Semisynthesis of Biologically Active Glycoforms of the Human Cytokine Interleukin 6

Human interleukin 6 (IL‐6) is a potent cytokine with immunomodulatory properties. As the influence of N‐glycosylation on the in vivo activities of IL‐6 could not be elucidated so far, a semisynthesis of homogeneous glycoforms of IL‐6 was established by sequential native chemical ligation. The four cysteines of IL‐6 are convenient for ligations and require only the short synthetic glycopeptide 43–48. The Cys‐peptide 49–183 could be obtained recombinantly by cleavage of a SUMO tag. The fragment 1–42 was accessible by the simultaneous cleavage of two inteins, leading to the 1–42 thioester with the native N‐terminus. Ligation and refolding studies showed that the inherently labile AspPro bond 139–140 was detrimental for the sequential C‐ to N‐terminal ligation. A reversed ligation sequence using glycopeptide hydrazides gave full‐length IL‐6 glycoproteins, which showed full bioactivity after efficient refolding and purification. The sequence matters: The human cytokine interleukin 6 (IL‐6) was synthesized in two glycoforms by sequential native chemical ligation from two recombinant fragments (A, C) and a synthetic glycopeptide (B). Only one of the possible sequences of ligations efficiently led to the IL variants because of the susceptibility of the peptide chain and the folded glycoprotein to nonphysiological conditions.