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Amputation-Induced ROS Signaling is Required for Axolotl Tail Regeneration.
Developmental Dynamics 2018 December 21
BACKGROUND: Among vertebrates, salamanders are unparalleled in their ability to regenerate appendages throughput life. However, little is known about early signals that initiate regeneration in salamanders.
RESULTS: Ambystoma mexicanum embryos were administered tail amputations to investigate the timing of reactive oxygen species (ROS) production and the requirement of ROS for regeneration. ROS detected by dihydroethidium (DHE) increased within minutes of axolotl tail amputation and levels remained high for 24 hours. Pharmacological inhibition of ROS producing enzymes with diphenyleneidonium chloride (DPI) and VAS2870 reduced ROS levels. Further, DPI treatment reduced cellular proliferation and inhibited tail outgrowth.
CONCLUSIONS: The results show that ROS levels increase in response to injury and are required for tail regeneration. These findings suggest that ROS provide instructive, if not initiating cues, for salamander tail regeneration. This article is protected by copyright. All rights reserved.
RESULTS: Ambystoma mexicanum embryos were administered tail amputations to investigate the timing of reactive oxygen species (ROS) production and the requirement of ROS for regeneration. ROS detected by dihydroethidium (DHE) increased within minutes of axolotl tail amputation and levels remained high for 24 hours. Pharmacological inhibition of ROS producing enzymes with diphenyleneidonium chloride (DPI) and VAS2870 reduced ROS levels. Further, DPI treatment reduced cellular proliferation and inhibited tail outgrowth.
CONCLUSIONS: The results show that ROS levels increase in response to injury and are required for tail regeneration. These findings suggest that ROS provide instructive, if not initiating cues, for salamander tail regeneration. This article is protected by copyright. All rights reserved.
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