A direct role for SNX9 in the biogenesis of filopodia

Filopodia are finger-like actin-rich protrusions that extend from the cell surface and are important for cell–cell communication and pathogen internalization. The small size and transient nature of filopodia combined with shared usage of actin regulators within cells confounds attempts to identify f...

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Autores principales: Jarsch, Iris K., Gadsby, Jonathan R., Nuccitelli, Annalisa, Mason, Julia, Shimo, Hanae, Pilloux, Ludovic, Marzook, Bishara, Mulvey, Claire M., Dobramysl, Ulrich, Bradshaw, Charles R., Lilley, Kathryn S., Hayward, Richard D., Vaughan, Tristan J., Dobson, Claire L., Gallop, Jennifer L.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Rockefeller University Press 2020
Materias:
Report
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7147113/
https://www.ncbi.nlm.nih.gov/pubmed/32328641
http://dx.doi.org/10.1083/jcb.201909178
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author Jarsch, Iris K.
Gadsby, Jonathan R.
Nuccitelli, Annalisa
Mason, Julia
Shimo, Hanae
Pilloux, Ludovic
Marzook, Bishara
Mulvey, Claire M.
Dobramysl, Ulrich
Bradshaw, Charles R.
Lilley, Kathryn S.
Hayward, Richard D.
Vaughan, Tristan J.
Dobson, Claire L.
Gallop, Jennifer L.
author_facet Jarsch, Iris K.
Gadsby, Jonathan R.
Nuccitelli, Annalisa
Mason, Julia
Shimo, Hanae
Pilloux, Ludovic
Marzook, Bishara
Mulvey, Claire M.
Dobramysl, Ulrich
Bradshaw, Charles R.
Lilley, Kathryn S.
Hayward, Richard D.
Vaughan, Tristan J.
Dobson, Claire L.
Gallop, Jennifer L.
author_sort Jarsch, Iris K.
collection PubMed
description Filopodia are finger-like actin-rich protrusions that extend from the cell surface and are important for cell–cell communication and pathogen internalization. The small size and transient nature of filopodia combined with shared usage of actin regulators within cells confounds attempts to identify filopodial proteins. Here, we used phage display phenotypic screening to isolate antibodies that alter the actin morphology of filopodia-like structures (FLS) in vitro. We found that all of the antibodies that cause shorter FLS interact with SNX9, an actin regulator that binds phosphoinositides during endocytosis and at invadopodia. In cells, we discover SNX9 at specialized filopodia in Xenopus development and that SNX9 is an endogenous component of filopodia that are hijacked by Chlamydia entry. We show the use of antibody technology to identify proteins used in filopodia-like structures, and a role for SNX9 in filopodia.
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spelling pubmed-71471132020-04-14 A direct role for SNX9 in the biogenesis of filopodia Jarsch, Iris K. Gadsby, Jonathan R. Nuccitelli, Annalisa Mason, Julia Shimo, Hanae Pilloux, Ludovic Marzook, Bishara Mulvey, Claire M. Dobramysl, Ulrich Bradshaw, Charles R. Lilley, Kathryn S. Hayward, Richard D. Vaughan, Tristan J. Dobson, Claire L. Gallop, Jennifer L. J Cell Biol Report Filopodia are finger-like actin-rich protrusions that extend from the cell surface and are important for cell–cell communication and pathogen internalization. The small size and transient nature of filopodia combined with shared usage of actin regulators within cells confounds attempts to identify filopodial proteins. Here, we used phage display phenotypic screening to isolate antibodies that alter the actin morphology of filopodia-like structures (FLS) in vitro. We found that all of the antibodies that cause shorter FLS interact with SNX9, an actin regulator that binds phosphoinositides during endocytosis and at invadopodia. In cells, we discover SNX9 at specialized filopodia in Xenopus development and that SNX9 is an endogenous component of filopodia that are hijacked by Chlamydia entry. We show the use of antibody technology to identify proteins used in filopodia-like structures, and a role for SNX9 in filopodia. Rockefeller University Press 2020-03-25 /pmc/articles/PMC7147113/ /pubmed/32328641 http://dx.doi.org/10.1083/jcb.201909178 Text en © 2020 Jarsch et al. https://creativecommons.org/licenses/by/4.0/This article is available under a Creative Commons License (Attribution 4.0 International, as described at https://creativecommons.org/licenses/by/4.0/).
spellingShingle Report
Jarsch, Iris K.
Gadsby, Jonathan R.
Nuccitelli, Annalisa
Mason, Julia
Shimo, Hanae
Pilloux, Ludovic
Marzook, Bishara
Mulvey, Claire M.
Dobramysl, Ulrich
Bradshaw, Charles R.
Lilley, Kathryn S.
Hayward, Richard D.
Vaughan, Tristan J.
Dobson, Claire L.
Gallop, Jennifer L.
A direct role for SNX9 in the biogenesis of filopodia
title A direct role for SNX9 in the biogenesis of filopodia
title_full A direct role for SNX9 in the biogenesis of filopodia
title_fullStr A direct role for SNX9 in the biogenesis of filopodia
title_full_unstemmed A direct role for SNX9 in the biogenesis of filopodia
title_short A direct role for SNX9 in the biogenesis of filopodia
title_sort direct role for snx9 in the biogenesis of filopodia
topic Report
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7147113/
https://www.ncbi.nlm.nih.gov/pubmed/32328641
http://dx.doi.org/10.1083/jcb.201909178
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