PLoS ONE (Jan 2013)

Self-interaction of human Pex11pβ during peroxisomal growth and division.

  • Nina A Bonekamp,
  • Sandra Grille,
  • Maria Joao Cardoso,
  • Monica Almeida,
  • Miguel Aroso,
  • Silvia Gomes,
  • Ana Cristina Magalhaes,
  • Daniela Ribeiro,
  • Daniela Ribeiro,
  • Markus Islinger,
  • Michael Schrader

DOI
https://doi.org/10.1371/journal.pone.0053424
Journal volume & issue
Vol. 8, no. 1
p. e53424

Abstract

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Pex11 proteins are involved in membrane elongation and division processes associated with the multiplication of peroxisomes. Human Pex11pβ has recently been linked to a new disorder affecting peroxisome morphology and dynamics. Here, we have analyzed the exact membrane topology of Pex11pβ. Studies with an epitope-specific antibody and protease protection assays show that Pex11pβ is an integral membrane protein with two transmembrane domains flanking an internal region exposed to the peroxisomal matrix and N- and C-termini facing the cytosol. A glycine-rich internal region within Pex11pβ is dispensable for peroxisome membrane elongation and division. However, we demonstrate that an amphipathic helix (Helix 2) within the first N-terminal 40 amino acids is crucial for membrane elongation and self-interaction of Pex11pβ. Interestingly, we find that Pex11pβ self-interaction strongly depends on the detergent used for solubilization. We also show that N-terminal cysteines are not essential for membrane elongation, and that putative N-terminal phosphorylation sites are dispensable for Pex11pβ function. We propose that self-interaction of Pex11pβ regulates its membrane deforming activity in conjunction with membrane lipids.