Cloning and Characterization of p97^MAPK, a Novel Human Homolog of Rat ERK-3

Abstract

Mitogen-activated protein kinases, or extracellular signal-regulated kinases (ERKs), are serine/threonine protein kinases that are activated in response to a wide variety of extracellular stimuli and are encoded by a multigene family. Little is known about the function of the ERK-3 subfamily. To explore the molecular diversity of the ERK-3 subfamily, we isolated a novel human cDNA, designated Hu-ERK-3, from a fetal skeletal muscle library. Analysis of the complete 3,920-bp nucleotide sequence revealed that this clone encodes a predicted protein of 721 amino acids. In vitro transcription-translation generates a 97-kDa protein referred to as p97^M4PK. Of all of the sequences compared, p97^M4PK is the most homologous to rat ERK-3. Interestingly, although p97^MAPK is highly (98%) homologous to ERK-3 at the amino acid level within the N-terminal two-thirds of the coding region, it diverges at the carboxyl terminus as a result of a unique extension of 178 amino acids. Although expression of p97^MAPK was detected in all of the tissues tested by Northern (RNA) analysis, the most abundant expression was seen in skeletal muscle. An antibody raised against the unique C terminus recognized a 97-kDa protein in human cells. By using this antibody in an immune complex protein kinase assay, we have shown that treatment of human fibroblasts with serum or phorbol esters activates a myelin basic protein and histone Hl kinase activity in immunoprecipitates. p97^MAPK appears to be the human homolog of rat ERK-3, and a member of this family is an active protein kinase.