Cytosolic sequestration of spatacsin by Protein Kinase A and 14-3-3 proteins

Mutations in SPG11, encoding spatacsin, constitute the major cause of autosomal recessive Hereditary Spastic Paraplegia (HSP) with thinning of the corpus callosum. Previous studies showed that spatacsin orchestrates cellular traffic events through the formation of a coat-like complex and its loss of...

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Published inNeurobiology of disease Vol. 174; p. 105858
Main Authors Cogo, Susanna, Tomkins, James E., Vavouraki, Nikoleta, Giusti, Veronica, Forcellato, Federica, Franchin, Cinzia, Tessari, Isabella, Arrigoni, Giorgio, Cendron, Laura, Manzoni, Claudia, Civiero, Laura, Lewis, Patrick A., Greggio, Elisa
Format Journal Article
LanguageEnglish
Published Elsevier Inc 01.11.2022
Elsevier
Subjects
14-3-3s
Hereditary spastic paraplegia (HSP)
Intracellular trafficking
Protein Kinase A (PKA)
Protein-protein interactions (PPI)
SPG11/Spatacsin
Protein Kinase A (PKA)
SPG11/Spatacsin
14-3-3s
Hereditary spastic paraplegia (HSP)
Protein-protein interactions (PPI)
Intracellular trafficking
Online AccessGet full text
ISSN0969-9961
1095-953X
1095-953X
DOI10.1016/j.nbd.2022.105858

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Abstract Mutations in SPG11, encoding spatacsin, constitute the major cause of autosomal recessive Hereditary Spastic Paraplegia (HSP) with thinning of the corpus callosum. Previous studies showed that spatacsin orchestrates cellular traffic events through the formation of a coat-like complex and its loss of function results in lysosomal and axonal transport impairments. However, the upstream mechanisms that regulate spatacsin trafficking are unknown. Here, using proteomics and CRISPR/Cas9-mediated tagging of endogenous spatacsin, we identified a subset of 14-3-3 proteins as physiological interactors of spatacsin. The interaction is modulated by Protein Kinase A (PKA)-dependent phosphorylation of spatacsin at Ser1955, which initiates spatacsin trafficking from the plasma membrane to the intracellular space. Our study provides novel insight in understanding spatacsin physio-pathological roles with mechanistic dissection of its associated pathways. [Display omitted] •Mutations in spatacsin can cause autosomal recessive Hereditary Spastic Paraplegia.•We identified a subset of 14-3-3 proteins as physiological interactors of spatacsin.•The interaction is modulated by PKA-dependent phosphorylation of spatacsin at Ser1955.•Phosphorylation induces spatacsin trafficking from the plasma membrane to the intracellular space.
AbstractList Mutations in SPG11, encoding spatacsin, constitute the major cause of autosomal recessive Hereditary Spastic Paraplegia (HSP) with thinning of the corpus callosum. Previous studies showed that spatacsin orchestrates cellular traffic events through the formation of a coat-like complex and its loss of function results in lysosomal and axonal transport impairments. However, the upstream mechanisms that regulate spatacsin trafficking are unknown. Here, using proteomics and CRISPR/Cas9-mediated tagging of endogenous spatacsin, we identified a subset of 14-3-3 proteins as physiological interactors of spatacsin. The interaction is modulated by Protein Kinase A (PKA)-dependent phosphorylation of spatacsin at Ser1955, which initiates spatacsin trafficking from the plasma membrane to the intracellular space. Our study provides novel insight in understanding spatacsin physio-pathological roles with mechanistic dissection of its associated pathways.
Mutations in SPG11, encoding spatacsin, constitute the major cause of autosomal recessive Hereditary Spastic Paraplegia (HSP) with thinning of the corpus callosum. Previous studies showed that spatacsin orchestrates cellular traffic events through the formation of a coat-like complex and its loss of function results in lysosomal and axonal transport impairments. However, the upstream mechanisms that regulate spatacsin trafficking are unknown. Here, using proteomics and CRISPR/Cas9-mediated tagging of endogenous spatacsin, we identified a subset of 14-3-3 proteins as physiological interactors of spatacsin. The interaction is modulated by Protein Kinase A (PKA)-dependent phosphorylation of spatacsin at Ser1955, which initiates spatacsin trafficking from the plasma membrane to the intracellular space. Our study provides novel insight in understanding spatacsin physio-pathological roles with mechanistic dissection of its associated pathways. [Display omitted] •Mutations in spatacsin can cause autosomal recessive Hereditary Spastic Paraplegia.•We identified a subset of 14-3-3 proteins as physiological interactors of spatacsin.•The interaction is modulated by PKA-dependent phosphorylation of spatacsin at Ser1955.•Phosphorylation induces spatacsin trafficking from the plasma membrane to the intracellular space.
Mutations in SPG11, encoding spatacsin, constitute the major cause of autosomal recessive Hereditary Spastic Paraplegia (HSP) with thinning of the corpus callosum. Previous studies showed that spatacsin orchestrates cellular traffic events through the formation of a coat-like complex and its loss of function results in lysosomal and axonal transport impairments. However, the upstream mechanisms that regulate spatacsin trafficking are unknown. Here, using proteomics and CRISPR/Cas9-mediated tagging of endogenous spatacsin, we identified a subset of 14-3-3 proteins as physiological interactors of spatacsin. The interaction is modulated by Protein Kinase A (PKA)-dependent phosphorylation of spatacsin at Ser1955, which initiates spatacsin trafficking from the plasma membrane to the intracellular space. Our study provides novel insight in understanding spatacsin physio-pathological roles with mechanistic dissection of its associated pathways.Mutations in SPG11, encoding spatacsin, constitute the major cause of autosomal recessive Hereditary Spastic Paraplegia (HSP) with thinning of the corpus callosum. Previous studies showed that spatacsin orchestrates cellular traffic events through the formation of a coat-like complex and its loss of function results in lysosomal and axonal transport impairments. However, the upstream mechanisms that regulate spatacsin trafficking are unknown. Here, using proteomics and CRISPR/Cas9-mediated tagging of endogenous spatacsin, we identified a subset of 14-3-3 proteins as physiological interactors of spatacsin. The interaction is modulated by Protein Kinase A (PKA)-dependent phosphorylation of spatacsin at Ser1955, which initiates spatacsin trafficking from the plasma membrane to the intracellular space. Our study provides novel insight in understanding spatacsin physio-pathological roles with mechanistic dissection of its associated pathways.
ArticleNumber 105858
Author Tomkins, James E.
Civiero, Laura
Lewis, Patrick A.
Cogo, Susanna
Arrigoni, Giorgio
Manzoni, Claudia
Giusti, Veronica
Tessari, Isabella
Cendron, Laura
Forcellato, Federica
Franchin, Cinzia
Vavouraki, Nikoleta
Greggio, Elisa
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  fullname: Greggio, Elisa
  email: elisa.greggio@unipd.it
  organization: Department of Biology, University of Padova, Padova, Italy
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Keywords Protein Kinase A (PKA)
SPG11/Spatacsin
14-3-3s
Hereditary spastic paraplegia (HSP)
Protein-protein interactions (PPI)
Intracellular trafficking
Language English
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Snippet Mutations in SPG11, encoding spatacsin, constitute the major cause of autosomal recessive Hereditary Spastic Paraplegia (HSP) with thinning of the corpus...
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StartPage 105858
SubjectTerms 14-3-3s
Hereditary spastic paraplegia (HSP)
Intracellular trafficking
Protein Kinase A (PKA)
Protein-protein interactions (PPI)
SPG11/Spatacsin
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Title Cytosolic sequestration of spatacsin by Protein Kinase A and 14-3-3 proteins
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