Expression of Met-(-1) angiogenin in Escherichia coli: conversion to the authentic less than Glu-1 protein.

A method for obtaining authentic human angiogenin utilizing an Escherichia coli recombinant expression system is described. A synthetic gene encoding angiogenin was placed into a vector for direct expression under the control of a modified E. coli trp promoter. The protein was produced by the bacteria in an insoluble form and purified to homogeneity by cation-exchange and reversed-phase HPLC following reduction/solubilization and reoxidation. The protein isolated was identified as Met-(-1) angiogenin by amino acid analysis and tryptic peptide mapping; the latter demonstrated that all three disulfide bonds had formed correctly. Both the enzymatic and angiogenic activities of the Met-(-1) protein were equivalent to those of native angiogenin. A Met-(-1) Leu-30 derivative of angiogenin was also isolated and found to be fully active. Conversion of Met-(-1) angiogenin to the authentic less than Glu-1 protein was achieved by treatment with Aeromonas aminopeptidase under conditions in which the new N-terminal glutamine readily cyclizes nonenzymatically. This aminopeptidase treatment may have more general applicability for removal of undesirable N-terminal methionine residues from foreign proteins expressed in bacteria.