This Multi-PD/PI application seeks to develop resources that will better enable studies of a highly regenerative amphibian, the Mexican axolotl (Ambystoma mexicanum). There is need to probe axolotl regeneration more deeply, with the same powerful approaches that have proven so effective in genetic model organisms.
Specific Aim 1 will accomplish the first chemical genetic screen of axolotl regeneration using an embryo tail regeneration assay. Using pre-feeding axolotl embryos that are efficiently reared in micro-titer plates, up to 10,000 soluble chemicals from commercial, clinical-stage, and novel natural products libraries will be tested for impact on tail regeneration. Preliminary data show that the chemical screen and tail regeneration assay are likely to identify new molecules that impact regeneration. Positive hits from this screen, including previously identified inhibitors of Wnt, Tgf?, and Fgf signaling, will be reported to the community and investigated further under Specific Aim 2, using cellular and transcriptional approaches. In particular, assays will be developed to assess chemical effects on formation of the wound epidermis, which acts as an early signaling center in the recruitment of progenitor/stem cells. Also, assays will be developed to assess cellular proliferation and de- differentiation, two processes that are associated with endogenous regeneration. Genes found to be expressed differently between control and chemically treated embryos will be prioritized for knock out using the CRISPR/Cas9 method. For each gene target, two gRNA pairs will be designed and injected into single cell axolotl embryos. Embryos will be reared to assess viability, and then administered tail amputations to confirm CRISPR gene editing and test for regeneration competence. Embryos associated with CRISPRs that block or cause abnormal regeneration, will be prioritized for founding stable lines.
Specific Aim 3 will generate fluorescent reporter lines to assay signaling activity through major pathways known to function in regeneration and will also compare efficacies of two methods for developing gene-specific reporter lines, using as tester loci genes already known to mark cell populations critical for regenerative responses (neural stem cells, glia, muscle satellite cells). The chemical and genetic hits, and biological information arising from this model will be shared through a community website (Sal-Site). The proposed transgenics will be distributed by the Ambystoma Genetic Stock Center. Overall, this project integrates expertise across chemical screening, pharmacology, histology, transcription, transgenesis, and vertebrate biology to discover reagents and develop tools that are needed to enhance the axolotl for stem cell and regenerative biology.
This application seeks to develop resources that will better enable the fundamental study and application of a highly regenerative amphibian, the Mexican axolotl (Ambystoma mexicanum). Specifically, this project integrates unique infrastructure and expertise to discover reagents and develop tools that are needed to enhance the axolotl for stem cell biology and regeneration.
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