Nature Communications (Mar 2024)

Focal adhesions contain three specialized actin nanoscale layers

  • Reena Kumari,
  • Katharina Ven,
  • Megan Chastney,
  • Shrikant B. Kokate,
  • Johan Peränen,
  • Jesse Aaron,
  • Konstantin Kogan,
  • Leonardo Almeida-Souza,
  • Elena Kremneva,
  • Renaud Poincloux,
  • Teng-Leong Chew,
  • Peter W. Gunning,
  • Johanna Ivaska,
  • Pekka Lappalainen

DOI
https://doi.org/10.1038/s41467-024-46868-7
Journal volume & issue
Vol. 15, no. 1
pp. 1 – 20

Abstract

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Abstract Focal adhesions (FAs) connect inner workings of cell to the extracellular matrix to control cell adhesion, migration and mechanosensing. Previous studies demonstrated that FAs contain three vertical layers, which connect extracellular matrix to the cytoskeleton. By using super-resolution iPALM microscopy, we identify two additional nanoscale layers within FAs, specified by actin filaments bound to tropomyosin isoforms Tpm1.6 and Tpm3.2. The Tpm1.6-actin filaments, beneath the previously identified α-actinin cross-linked actin filaments, appear critical for adhesion maturation and controlled cell motility, whereas the adjacent Tpm3.2-actin filament layer beneath seems to facilitate adhesion disassembly. Mechanistically, Tpm3.2 stabilizes ACF-7/MACF1 and KANK-family proteins at adhesions, and hence targets microtubule plus-ends to FAs to catalyse their disassembly. Tpm3.2 depletion leads to disorganized microtubule network, abnormally stable FAs, and defects in tail retraction during migration. Thus, FAs are composed of distinct actin filament layers, and each may have specific roles in coupling adhesions to the cytoskeleton, or in controlling adhesion dynamics.