Glyco

Title : The role of N-linked glycosylation in the protection of human and bovine lactoferrin against tryptic proteolysis

Abstract :

Lactoferrin ( LF ) is an iron-binding glycoprotein of the innate host defence system
To elucidate the role of N-linked glycosylation in protection of LF against proteolysis, we compared the tryptic susceptibility of human LF ( hLF ) variants from human milk, expressed in human 293(S) cells or in the milk of transgenic mice and cows
The analysis revealed that recombinant hLF ( rhLF ) with mutations Ile130--> Thr and Gly404--> Cys was about twofold more susceptible than glycosylated and unglycosylated variants with the naturally occurring Ile130 and Gly404
Hence, N-linked glycosylation is not involved in protection of hLF against tryptic proteolysis
Apparently, the previously reported protection by N-linked glycosylation of hLF [van Berkel, P.H.C., Geerts, M.E.J., van Veen, H.A., Kooiman, P.M., Pieper, F., de Boer, H.A. & Nuijens, J.H. (1995) Biochem
J. 312, 107-114] is restricted to rhLF containing the Thr130 and Cys404
Comparison of the tryptic proteolysis of hLF and bovine LF ( bLF ) revealed that hLF is about 100-fold more resistant than bLF
Glycosylation variants A and B of bLF differed by about 10-fold in susceptibility to trypsin
This difference is due to glycosylation at Asn281 in bLF-A
Hence, glycosylation at Asn281 protects bLF against cleavage by trypsin at Lys282

Output (sent_index, trigger, protein, sugar, site):

Output(Part-Of) (sent_index, protein, site):

*Output_Site_Fusion* (sent_index, protein, sugar, site):