Abstract
F-box proteins are substrate recognition components of Skp1-Cullin1-F-box protein-Roc1 (SCF) E3 ubiquitin-protein ligases. We reported previously that Fbs1 (F-box protein that recognizes sugar chains; equivalent to Fbx2 or NFB42) binds specifically to proteins attached with high mannose oligosaccharides and subsequently contributes to elimination of N-glycoproteins in cytosol (Yoshida, Y., Chiba, T., Tokunaga, F., Kawasaki, H., Iwai, K., Suzuki, T., Ito, Y., Matsuoka, K., Yoshida, M., Tanaka, K., and Tai, T. (2002) Nature 418, 438-442). Here we report the identification of another F-box protein that recognizes N-glycan, Fbs2 (called Fbx6b or FBG2 previously). Although the expression of Fbs1 was restricted to the adult brain and testis, the Fbs2 transcript was widely expressed. The Fbs2 protein forms an SCFFbs2 ubiquitinligase complex that targets sugar chains in N-glycoproteins for ubiquitylation. Only glycoproteins bound to concanavalin A lectin and not to wheat germ agglutinin or Ricinus communis agglutinin interacted with Fbs2 in various tissues and cell lines. Pull-down analysis using various oligosaccharides revealed that Man3-9GlcNAc2 glycans were required for efficient Fbs2 binding, whereas modifications of mannose residues by other sugars or deletion of inner GlcNAc reduced Fbs2 binding. Fbs2 interacted with N-glycans of T-cell receptor alpha-subunit (TCRalpha), a typical substrate of the endoplasmic reticulum-associated degradation (ERAD) pathway, and the forced expression of mutant Fbs2DeltaF, which lacks the F-box domain essential for forming the SCF complex, and decrease of endogenous Fbs2 by small interfering RNA led to inhibition of TCRalpha degradation in cells. Thus, Fbs2 is a novel member of F-box protein family that recognizes N-glycans and plays a role in ERAD.
Highlights
F-box proteins are substrate recognition components of Skp1-Cullin1-F-box protein-Roc1 (SCF) E3 ubiquitinprotein ligases
In the early secretory pathway, N-glycosylation facilitates conformational maturation by promoting the glycoprotein-folding machinery consisting of two homologous lectins, calnexin and calreticulin, which interact with monoglucosylated N-linked core glycans in concert with UDP-glucose:glycoprotein glucosyltransferase (UGGT) and glucosidase II [10, 27]
Recent studies suggest that mannosidase I and EDEM, an endoplasmic reticulum (ER)-degradation-enhancing ␣-mannosidase-like lectin, play a pivotal role in the selective disposal of misfolded glycoproteins (14 –16) and that the misfolded proteins are accepted from calnexin by EDEM [28, 29]
Summary
E1, ubiquitin-activating enzyme; E2, conjugating enzyme (E2), and the ubiquitin-protein ligase (E3) [1]. The quality control system includes the calnexin-calreticulin cycle, a unique chaperone system that recognizes Glc1Man9– 6GlcNAc2 and assists refolding of misfolded or unfolded proubiquitin-conjugating enzyme; E3, ubiquitin-protein ligase; chitobiose, di-N-acetylchitobiose; ConA, concanavalin A; WGA, wheat germ agglutinin; ER, endoplasmic reticulum; ERAD, ER-associated degradation; GST, glutathione S-transferase; GTF, GlcNAc-terminated fetuin; HA, hemagglutinin A; RCA, Ricinus communis; SCF, Skp1-Cullin1-F-box protein-Roc; siRNA, small interfering RNA; TBS, Tris-buffered saline; TCR␣; T-cell receptor ␣-subunit; UGGT, UDP-glucose:glycoprotein glucosyltransferase. When the improperly folded or incompletely assembled proteins fail to restore their functional states, they are degraded by the ER-associated degradation (ERAD) system, which involves a retrograde transfer of proteins from the ER to the cytosol followed by degradation by the proteasome [11,12,13] How they are selected for ERAD remains unclear, but what is clear is that the trimming of N-glycans plays a key role in the selection process. We concluded that Fbs is a new member of the E3-Fbs subfamily for ubiquitylation of N-linked glycoproteins and plays a role in the ERAD pathway
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