Multiple mRNAs encode peripherin, a neuronal intermediate filament protein.

Three cDNA clones of 1.6 (3u), 1.2 (5g) and 0.6 (5b) kbp, specific for peripherin, a neuronal intermediate filament protein (IFP), have been isolated from a murine neuroblastoma cell lambda gt11 library by immunoscreening using peripherin antiserum. Antibodies eluted from the fusion proteins produced by clones 3u and 5g recognize the peripherin spots on immunoblots. Where they overlap the three cDNAs have identical sequences. cDNA 5g exhibits the closest homology to type III IFP cDNAs. cDNA 3u is identical to the corresponding region of cDNA 5g, except for the insertion of a 96 bp fragment at a position corresponding to the junction of exons 4 and 5 in type III IFP cDNAs. cDNA 5b is also identical to the corresponding region of cDNA 5g, except for the deletion of a 62 bp fragment at the junction of exons 8 and 9 in type III IFP cDNAs. S1 mapping experiments performed with probes covering the 3' end of the two unexpected regions show that three distinct mRNAs correspond to the three cDNAs. Moreover, three peripherin products, two minor 61 and 56 kd products in addition to the major 58 kd peripherin, are observed when poly(A)+ RNA is in vitro translated, the 61 kd peripherin being translated from the 3u-selected RNA. The three RNAs originate from alternative splicing of a unique peripherin gene, thus generating polymorphism of peripherin.