Similarities and differences in the way neurotrophins interact with the Trk receptors in neuronal and nonneuronal cells

We have exploited a battery of approaches to address several controversies that have accompanied the expansion of the nerve growth factor (NGF) family of neurotrophic factors and the identification of the Trk tyrosine kinases as receptors for these factors. For example, we find that a recently cloned mammalian neurotrophin, known as either neurotrophin-4 or neurotrophin-5 and assigned widely differing receptor specificities, represents the functional counterpart of Xenopus neurotrophin-4 and is a 'preferred' ligand for TrkB. However, its interactions with TrkB can be distinguished from those of brain- derived neurotrophic factor (BDNF) with TrkB. We also find that all of the Trks display similar dose responses to their 'preferred' ligands in neuronal as compared with nonneuronal cells (i.e., NGF for TrkA, BDNF and NT-4/5 for TrkB, and NT-3 for TrkC), providing evidence against a role for accessory molecules expressed in neurons in generating receptors that would allow for responses to lower concentrations of the neurotrophins. However, we find that a neuronal environment does restrict the Trks in their ability to respond to their 'nonpreferred' neurotrophin ligands

Alternative forms of rat TrkC with different functional capabilities

We have identified transcripts encoding several different forms of rat TrkC, a member of the Trk family of receptor tyrosine kinases that serves as a receptor for neurotrophin-3. Some forms of TrkC lack the intracytoplasmic kinase domain and thus resemble previously defined truncated variants of TrkB. Other forms of TrkC contain variable-sized amino acid insertions within the tyrosine kinase domain. Transcripts encoding all forms of TrkC can be detected throughout the nervous system, displaying substantial overlap as well as mutually exclusive distribution patterns with transcripts for TrkB. Strikingly, only transcripts encoding the truncated forms of TrkB and TrkC are found in astrocytes, peripheral nerve, and nonneural tissues. Finally, forms of TrkC containing insertions within the kinase domain retain their ability to autophosphorylate in response to neurotrophin-3, but cannot mediate proliferation in fibroblasts or neuronal differentiation in PC12 cells