TY - JOUR
T1 - Phosphorylation of the receptor protein Pex5p modulates import of proteins into peroxisomes
AU - Fischer, Sven
AU - Buergi, Jerome
AU - Gabay-Maskit, Shiran
AU - Maier, Renate
AU - Mastalski, Thomas
AU - Yifrach, Eden
AU - Obarska-Kosinska, Agnieszka
AU - Rudowitz, Markus
AU - Erdmann, Ralf
AU - Platta, Harald W.
AU - Wilmanns, Matthias
AU - Schuldiner, Maya
AU - Zalckvar, Einat
AU - Oeljeklaus, Silke
AU - Drepper, Friedel
AU - Warscheid, Bettina
PY - 2023/2/1
Y1 - 2023/2/1
N2 - Peroxisomes are organelles with vital functions in metabolism and their dysfunction is associated with human diseases. To fulfill their multiple roles, peroxisomes import nuclear-encoded matrix proteins, most carrying a peroxisomal targeting signal (PTS) 1. The receptor Pex5p recruits PTS1-proteins for import into peroxisomes; whether and how this process is posttranslationally regulated is unknown. Here, we identify 22 phosphorylation sites of Pex5p. Yeast cells expressing phospho-mimicking Pex5p-S507/523D (Pex5p(2D)) show decreased import of GFP with a PTS1. We show that the binding affinity between a PTS1-protein and Pex5p(2D) is reduced. An in vivo analysis of the effect of the phospho-mimicking mutant on PTS1-proteins revealed that import of most, but not all, cargos is affected. The physiological effect of the phosphomimetic mutations correlates with the binding affinity of the corresponding extended PTS1-sequences. Thus, we report a novel Pex5p phosphorylation-dependent mechanism for regulating PTS1-protein import into peroxisomes. In a broader view, this suggests that posttranslational modifications can function in fine-tuning the peroxisomal protein composition and, thus, cellular metabolism.
AB - Peroxisomes are organelles with vital functions in metabolism and their dysfunction is associated with human diseases. To fulfill their multiple roles, peroxisomes import nuclear-encoded matrix proteins, most carrying a peroxisomal targeting signal (PTS) 1. The receptor Pex5p recruits PTS1-proteins for import into peroxisomes; whether and how this process is posttranslationally regulated is unknown. Here, we identify 22 phosphorylation sites of Pex5p. Yeast cells expressing phospho-mimicking Pex5p-S507/523D (Pex5p(2D)) show decreased import of GFP with a PTS1. We show that the binding affinity between a PTS1-protein and Pex5p(2D) is reduced. An in vivo analysis of the effect of the phospho-mimicking mutant on PTS1-proteins revealed that import of most, but not all, cargos is affected. The physiological effect of the phosphomimetic mutations correlates with the binding affinity of the corresponding extended PTS1-sequences. Thus, we report a novel Pex5p phosphorylation-dependent mechanism for regulating PTS1-protein import into peroxisomes. In a broader view, this suggests that posttranslational modifications can function in fine-tuning the peroxisomal protein composition and, thus, cellular metabolism.
UR - http://www.scopus.com/inward/record.url?scp=85139118243&partnerID=8YFLogxK
U2 - 10.1515/hsz-2022-0168
DO - 10.1515/hsz-2022-0168
M3 - مقالة
C2 - 36122347
SN - 1431-6730
VL - 404
SP - 135
EP - 155
JO - Biological Chemistry
JF - Biological Chemistry
IS - 2-3
ER -