Abstract
In the social amoeba Dictyostelium, a terminal step in development is regulated by environmental O(2). Prolyl 4-hydroxylase-1 (P4H1) was previously implicated in mediating the O(2) signal, and P4H1-null cells require elevated O(2) to culminate. The E3-ubiquitin ligase adaptor Skp1 is a P4H1 substrate, and here we investigate the function of PgtA, a dual function beta3-galactosyltransferase/alpha2-fucosyltransferase that contributes the 2nd and 3rd sugars of the pentasaccharide cap formed on Skp1 hydroxyproline. Although pgtA-null cells, whose Skp1 contains only a single sugar (N-acetylglucosamine or GlcNAc), show wild-type O(2) dependence of culmination, cells lacking AgtA, an alpha3-galactosyltransferase required to extend the trisaccharide, require elevated O(2) as for P4H1-null cells. Skp1 is the only detectable protein modified by purified PgtA added to pgtA-null extracts. The basis for specificity of PgtA was investigated using native Skp1 acceptor glycoforms and a novel synthetic peptide containing GlcNAcalpha1,4-hydroxy(trans)proline. Cysteine-alkylation of Skp1 strongly inhibited modification by the PgtA galactosyltransferase but not the fucosyltransferase. Furthermore, native and synthetic Skp1 glycopeptides were poorly galactosylated, not processively fucosylated, and negligibly inhibitory, whereas the fucosyltransferase was active toward small substrates. In addition, the galactosyltransferase exhibited an atypical concentration dependence on UDP-galactose. The results provide the first evidence that Skp1 is the functional target of P4H1 in O(2) regulation, indicate a gatekeeper function for the beta3-galactosyltransferase in the PgtA dual reaction, and identify an unexpected P4H1-dependent yet antagonistic function for PgtA that is reversed by AgtA.
Highlights
(von-Hippel Lindau)-type ubiquitin ligase leading to subsequent degradation by the 26S proteasome (1)
Dictyostelium lacks an obvious ortholog of HIF␣ but a known substrate for Dictyostelium Prolyl 4-hydroxylase-1 (P4H1) is Skp[1], an adaptor in SCF (Skp1/Cullin 1/F-box protein)-type Ub ligases (3)
Addition of the fourth sugar is mediated by AgtA, resultcosamine; Gmd, GDP-mannose 4,6-dehydratase; GT, glycosyltransferase; HyPro, hydroxyproline; mAb, monoclonal antibody; Man, D-mannose; P4H1, Dictyostelium prolyl 4-hydroxylase-1 encoded by phyA locus; PgtA, dual-function Dictyostelium 3-galactosyltransferase/␣2-fucosyltransferase (3GalT/␣2FucT) encoded by pgtA; pNP, paranitrophenyl; SCF, complex consisting of Skp[1], cullin 1, and an F-box protein; VHL, von-Hippel Lindau protein; Ub, ubiquitin; DTT, dithiothreitol; MALDI-TOF-MS, matrix-assisted laser desorption/ionization-time of flight-mass spectrometry
Summary
Growth and Development—Cells were grown axenically, and tested for O2 dependence of development as described (2). MALDI-TOF-MS analysis showed an m/z value for the full-length protein (Fig. 5A) of 52 Da above the expected value considering expected processing events (5), which is most consistent with the presence of 5 sugars This was confirmed by analysis of the glycopeptide after endo-Lys C digestion (Fig. 5B), suggesting that complementation by AgtA was due to rescued glycosylation per se rather than an effect of its C-terminal domain. PgtA Acceptor Substrates in Cells—To identify potential substrates that might mediate PgtA function in regulating the O2 threshold, a biochemical complementation approach was implemented by incubating crude extracts of pgtA-null cells with recombinant PgtA in the presence of UDP-[3H]Gal. Analysis of the desalted cytosol (S100) reaction by SDS-PAGE showed that a protein at the position of Skp[1] was the major species that incorporated 3H (Fig. 6A). Two particulate fractions from mutant cells, P100 (mitochondria, lysosomes, and microsomes) and P5 (nuclear), showed substantial and specific labeling of Skp[1] that was not observed in normal cell extracts (Fig. 6, B and C), confirming previous studies that Skp[1] is widely distributed across cell fractions (10, 18)
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