Abstract
Monoclonal antibodies have been generated to a chimeric peptide comprised of Escherichia coli beta-galactosidase fused to the amino acid sequence 69-207 of human preproenkephalin A. Two monoclonal antibodies, PE-1 and PE-2, were identified by their ability to recognize the same segment of proenkephalin A fused to the cII gene product of the E. coli bacteriophage lambda. The binding domains of PE-1 and PE-2 have been broadly located, with respect to the primary translation product, within the amino acid sequences 152-207 and 84-131, respectively. Immunoblot analysis of total bovine adrenomedullary chromaffin granule lysate reveals PE-1 and PE-2 immunoreactive forms of observed molecular mass 35, 33, 29, 24, 22, and 15 kDa, and an 18-kDa PE-1 immunoreactive form. Separation of granule membranes from their contents reveals differential membrane association of these high molecular weight polypeptides. There is preliminary evidence that PE-1 may be detecting a subset of polypeptides where shortening from the NH2 terminus has occurred. We postulate that the 35-kDa form represents the intact bovine enkephalin precursor of predicted molecular mass 27.3 kDa. This experimental approach should be generally applicable to the generation of antibodies which will recognize intact peptide precursors together with their post-translational cleavage products.
Highlights
Monoclonal antibodies have been generated to a chi- lin sequences are flanked by pairs of basic residues which are meric peptide comprised of Escherichia coli @-galac- potential sites of proteolytic cleavage
Sep- and Bam-20P have been shown to bemore potent in the aration of granule membranes from their contents re- guinea pig ileum bioassay than Met- or Leu-enkephalin
There is preliminary evidence that PE-1 may be detecting a subset of polypeptides where shortening from the NH2 terminus has occurred
Summary
0 1988hy The American Societyfor Biochemistry and MolecularBiology, Inc. Val. 263, No 36, Issue of December 25, pp. 19788-19795,1988 Printed in U.S.A. 19788-19795,1988 Printed in U.S.A. Monoclonal Antibodiesto a Proenkephalin A Fusion Peptide Synthesized in Escherichia coli Recognize Novel Proenkephalin A Precursor Forms*. Glover From the Departmentof Biochemistry, Imperial College, South Kensington, LondonS, W 7 2-42,United Kingdom andthe. Studies focusing on the high molecular weight forms of proenkephalin have often been limited because of the fact that the majority of antibodies currently available has been raised to small synthetic enkephalin andnonenkephalin pep-. The predicted molecular mass of proenkephalin A is approximately 27 kDa. There is an extremely high degree of sequence homology between the proenkephalin A molecules of different mammalian species, indicating that nonenkephalin as well as enkephalin regions have been conserved during evolution and so may have intrinsic biologicalimportance. LlPresent address: ICRF Laboratories, Clare Hall, South Mimms, Potters Bar, Herts., EN6 3LD, U.K
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