N-Glycosylation can selectively block or foster different receptor-ligand binding modes

While DNA encodes protein structure, glycans provide a complementary layer of information to protein function. As a prime example of the significance of glycans, the ability of the cell surface receptor CD44 to bind its ligand, hyaluronan, is modulated by N-glycosylation. However, the details of this modulation remain unclear. Based on atomistic simulations and NMR, we provide evidence that CD44 has multiple distinct binding sites for hyaluronan, and that N-glycosylation modulates their respective roles. We find that non-glycosylated CD44 favors the canonical sub-micromolar binding site, while glycosylated CD44 binds hyaluronan with an entirely different micromolar binding site. Our findings show (for the first time) how glycosylation can alter receptor affinity by shielding specific regions of the host protein, thereby promoting weaker binding modes. The mechanism revealed in this work emphasizes the importance of glycosylation in protein function and poses a challenge for protein structure determination where glycosylation is usually neglected.

Automated summary

This study reveals that CD44 receptor has multiple distinct binding sites for hyaluronan, which are modulated by N-glycosylation. Non-glycosylated CD44 prefers a canonical sub-micromolar binding site, while glycosylated CD44 binds hyaluronan through a different micromolar binding site. The findings demonstrate how glycosylation can alter receptor affinity and emphasize the importance of considering glycosylation in protein function and structure determination.