Impact of N-Terminal Tags on De Novo Vimentin Intermediate Filament Assembly

Usman, Saima; Aldehlawi, Hebah; Nguyen, Thuan Khanh Ngoc; Teh, Muy-Teck; Waseem, Ahmad

doi:10.3390/ijms23116349

Cited by 9 publications

(10 citation statements)

References 96 publications

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“…Although it is not clear how Liu and co-workers observed the effect of vimentin at individual cell level [4], it could be due to the tag used in their study. In this regard, we have recently shown that the N-terminally tagged vimentin only forms aggregates that align along intercellular junctions in an epithelial colony, and although the tagged vimentin integrates into the pre-existing network, the laments were found to be weaker [33].…”

Section: Discussionmentioning

confidence: 99%

“…The full-length human vimentin cDNA was sub-cloned in pLPChygro as described previously [33]. The constructs were named pLPChygro-FV (full-length vimentin) and pLPChygro-CV (control vector).…”

Section: Plasmid Constructs Cdna Cloning Retrovirus Production and Sp...mentioning

confidence: 99%

“…When 70-80% con uent, cells were washed twice with PBS and lysed using 250 µl/well Laemmli lysis buffer (2% sodium dodecyl sulphate (SDS), 20% glycerol, 125 mM Tris-HCl, pH 6.8). SDS gel electrophoresis and western blotting were performed as described previously [37]. ECL prime detection reagent (cat # PRN2232, GE Healthcare, UK) and ChemiDoc (BioRad, UK) were used to visualise protein bands.…”

Section: Protein Extraction and Western Blottingmentioning

confidence: 99%

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Transcriptome analysis reveals vimentin-induced downregulation of cell-cell associations augments cancer cell migration

Usman

Jamal

Bushaala

et al. 2022

Preprint

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Background Vimentin is a type III intermediate filament (IF) protein, whose expression correlates with advanced metastatic cancer, reduced patient survival and poor prognosis across many cancers. During EMT-induced metastasis when vimentin begins to express, the epithelial characteristics are lost, and cell motility is augmented. The molecular bases for these changes are not well defined. Methods Ectopic expression of vimentin was carried in MCF-7 using spinfection of retroviruses. shRNA was used to knockdown vimentin in vimentin overexpressing MCF-7 and MDM-MB-231 cells, which express vimentin endogenously. The transcriptome profiling was carried out by RNA-Seq and validated by qPCR. Protein expression was measured by western blotting. Effect of vimentin on MCF-7 was determined by cell proliferation, migration and adhesion assays. Results Vimentin expression elicited a change in cell shape by significantly decreasing major axis, major axis angle and increasing cell migration, with no change in cell proliferation. Vimentin suppresses expression of major keratin genes KRT18, KRT19 and KRT8. Transcriptome-coupled GO and KEGG analyses revealed that vimentin-affected genes were linked to either cell-cell/cell-ECM or cell cycle/proliferation specific pathways. Using shRNA mediated downregulation of vimentin in two cell types; MCF-7FV (ectopically expressing vimentin) and MDA-MB-231 (endogenously expressing vimentin), we identified 13 vimentin-responsive protein encoding genes common in both approaches and two long non-coding RNAs, LINC00052 and C15ORF9-AS1. Eight of these gene products CDH5, AXL, PTPRM, TGFBI, CDH10, FOXM1, BCL2 and NES were associated with cell-cell and cell-ECM interactions, E2F1, FOXM1 and CDC45 were in the cell proliferation group and the rest FSD1, BCL2, KIF26A and WISP2 were outside the two groups. Interestingly, downregulation of CDH5 significantly increased MCF-7 cell migration. Furthermore, vimentin expression in MCF-7 reduced nuclear area, altered expression of lamins, which was mostly reversed after its downregulation. Conclusion Collectively, we demonstrate, for the first time, that vimentin expression in cancer cells downregulates genes maintaining cell-cell junctions resulting in increased cell migration. Furthermore, this is the first report linking vimentin expression with LINC00052, which is dysregulated in many cancers.

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Section: Discussionmentioning

confidence: 99%

Section: Plasmid Constructs Cdna Cloning Retrovirus Production and Sp...mentioning

confidence: 99%

Section: Protein Extraction and Western Blottingmentioning

confidence: 99%

See 1 more Smart Citation

Transcriptome analysis reveals vimentin-induced downregulation of cell-cell associations augments cancer cell migration

Usman

Jamal

Bushaala

et al. 2022

Preprint

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“…When 70–80% confluent, cells were washed twice with PBS and lysed using 250 μL/well Laemmli lysis buffer (2% sodium dodecyl sulphate (SDS), 20% glycerol, 125 mM Tris-HCl, pH 6.8). SDS gel electrophoresis and Western blotting were performed as described previously [ 55 ]. ECL prime detection reagent (Cat # PRN2232, GE Healthcare, Lisburn, UK) and ChemiDoc (BioRad, Watford, UK) were used to visualise protein bands.…”

Section: Methodsmentioning

confidence: 99%

“…The full-length human vimentin cDNA was sub-cloned into pLPChygro as described previously [ 55 ]. The constructs were named pLPChygro-FV (full-length vimentin) and pLPChygro-CV (control vector) .…”

Section: Methodsmentioning

confidence: 99%

Transcriptome Analysis Reveals Vimentin-Induced Disruption of Cell–Cell Associations Augments Breast Cancer Cell Migration

Usman

Jamal

Bushaala

et al. 2022

Cells

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In advanced metastatic cancers with reduced patient survival and poor prognosis, expression of vimentin, a type III intermediate filament protein is frequently observed. Vimentin appears to suppress epithelial characteristics and augments cell migration but the molecular basis for these changes is not well understood. Here, we have ectopically expressed vimentin in MCF-7 and investigated its genomic and functional implications. Vimentin changed the cell shape by decreasing major axis, major axis angle and increased cell migration, without affecting proliferation. Vimentin downregulated major keratin genes KRT8, KRT18 and KRT19. Transcriptome-coupled GO and KEGG analyses revealed that vimentin-affected genes were linked to either cell–cell/cell-ECM or cell cycle/proliferation specific pathways. Using shRNA mediated knockdown of vimentin in two cell types; MCF-7FV (ectopically expressing) and MDA-MB-231 (endogenously expressing), we identified a vimentin-specific signature consisting of 13 protein encoding genes (CDH5, AXL, PTPRM, TGFBI, CDH10, NES, E2F1, FOXM1, CDC45, FSD1, BCL2, KIF26A and WISP2) and two long non-coding RNAs, LINC00052 and C15ORF9-AS1. CDH5, an endothelial cadherin, which mediates cell–cell junctions, was the most downregulated protein encoding gene. Interestingly, downregulation of CDH5 by shRNA significantly increased cell migration confirming our RNA-Seq data. Furthermore, presence of vimentin altered the lamin expression in MCF-7. Collectively, we demonstrate, for the first time, that vimentin in breast cancer cells could change nuclear architecture by affecting lamin expression, which downregulates genes maintaining cell–cell junctions resulting in increased cell migration.

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Effects of truncations in the N‐ and C‐terminal domains of filensin on filament formation with phakinin in cell‐free conditions and cultured cells

Tashiro,

Nakamura,

Kuratani

et al. 2023

FEBS Open Bio

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Filensin and phakinin are lens fiber cell‐specific proteins that constitute the beaded filaments that are critical for maintaining lens transparency. In the Shumiya cataract rat, filensin 94 kDa undergoes N‐ and C‐terminal proteolytic processing to give a transient 50 kDa fragment and a final 38 kDa fragment, just before opacification. To characterize effects of this processing on filensin function, recombinant proteins representing the two filensin fragments, termed Fil(30‐416) and Fil(30‐369), respectively, were examined. Fil(30‐416) lacks the N‐terminal 29 amino acids and the C‐terminal 248 amino acids. Fil(30‐369) lacks the N‐terminal 29 residues and the C‐terminal 295 residues. In cell‐free assembly characterized by electron microscopy, filensin and Fil(30‐416) co‐polymerized with phakinin and formed rugged, entangled filaments, whereas Fil(30‐369) formed only aggregates. In cultured SW‐13 and MCF‐7 cells expressing fluorescent fusion proteins, filensin and Fil(30‐416) co‐polymerized with phakinin and formed cytoplasmic sinuous filaments with different widths, while Fil(30‐369) gave aggregates. Therefore, while truncation of the N‐terminal 29 amino acids did not affect filament formation, truncation of the C‐terminal 295 but not the 248 residues resulted in failure of filament formation. These results indicate that the tail B region (residues 370–416) of rat filensin is essential for filament formation with phakinin. Truncation of the tail B region by proteolytic processing in the cataract rat lens might interfere with beaded filament formation and thereby contribute to opacification.

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Impact of N-Terminal Tags on De Novo Vimentin Intermediate Filament Assembly

Cited by 9 publications

References 96 publications

Transcriptome analysis reveals vimentin-induced downregulation of cell-cell associations augments cancer cell migration

Transcriptome analysis reveals vimentin-induced downregulation of cell-cell associations augments cancer cell migration

Transcriptome Analysis Reveals Vimentin-Induced Disruption of Cell–Cell Associations Augments Breast Cancer Cell Migration

Effects of truncations in the N‐ and C‐terminal domains of filensin on filament formation with phakinin in cell‐free conditions and cultured cells

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