The roles of enteric bacterial sialidase, sialateO-acetyl esterase and glycosulfatase in the degradation of human colonic mucin

Abstract

Sialidase activity in normal faecal extracts showed a preference for mucin-related glycoprotein and oligosaccharide substrates, but the presence of two or moreO-acetyl esters at positions C₇–C₉ on the sialic acids retarded the rate of hydrolysis. A specific sialateO-acetyl esterase was detected with a lower total activity relative to sialidase with mucin substrates and having a pH optimum of 7.8 and aK _M of approximately 1mm sialateO-acetyl ester. A specific glycosulfatase activity was found in faecal extracts using the substrate lactit-[³H]ol 6-O-sulfate with a pH optimum of pH 5.0 and aK _M of approximately 1mm. Faecal extracts from ulcerative colitis (UC) patients had higher sialateO-acetyl esterase and glycosulfatase activity, while mucin sialidase activity was unchanged. Metabolically labelled mucin isolated from UC patients contained less sulfate and had lower sialic acidO-acetylation compared with normal mucin. Colonic mucin was degraded more efficiently by faecal extracts from UC patients compared with normal extracts. The UC mucin was degraded more rapidly than the normal mucin by faecal enzyme extracts from both normal and UC subjects.