IDENTIFICATION OF 2 PROTEINS THAT BIND TO A PYRIMIDINE-RICH SEQUENCE IN THE 3'-UNTRANSLATED REGION OF GAP-43 MESSENGER-RNA

GAP-43 is a membrane phosphoprotein that is important for the developm ent and plasticity of neural connections, In undifferentiated PC12 phe ochromocytoma cells, GAP-43 mRNA degrades rapidly (t(1/2) = 5 h), but becomes stable when cells are treated with nerve growth factor, To ide ntify trans-acting factors that may influence mRNA stability, we combi ned column chromatography and gel mobility shift assays to isolate GAP -43 mRNA binding proteins from neonatal bovine brain tissue, This resu lted in the isolation of two proteins that bind specifically and compe titively to a pyrimidine-rich sequence in the 3'-untranslated region o f GAP-43 mRNA, Partial amino acid sequencing revealed that one of the RNA binding proteins coincides with FBP (far upstream element binding protein), previously characterized as a protein that resembles hnRNP K and which binds to a single-stranded, pyrimidine-rich DNA sequence up stream of the c-myc gene to activate its expression, The other binding protein shares sequence homology with PTB, a polypyrimidine tract bin ding protein implicated in RNA splicing and regulation of translation initiation, The two proteins bind to a 26 nt pyrimidine-rich sequence lying 300 nt downstream of the end of the coding region, in an area sh own by others to confer instability on a reporter mRNA in transient tr ansfection assays, We therefore propose that FBP and the PTB-like prot ein may compete for binding at the same site to influence the stabilit y of GAP-43 mRNA.