Corfield A P, Wagner S A, Clamp J R, Kriaris M S, Hoskins L C
University Department of Medicine Laboratories, Bristol Royal Infirmary, United Kingdom.
Infect Immun. 1992 Oct;60(10):3971-8. doi: 10.1128/iai.60.10.3971-3978.1992.
Oligosaccharide side chains of human colonic mucins contain O-acetylated sialic acids and glycosulfate esters. Although these substituents are considered to protect the chains against degradation by bacterial glycosidases, sialate O-acetylesterase, N-acetylneuraminate lyase, and glycosulfatase activities have been found in fecal extracts. To better define the source of these activities, we measured extracellular and cell-bound sialidase, sialate O-acetylesterase, N-acetylneuraminate lyase, arylesterase, and glycosulfatase activities produced by 23 isolates of human fecal bacteria grown anaerobically in a hog gastric mucin culture medium; these represented dominant populations of fecal anaerobes, facultative anaerobes, and the subset of mucin oligosaccharide-degrading bacteria. Every strain produced sialidase and high levels of arylesterase, and all but five facultative anaerobes produced sialate O-acetylesterase. Sialic acids containing 2 mol or more of O-acetyl ester per mol of sialic acid were cleaved from mucin glycoproteins more slowly by sialidases of mucin oligosaccharide-degrading stains than were sialic acids containing 1 or 0 mol, and only N-acetyl- and mono-O-acetylated sialic acids were recovered from enzyme digests of a mucin containing di-O-acetylated sialic acids. No detectable N-acetylneuraminate lyase activity was produced by any strain, but low activity was induced by increasing the glycoprotein-bound sialic acid concentration in the culture medium of six Escherichia coli strains. Using lactitol-6-sulfate as a substrate, we found weak glycosulfatase activity in the partially purified, concentrated enzyme mixture in the culture supernatants of four mucin oligosaccharide-degrading strains but in none of the unconcentrated culture fractions. We conclude that the presence of two or more O-acetyl groups on sialic acids inhibits enteric bacterial sialidases but that production of sialate O-acetylesterases by several populations of enteric bacteria lessens the likelihood that mucin oligosaccharide chains terminating in O-acetylated sialic acids are protected from degradation. Sialate O-acetylesterases have a role in bacterial degradation of mucin glycoproteins in the human colon.
人结肠粘蛋白的寡糖侧链含有O - 乙酰化唾液酸和硫酸糖酯。尽管这些取代基被认为可保护这些链免受细菌糖苷酶的降解,但在粪便提取物中已发现唾液酸O - 乙酰酯酶、N - 乙酰神经氨酸裂解酶和硫酸糖苷酶活性。为了更好地确定这些活性的来源,我们测量了在猪胃粘蛋白培养基中厌氧培养的23株人粪便细菌产生的细胞外和细胞结合的唾液酸酶、唾液酸O - 乙酰酯酶、N - 乙酰神经氨酸裂解酶、芳基酯酶和硫酸糖苷酶活性;这些代表了粪便厌氧菌、兼性厌氧菌以及粘蛋白寡糖降解细菌的子集的主要菌群。每株菌株都产生唾液酸酶和高水平的芳基酯酶,除了五株兼性厌氧菌外,所有菌株都产生唾液酸O - 乙酰酯酶。每摩尔唾液酸含有2摩尔或更多O - 乙酰酯的唾液酸被粘蛋白寡糖降解菌株的唾液酸酶从粘蛋白糖蛋白上切割下来的速度比每摩尔含有1摩尔或0摩尔O - 乙酰酯的唾液酸慢,并且从含有二 - O - 乙酰化唾液酸的粘蛋白的酶消化物中仅回收了N - 乙酰化和单 - O - 乙酰化唾液酸。任何菌株均未产生可检测到的N - 乙酰神经氨酸裂解酶活性,但在六种大肠杆菌菌株的培养基中增加糖蛋白结合的唾液酸浓度可诱导出低活性。使用乳糖醇 - 6 - 硫酸盐作为底物,我们在四种粘蛋白寡糖降解菌株的培养上清液中的部分纯化、浓缩酶混合物中发现了微弱的硫酸糖苷酶活性,但在未浓缩的培养部分中均未发现。我们得出结论,唾液酸上两个或更多O - 乙酰基团的存在会抑制肠道细菌唾液酸酶,但几种肠道细菌群体产生唾液酸O - 乙酰酯酶会降低以O - 乙酰化唾液酸结尾的粘蛋白寡糖链免受降解的可能性。唾液酸O - 乙酰酯酶在人结肠中粘蛋白糖蛋白的细菌降解中起作用。
