Francois Iv scite author profile

Francois Iv

3Publications

90Citation Statements Received

744Citation Statements Given

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Centrale Marseille, Institut Fresnel

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Insights into animal septins using recombinant human septin octamers with distinct SEPT9 isoforms

Martins

Castro-Linares

et al. 2021

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Septin GTP-binding proteins contribute essential biological functions that range from the establishment of cell polarity to animal tissue morphogenesis. Human septins in cells form hetero-octameric septin complexes containing the ubiquitously expressed SEPT9. Despite the established role of SEPT9 in mammalian development and human pathophysiology, biochemical and biophysical studies have relied on monomeric SEPT9 thus not recapitulating its native assembly into hetero-octameric complexes. We established a protocol that enabled the first-time isolation of recombinant human septin octamers containing distinct SEPT9 isoforms. A combination of biochemical and biophysical assays confirmed the octameric nature of the isolated complexes in solution. Reconstitution studies showed that octamers with either a long or a short SEPT9 isoform form filament assemblies, and can directly bind and cross-link actin filaments, raising the possibility that septin-decorated actin structures in cells reflect direct actin-septin interactions. Recombinant SEPT9-containing octamers will make it possible to design cell-free assays to dissect the complex interactions of septins with cell membranes and the actin/microtubule cytoskeleton.

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Human septins organize as octamer-based filaments and mediate actin-membrane anchoring in cells

Martins

Taveneau

Castro-Linares

et al. 2022

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Septins are cytoskeletal proteins conserved from algae and protists to mammals. A unique feature of septins is their presence as heteromeric complexes that polymerize into filaments in solution and on lipid membranes. Although animal septins associate extensively with actin-based structures in cells, whether septins organize as filaments in cells and if septin organization impacts septin function is not known. Customizing a tripartite split-GFP complementation assay, we show that all septins decorating actin stress fibers are octamer-containing filaments. Depleting octamers or preventing septins from polymerizing leads to a loss of stress fibers and reduced cell stiffness. Super-resolution microscopy revealed septin fibers with widths compatible with their organization as paired septin filaments. Nanometer-resolved distance measurements and single-protein tracking further showed that septin filaments are membrane bound and largely immobilized. Finally, reconstitution assays showed that septin filaments mediate actin–membrane anchoring. We propose that septin organization as octamer-based filaments is essential for septin function in anchoring and stabilizing actin filaments at the plasma membrane.

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Human septins in cells organize as octamer-based filaments mediating actin-membrane anchoring

Martins

Taveneau

Castro-Linares

et al. 2022

Preprint

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Septins are cytoskeletal proteins conserved from algae and protists to mammals. Septin knock-out animals have established that septins are essential for animal physiology, but their molecular function remains elusive. A unique feature of septins is their presence as heteromeric complexes that polymerize into filaments in solution and on lipid membranes. Although animal septins associate extensively with actin-based structures in cells, whether actin-decorating septins organize as filaments and if septin organization impacts septin function is not known. Customizing a tripartite split-GFP complementation assay for probing the presence and composition of septin filaments in situ in cells, we show that all septins decorating actin stress fibers are present as filaments whose integrity depends on octameric septin protomers. Atomic force microscopy nanoindentation measurements on cells confirmed that cell stiffness depends on the presence of octamer-containing septin filaments. Super-resolution structured illumination microscopy revealed septin fibers with widths compatible with their organization as paired septin filaments. Nanometer-resolved distance measurements and single-protein tracking further showed that actin-associated septin filaments are membrane-bound and largely immobilized. Finally, reconstitution assays on supported lipid bilayers showed that septin filaments mediate actin-membrane anchoring. We propose that septin organization as octamer-based filaments is essential for septin function in anchoring and stabilizing actin fibers at the plasma membrane.

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Francois Iv

Insights into animal septins using recombinant human septin octamers with distinct SEPT9 isoforms

Human septins organize as octamer-based filaments and mediate actin-membrane anchoring in cells

Human septins in cells organize as octamer-based filaments mediating actin-membrane anchoring

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