Evaluating Cytocompatibility of Corynebacterium glutamicum-poly Vinyl Alcohol Living Biomaterials for Ocular Use

Abstract

In ophthalmology, living biomaterials have appeared as promising drug delivery and biosensor devices to tackle dynamic sensing and delivery of compounds. Their living character complicates their assessment with the also dynamic ocular tissues. The use of animal experiments increases complexity, and most animal ocular models are anatomically different from humans. Thus, in vitro ocular systems applied specifically to living biomaterials are required to assess their safety, compatibility and efficacy. Here, we report on an in vitro cornea model for co-cultures with Corynebacterium glutamicum-polyvinyl alcohol living biomaterials, which are reported as suitable living contact lenses, to study their cytocompatibility to the eye. We co-cultured this living biomaterial with human primary corneal cells (epithelial and fibroblasts) for 7 days, mimicking contact lens extended wear. We studied bacterial proliferation, biocontainment and biosafety. We investigated potential cytotoxicity and pro-inflammatory responses of living biomaterials to corneal cells. Our results revealed that the living biomaterial does not trigger cytotoxicity or pro-inflammatory phenotypes on corneal cells during the 7-day co-culture. We placed the living biomaterial on top of the corneal epithelium, observing no cytotoxic effects. Overall, these findings highlight the potential of in vitro investigations for living biomaterials and the applicability of these devices for ophthalmology purposes.