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FGF1 PromotesXenopus laevisLens Regeneration
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AbstractBackgroundThe frogXenopus laevishas notable regenerative capabilities, including that of the lens. The neural retina provides the factors that trigger lens regeneration from the cornea, but the identity of these factors is largely unknown. In contrast to the cornea, fibroblast growth factors FGF1, 8, and 9 are highly expressed within the retina, and are potential candidates for those factors. The purpose of this study is to determine whether specific FGF proteins can induce lens formation, and if perturbation of FGFR signaling inhibits lens regeneration.MethodsA novel cornea epithelial culture method was developed to investigate the sufficiency of FGFs in lens regeneration. Additionally, transgenic larvae expressing dominant negative FGFR1 were used to investigate the necessity of FGFR signaling in lens regeneration.ResultsTreatment of cultured corneas with FGF1 induced lens regeneration in a dose-dependent manner, whereas treatment with FGF2, FGF8, or FGF9 did not result in significant lens regeneration. Inhibition of FGFR signaling decreased the lens regeneration rate forin vitroeye cultures.ConclusionThe culture techniques developed here, and elsewhere, have provided reliable methods for examining the necessity of various factors that may be involved in lens regeneration. Based on the results demonstrated in this study, we found that FGF1 signaling and FGFR activation are key factors for lens regeneration inXenopus.
Title: FGF1 PromotesXenopus laevisLens Regeneration
Description:
AbstractBackgroundThe frogXenopus laevishas notable regenerative capabilities, including that of the lens.
The neural retina provides the factors that trigger lens regeneration from the cornea, but the identity of these factors is largely unknown.
In contrast to the cornea, fibroblast growth factors FGF1, 8, and 9 are highly expressed within the retina, and are potential candidates for those factors.
The purpose of this study is to determine whether specific FGF proteins can induce lens formation, and if perturbation of FGFR signaling inhibits lens regeneration.
MethodsA novel cornea epithelial culture method was developed to investigate the sufficiency of FGFs in lens regeneration.
Additionally, transgenic larvae expressing dominant negative FGFR1 were used to investigate the necessity of FGFR signaling in lens regeneration.
ResultsTreatment of cultured corneas with FGF1 induced lens regeneration in a dose-dependent manner, whereas treatment with FGF2, FGF8, or FGF9 did not result in significant lens regeneration.
Inhibition of FGFR signaling decreased the lens regeneration rate forin vitroeye cultures.
ConclusionThe culture techniques developed here, and elsewhere, have provided reliable methods for examining the necessity of various factors that may be involved in lens regeneration.
Based on the results demonstrated in this study, we found that FGF1 signaling and FGFR activation are key factors for lens regeneration inXenopus.
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