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O2-controllable hydrogels for studying cellular responses to hypoxic gradients in three dimensions in vitro and in vivo.


ABSTRACT: Oxygen (O2) acts as a potent upstream regulator of cell function. In both physiological and pathophysiological microenvironments, the O2 concentration is not uniformly distributed but instead follows a gradient that depends on distance from oxygen-carrying blood vessels. Such gradients have a particularly important role in development, tissue regeneration, and tumor growth. In this protocol, we describe how to use our previously reported gelatin-based O2-controllable hydrogels that can provide hypoxic microenvironments in vitro. The hydrogel polymeric network is formed via a laccase-mediated cross-linking reaction. In this reaction, laccase catalyzes diferulic acid (diFA) formation to form hydrogels with an O2-consuming reaction. Cells, such as cancer or endothelial cells, as well as tumor/tissue grafts, can be encapsulated in the hydrogels during hydrogel formation and then analyzed for cellular responses to 3D hypoxic gradients and to elucidate the underlying mechanisms governing these responses. Importantly, oxygen gradients can be precisely controlled in standard cell/tissue culture conditions and in vivo. This platform has been applied to study vascular morphogenesis in response to hypoxia and to understand how oxygen gradients mediate cancer cell behavior. Herein, we describe the means to validate the assay from polymer synthesis and characterization-which take 1-2 weeks and include verification of ferulic acid (FA) conjugation, rheological measurements, and O2 monitoring-to the study of cellular responses and use in rodent models. Time courses for biological experiments using this hydrogel are variable, and thus they may range from hours to weeks, depending on the application and user end goal.

SUBMITTER: Lewis DM 

PROVIDER: S-EPMC5965277 | biostudies-literature | 2017 Aug

REPOSITORIES: biostudies-literature

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O<sub>2</sub>-controllable hydrogels for studying cellular responses to hypoxic gradients in three dimensions in vitro and in vivo.

Lewis Daniel M DM   Blatchley Michael R MR   Park Kyung Min KM   Gerecht Sharon S  

Nature protocols 20170720 8


Oxygen (O<sub>2</sub>) acts as a potent upstream regulator of cell function. In both physiological and pathophysiological microenvironments, the O<sub>2</sub> concentration is not uniformly distributed but instead follows a gradient that depends on distance from oxygen-carrying blood vessels. Such gradients have a particularly important role in development, tissue regeneration, and tumor growth. In this protocol, we describe how to use our previously reported gelatin-based O<sub>2</sub>-controll  ...[more]

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