Hydrolytically Labile Linkers Regulate Release and Activity of Human Bone Morphogenetic Protein-6
Author(s) -
Jordi CabanasDanés,
Ellie Landman,
Jurriaan Huskens,
Marcel Karperien,
Pascal Jonkheijm
Publication year - 2018
Publication title -
langmuir
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.042
H-Index - 333
eISSN - 1520-5827
pISSN - 0743-7463
DOI - 10.1021/acs.langmuir.8b00853
Subject(s) - chemistry , biomaterial , siloxane , hydrolysis , bone morphogenetic protein 2 , amine gas treating , biological activity , biomolecule , glycidyl methacrylate , epoxide , combinatorial chemistry , surface modification , drug delivery , methacrylate , polymer chemistry , organic chemistry , biochemistry , catalysis , copolymer , in vitro , polymer
Release of growth factors while simultaneously maintaining their full biological activity over a period of days to weeks is an important issue in controlled drug delivery and in tissue engineering. In addition, the selected strategy to immobilize growth factors largely determines their biological activity. Silica surfaces derivatized with glycidyloxy propyl trimethoxysilane and poly(glycidyl methacrylate) brushes yielded epoxide-functionalized surfaces onto which human bone morphogenetic protein-6 (hBMP-6) was immobilized giving stable secondary amine bonds. The biological activity of hBMP-6 was unleashed by hydrolysis of the surface siloxane and ester bonds. We demonstrate that this type of labile bonding strategy can be applied to biomaterial surfaces with relatively simple and biocompatible chemistry, such as siloxane, ester, and imine bonds. Our data indicates that the use of differential hydrolytically labile linkers is a versatile method for functionalization of biomaterials with a variety of growth factors providing control over their biological activity.
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