The heart of metamorphosing Mexican axolotl but not that of the cardiac mutant is associated with the upregulation of Hox A5.

The Mexican axolotl (Ambystoma mexicanum) is a facultative neotene which rarely undergoes metamorphosis in the wild. We now report for the first time a dramatic increase in the expression of HoxA5 in axolotl hearts as determined by RT-PCR and in situ hybridization analyses during spontaneous metamorphosis. The Mexican axolotl has a naturally occurring mutation called gene c which allows hearts in homozygous (c/c) embryos to form but never to beat. RT-PCR analysis has not shown any significant differences of HoxA5 expression in normal and mutant hearts. The predicted open reading frame of our already published partial cDNA clone of HoxA5 was confirmed by expressing it as a fusion protein with Glutathione transferase (GST fusion protein). Phylogenetic analysis with the deduced amino acid sequence of the isolated cDNA of the axolotl homolog of the murine HoxA5 shows that the axolotl sequence clusters more closely with the human and mouse HoxA5 homologs than with axolotl sequence. Western blot analysis revealed that anti-mouse HoxA5 antibody recognizes the axolotl HoxA5 protein.