Multiple species of myeloperoxidase messenger RNAs produced by alternative splicing and differential polyadenylation

Abstract

Three clones of full-length cDNA encoding human myeloperoxidase were isolated from a human leukemia HL-60 cell cDNA library in .lambda.gt10 and characterized. Analysis of the nucleotide sequence of one of the cDNA clones, .lambda.MP-H17, indicated that the cDNA contained 3207 bp with an open reading frame of 2238 bp, a 5'' noncoding region of 159 bp, a 3'' noncoding region of 800 bp, and a poly(A) tail of 10 bp. cDNA of the two other clones, .lambda.MP-H7 and .lambda.MP-H14, each contained insertions with shorter sequences of 96 and 82 bp, respectively, on the open reading frame of .lambda.MP-H17 cDNA. A myeloperoxidase genomic clone was isolated, and the structure of its 5'' region was determined and compared with the structures of these cDNAs. The comparison revealed that the three cDNAs were derived from myeloperoxidase mRNAs produced by alternative splicing from a transcript of the single gene. Nucleotide sequence analysis of the 3'' region of the cDNAs of several clones indicated that the mRNAs were polyadenylated at five different sites. Amino acid sequence determination of the amino-terminal and carboxy-terminal portions of the myeloperoxidase light and heavy chains revealed that, during processing of a precursor polypeptide into the mature protein, the amino-terminal polypeptide, the small peptide between the light and heavy chains, and the carboxy-terminal amino acid were excised.