A purposely designed PLLA/H-AGMA20 composite hydrogel incorporating an electrospun poly-L-lactic acid (PLLA) mat in a cell-adhesive polyamidoamine hydrogel (H-AGMA20) was investigated as a novel biomaterial with neuroregenerative and neuroprotective properties. A PLLA mat was first functionalized by exposure to ethylenediamine vapors, introducing amine functions through ester group aminolysis, and then impregnated with an α,ω-acrylamide-terminated oligomer (AGMA20) aqueous solution. The system was finally cured through UV-induced radical polymerization. The resulting H-AGMA20 matrix was covalently grafted onto the PLLA nanofibers since a portion of the AGMA20 acrylamide terminals reacted with their surface amine groups, leading to the soft and pliable PLLA/H-AGMA20 composite. Biological investigations performed on preneuronal and immune cell lines demonstrated that PLLA/H-AGMA20 exhibits promising neuroregenerative properties, effectively promoting both cell proliferation and neuronal differentiation. In addition, the composite demonstrated significant neuroprotective effects in vitro, counteracting neurotoxin 1-methyl-4-phenylpyridinium (MPP+) and proinflammatory agent lipopolysaccharide (LPS)-induced cytotoxicity. These protective results appear to be mediated by modulation of inflammatory pathways, highlighting the combined capacity of biomaterial to support neuronal development while reducing neuroinflammatory damage.
Poly-L-lactic acid nanofiber/polyamidoamine composite hydrogel as novel strategy for in vitro neuroregeneration and neuroprotection / S. Treccani, I. Bonadies, P. Ferruti, J. Alongi, E. Scarpa, P. Laurienzo, M.G. Raucci, I. Fasolino, E. Ranucci. - In: BIOMATERIALS ADVANCES. - ISSN 2772-9508. - 177:(2025 Dec), pp. 214415.1-214415.14. [10.1016/j.bioadv.2025.214415]
Poly-L-lactic acid nanofiber/polyamidoamine composite hydrogel as novel strategy for in vitro neuroregeneration and neuroprotection
S. TreccaniPrimo
Investigation
;J. AlongiWriting – Review & Editing
;E. Ranucci
Co-ultimo
Conceptualization
2025
Abstract
A purposely designed PLLA/H-AGMA20 composite hydrogel incorporating an electrospun poly-L-lactic acid (PLLA) mat in a cell-adhesive polyamidoamine hydrogel (H-AGMA20) was investigated as a novel biomaterial with neuroregenerative and neuroprotective properties. A PLLA mat was first functionalized by exposure to ethylenediamine vapors, introducing amine functions through ester group aminolysis, and then impregnated with an α,ω-acrylamide-terminated oligomer (AGMA20) aqueous solution. The system was finally cured through UV-induced radical polymerization. The resulting H-AGMA20 matrix was covalently grafted onto the PLLA nanofibers since a portion of the AGMA20 acrylamide terminals reacted with their surface amine groups, leading to the soft and pliable PLLA/H-AGMA20 composite. Biological investigations performed on preneuronal and immune cell lines demonstrated that PLLA/H-AGMA20 exhibits promising neuroregenerative properties, effectively promoting both cell proliferation and neuronal differentiation. In addition, the composite demonstrated significant neuroprotective effects in vitro, counteracting neurotoxin 1-methyl-4-phenylpyridinium (MPP+) and proinflammatory agent lipopolysaccharide (LPS)-induced cytotoxicity. These protective results appear to be mediated by modulation of inflammatory pathways, highlighting the combined capacity of biomaterial to support neuronal development while reducing neuroinflammatory damage.
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