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Acute Three‐Dimensional Hypoxia Regulates Angiogenesis

Hypoxia elicits a multitude of tissue responses depending on the severity and duration of the exposure. While chronic hypoxia is shown to impact development, regeneration, and cancer, the understanding of… Click to show full abstract

Hypoxia elicits a multitude of tissue responses depending on the severity and duration of the exposure. While chronic hypoxia is shown to impact development, regeneration, and cancer, the understanding of the threats of acute (i.e., short‐term) hypoxia is limited mainly due to its transient nature. Here, a novel gelatin‐dextran (Gel‐Dex) hydrogel is established that decouples hydrogel formation and oxygen consumption and thus facilitates 3D sprouting from endothelial spheroids and, subsequently, induces hypoxia “on‐demand.” The Gel‐Dex platform rapidly achieves acute moderate hypoxic conditions without compromising its mechanical properties. Acute exposure to hypoxia leads to increased endothelial cell migration and proliferation, promoting the total length and number of vascular sprouts. This work finds that the enhanced angiogenic response is mediated by reactive oxygen species, independently of hypoxia‐inducible factors. Reactive oxygen species‐dependent matrix metalloproteinases activity mediated angiogenic sprouting is observed following acute hypoxia. Overall, the Gel‐Dex hydrogel offers a novel platform to study how “on‐demand” acute moderate hypoxia impacts angiogenesis, with broad applicability to the development of novel sensing technologies.

Keywords: acute three; hypoxia; dimensional hypoxia; hypoxia regulates; gel dex; three dimensional

Journal Title: Advanced Healthcare Materials
Year Published: 2024

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