a level comparable to that of the native NtPhyt (synthesized as a canonical prodomain-containing precursor protein) were achieved. The application of this methodology to NtPhyt with a mutated catalytic Ser537 residue resulted in the secretion of the inactive, although processed (prodomain-free), protein as well. Notably, the externalized NtPhyt Ser537Ala mutant was still capable of retrograde transportation into plant cells upon the induction of oxidative stress. Our data thus indicate that the proteolytic activity of NtPhyt is dispensable for stress-induced retrograde transport of the enzyme. Phytaspases differ from other members of the plant subtilisin-like protease family by having rare aspartate cleavage specificity and unusual localization dynamics. Phytaspases are secreted from healthy plant cells but are re-internalized upon perception of death-inducing stresses. Although proteolytic activity is required for the secretion of plant subtilases, its requirement for the retrograde transportation of phytaspases is currently unknown. To address this issue, we employed an approach to complement in trans the externalization of a prodomain-less form of Nicotiana tabacum phytaspase ( Nt Phyt) with the free prodomain in Nicotiana benthamiana leaf cells. Using this approach, the generation of the proteolytically active Nt Phyt and its transport to the extracellular space at a level comparable to that of the native Nt Phyt (synthesized as a canonical prodomain-containing precursor protein) were achieved. The application of this methodology to Nt Phyt with a mutated catalytic Ser537 residue resulted in the secretion of the inactive, although processed (prodomain-free), protein as well. Notably, the externalized Nt Phyt Ser537Ala mutant was still capable of retrograde transportation into plant cells upon the induction of oxidative stress. Our data thus indicate that the proteolytic activity of Nt Phyt is dispensable for stress-induced retrograde transport of the enzyme. Phytaspases differ from other members of the plant subtilisin-like protease family by having rare aspartate cleavage specificity and unusual localization dynamics. Phytaspases are secreted from healthy plant cells but are re-internalized upon perception of death-inducing stresses. Although proteolytic activity is required for the secretion of plant subtilases, its requirement for the retrograde transportation of phytaspases is currently unknown. To address this issue, we employed an approach to complement in trans the externalization of a prodomain-less form of Nicotiana tabacum phytaspase (NtPhyt) with the free prodomain in Nicotiana benthamiana leaf cells. Using this approach, the generation of the proteolytically active NtPhyt and its transport to the extracellular space at a level comparable to that of the native NtPhyt (synthesized as a canonical prodomain-containing precursor protein) were achieved. The application of this methodology to NtPhyt with a mutated catalytic Ser537 residue resulted in the secretion of the inactive, although processed (prodomain-free), protein as well. Notably, the externalized NtPhyt Ser537Ala mutant was still capable of retrograde transportation into plant cells upon the induction of oxidative stress. Our data thus indicate that the proteolytic activity of NtPhyt is dispensable for stress-induced retrograde transport of the enzyme.Phytaspases differ from other members of the plant subtilisin-like protease family by having rare aspartate cleavage specificity and unusual localization dynamics. Phytaspases are secreted from healthy plant cells but are re-internalized upon perception of death-inducing stresses. Although proteolytic activity is required for the secretion of plant subtilases, its requirement for the retrograde transportation of phytaspases is currently unknown. To address this issue, we employed an approach to complement in trans the externalization of a prodomain-less form of Nicotiana tabacum phytaspase (NtPhyt) with the free prodomain in Nicotiana benthamiana leaf cells. Using this approach, the generation of the proteolytically active NtPhyt and its transport to the extracellular space at a level comparable to that of the native NtPhyt (synthesized as a canonical prodomain-containing precursor protein) were achieved. The application of this methodology to NtPhyt with a mutated catalytic Ser537 residue resulted in the secretion of the inactive, although processed (prodomain-free), protein as well. Notably, the externalized NtPhyt Ser537Ala mutant was still capable of retrograde transportation into plant cells upon the induction of oxidative stress. Our data thus indicate that the proteolytic activity of NtPhyt is dispensable for stress-induced retrograde transport of the enzyme. Phytaspases differ from other members of the plant subtilisin-like protease family by having rare aspartate cleavage specificity and unusual localization dynamics. Phytaspases are secreted from healthy plant cells but are re-internalized upon perception of death-inducing stresses. Although proteolytic activity is required for the secretion of plant subtilases, its requirement for the retrograde transportation of phytaspases is currently unknown. To address this issue, we employed an approach to complement in trans the externalization of a prodomain-less form of phytaspase ( Phyt) with the free prodomain in leaf cells. Using this approach, the generation of the proteolytically active Phyt and its transport to the extracellular space at a level comparable to that of the native Phyt (synthesized as a canonical prodomain-containing precursor protein) were achieved. The application of this methodology to Phyt with a mutated catalytic Ser537 residue resulted in the secretion of the inactive, although processed (prodomain-free), protein as well. Notably, the externalized Phyt Ser537Ala mutant was still capable of retrograde transportation into plant cells upon the induction of oxidative stress. Our data thus indicate that the proteolytic activity of Phyt is dispensable for stress-induced retrograde transport of the enzyme.
Audience	Academic
Author	Vartapetian, Andrey B Torosian, Tatevik A Chichkova, Nina V Barsukova, Anastasia I
AuthorAffiliation	2 Belozersky Institute of Physico-Chemical Biology, Lomonosov Moscow State University, Moscow 199991, Russia; chic@belozersky.msu.ru 1 Faculty of Bioengineering and Bioinformatics, Lomonosov Moscow State University, Moscow 199991, Russia; tatoshik312@gmail.com (T.A.T.); nastiabarsukova@gmail.com (A.I.B.)
AuthorAffiliation_xml	– name: 2 Belozersky Institute of Physico-Chemical Biology, Lomonosov Moscow State University, Moscow 199991, Russia; chic@belozersky.msu.ru – name: 1 Faculty of Bioengineering and Bioinformatics, Lomonosov Moscow State University, Moscow 199991, Russia; tatoshik312@gmail.com (T.A.T.); nastiabarsukova@gmail.com (A.I.B.)
Author_xml	– sequence: 1 givenname: Tatevik A surname: Torosian fullname: Torosian, Tatevik A organization: Faculty of Bioengineering and Bioinformatics, Lomonosov Moscow State University, Moscow 199991, Russia – sequence: 2 givenname: Anastasia I orcidid: 0000-0002-3598-2695 surname: Barsukova fullname: Barsukova, Anastasia I organization: Faculty of Bioengineering and Bioinformatics, Lomonosov Moscow State University, Moscow 199991, Russia – sequence: 3 givenname: Nina V surname: Chichkova fullname: Chichkova, Nina V organization: Belozersky Institute of Physico-Chemical Biology, Lomonosov Moscow State University, Moscow 199991, Russia – sequence: 4 givenname: Andrey B orcidid: 0000-0003-2296-0929 surname: Vartapetian fullname: Vartapetian, Andrey B organization: Belozersky Institute of Physico-Chemical Biology, Lomonosov Moscow State University, Moscow 199991, Russia
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Snippet	Phytaspases differ from other members of the plant subtilisin-like protease family by having rare aspartate cleavage specificity and unusual localization...
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SubjectTerms	Aprotinin endocytosis Endoplasmic reticulum Enzymes Ethylenediaminetetraacetic acid Leaves Localization Nicotiana - metabolism Oxidative Stress Peptides phytaspase plant cell Plant Leaves - metabolism Plant Proteins - genetics Plant Proteins - metabolism Plasmids prodomain Proteases protein trafficking Protein Transport Proteins Proteolysis Stress, Physiological Subtilisins - genetics Subtilisins - metabolism
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Title	Phytaspase Does Not Require Proteolytic Activity for Its Stress-Induced Internalization
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