posted on 2022-01-10, 21:07authored byDimitris Missirlis, Miguel Baños, Felix Lussier, Joachim P. Spatz
We here present a
micropatterning strategy to introduce small molecules
and ligands on patterns of arbitrary shapes on the surface of poly(acrylamide)-based
hydrogels. The main advantages of the presented approach are the ease
of use, the lack of need to prefabricate photomasks, the use of mild
UV light and biocompatible bioconjugation chemistries, and the capacity
to pattern low-molecular-weight ligands, such as peptides, peptidomimetics,
or DNA fragments. To achieve the above, a monomer containing a caged
amine (NVOC group) was co-polymerized in the hydrogel network; upon
UV light illumination using a commercially available setup, primary
amines were locally deprotected and served as reactive groups for
further functionalization. Cell patterning on various cell adhesive
ligands was demonstrated, with cells responding to a combination of
pattern shape and substrate elasticity. The approach is compatible
with standard traction force microscopy (TFM) experimentation and
can further be extended to reference-free TFM.