Abstract
The membrane-bound, long form of MGAT4D, termed MGAT4D-L, inhibits MGAT1 activity in transfected cells and reduces the generation of complex N-glycans. MGAT1 is the GlcNAc-transferase that initiates complex and hybrid N-glycan synthesis. We show here that Drosophila MGAT1 was also inhibited by MGAT4D-L in S2 cells. In mammalian cells, expression of MGAT4D-L causes the substrate of MGAT1 (Man5GlcNAc2Asn) to accumulate on glycoproteins, a change that is detected by the lectin Galanthus nivalis agglutinin (GNA). Using GNA binding as an assay for the inhibition of MGAT1 in MGAT4D-L transfectants, we performed site-directed mutagenesis to determine requirements for MGAT1 inhibition. Deletion of 25 amino acids (aa) from the C terminus inactivated MGAT4D-L, but deletion of 20 aa did not. Conversion of the five key amino acids (PSLFQ) to Ala, or deletion of PSLFQ in the context of full-length MGAT4D-L, also inactivated MGAT1 inhibitory activity. Nevertheless, mutant, inactive MGAT4D-L interacted with MGAT1 in co-immuno-precipitation experiments. The PSLFQ sequence also occurs in MGAT4A and MGAT4B GlcNAc-transferases. However, neither inhibited MGAT1 in transfected CHO cells. MGAT4D-L inhibitory activity could be partially transferred by attaching PSLFQ or the 25-aa C terminus of MGAT4D-L to the C terminus of MGAT1. Mutation of each amino acid in PSLFQ to Ala identified both Leu and Phe as independently essential for MGAT4D-L activity. Thus, replacement of either Leu-395 or Phe-396 with Ala led to inactivation of MGAT4D-L inhibitory activity. These findings provide new insights into the mechanism of inhibition of MGAT1 by MGAT4D-L, and for the development of small molecule inhibitors of MGAT1.
Highlights
Understanding factors that regulate glycosylation is critical for basic research into the functions of glycans in biology, and for practical reasons of glycosylation engineering for numerous purposes
To demonstrate inhibition of MGAT1 activity in transfectants, it is necessary to sort for Mgat4d-L transfectants in which complex N-glycan synthesis is clearly inhibited
We previously demonstrated that Mgat4d-L transfectants sorted for high Galanthus nivalis agglutinin (GNA) binding exhibit a correspondingly high degree of inhibition of MGAT1 GlcNAc-transferase activity [5]
Summary
Understanding factors that regulate glycosylation is critical for basic research into the functions of glycans in biology, and for practical reasons of glycosylation engineering for numerous purposes. The binding profile for GNA may be used to determine the inhibitory activity of transfectants expressing mutant Mgat4d-L. Mgat4d-L–transfected CHO cells selected for hygromycin resistance were examined by flow cytometry for GNA binding and GNA-high and -low populations were identified (Fig. 1B).
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