Haruko Sato

Immunological Aspects of Secretin. Substance P, and Vip

Secretin, substance P, and vasoactive intestinal peptide (VIP) were studied from the immunological point of view using synthetic hormones and their related peptides which were prepared by the conventional method for peptide synthesis. Immunological properties of these hormones were characterized by radioimmunoassays specific to the respective hormones. Antisecretin antisera (NCC-R-1 and R-801) were generated in rabbits with synthetic porcine secretin absorbed on polyvinylpyrrolidone. Antiserum to substance P (R-400) was produced in a rabbit with synthetic substance P-human alpha-globulin conjugate. Generation of anti-VIP antiserum (R-502) was carried out by immunizing rabbits with synthetic VIP absorbed on polyvinylpyrrolidone. Synthetic polypeptides related to the three hormones that were examined in this study include secretin(4-27), secretin(5-27), secretin(7-27), secretin(11-27), secretin(14-27), secretin(18-27), secretin(1-22)amide, secretin(7-22)amide, Nalpha-tyrosyl-secretin, [1-Tyr]secretin, [4-Ala]secretin, [4-D-Ala]secretin, [4-Ala,5-Val]secretin, [6-Tyr]secretin, substance P(2-11), substance P (3-11), substance P(4-11), substance P(5-11), substance P(6-11), Nalpha-tyrosyl-substance P, [1-Tyr]substance P, [8-Tyr]substance P, [11-Leu]substance P, des-11-Met-substance P, VIP(7-28), VIP(11-28), VIP(18-28), VIP(1-18)amide, and VIP(1-22)AMIDE. The results revealed two antigenic regions at the amino- and carboxylterminal portions of the secretin and VIP molecules. As to substance P, the major antigenic region was located within the 3 to 11 sequence. The proline residue in position 4 and methionine in position 11 seemed to be of special importance. The immunoassays demonstrated the existence of immunoreactivities of these hormones in hot water extracts from various porcine tissues. In the pituitary, VIP and substance P immunoreactivities were detected, whereas secretin was not. Secretin, VIP, and substance P were found in the pancreas, but at low concentrations. Distributions of these hormones in various sites of the gastrointestinal tract were also demonstrated.

Production of VIP- and PHM (human PHI)-related peptides in human neuroblastoma cells.

We demonstrated the production and release of a peptide structurally identical with porcine and bovine VIP-28 in human neuroblastoma NB-OK-1 cell line. In the cells, VIP-like immunoreactive (IR-VIP) components of 8 K dalton (Kd), 11 Kd, 18 Kd and 30 Kd were also detected and the 8 Kd and 18 Kd components were apparently released into the culture medium, indicating the possibility of less extended or limited processing of the VIP precursor in the cultured cells of tumor origin. The cells were also shown to produce, simultaneously with the VIP-28, a PHI/PHM-like immunoreactive (IR-PHI/PHM) component which coeluted with synthetic PHM-27, not PHI-27, in reverse-phase high performance liquid chromatography (HPLC). In addition to the PHM-27-like component, another IR-PHI/PHM component was detected in the cell extract which eluted in HPLC immediately before synthetic PHM-27 and crossreacted with PHI-27 amino-terminal specific antiserum but not with PHI-27 central-portion specific or PHM-27 carboxyl-terminal specific antiserum. The presence in NB-OK-1 cells of this IR-PHI/PHM component related to the amino-terminal portion of PHI/PHM suggested possible alternative(s) of post-translational processing of the VIP precursor in the cells in terms of the production of PHM-27-related peptides.