Expression of the neurotrophic tyrosine kinase receptors, ntrk1 and ntrk2a, precedes expression of other ntrk genes in embryonic zebrafish

BACKGROUND: The neurotrophic tyrosine kinase receptor (Ntrk) gene family plays a critical role in the survival of somatosensory neurons. Most vertebrates have three Ntrk genes each of which encode a Trk receptor: TrkA, TrkB, or TrkC. The function of the Trk receptors is modulated by the p75 neurotrophin receptors (NTRs). Five ntrk genes and one p75 NTR gene (ngfrb) have been discovered in zebrafish. To date, the expression of these genes in the initial stages of neuron specification have not been investigated. PURPOSE: The present work used whole mount in situ hybridization to analyze expression of the five ntrk genes and ngfrb in zebrafish at a timepoint when the first sensory neurons of the zebrafish body are being established (16.5 hpf). Because expression of multiple genes were not found at this time point, we also checked expression at 24 hpf to ensure the functionality of our six probes. RESULTS: At 16.5 hpf, we found tissue specific expression of ntrk1 in cranial ganglia, and tissue specific expression of ntrk2a in cranial ganglia and in the spinal cord. Other genes analyzed at 16.5 hpf were either diffuse or not detected. At 24 hpf, we found expression of both ntrk1 and ntrk2a in the spinal cord as well as in multiple cranial ganglia, and we identified ngfrb expression in cranial ganglia at 24 hpf. ntrk2b, ntrk3a and ntrk3b were detected in the developing brain at 24 hpf. CONCLUSION: These data are the first to demonstrate that ntrk1 and ntrk2a are the initial neurotrophic tyrosine kinase receptors expressed in sensory neurons during the development of the zebrafish body, and the first to establish expression patterns of ngfrb during early zebrafish development. Our data indicate co-expression of ntrk1, ntrk2a and ngfrb, and we speculate that these overlapping patterns indicate relatedness of function.