A monoclonal antibody against the glutaraldehyde-conjugated polyamine, putrescine: application to immunocytochemistry.

Abstract

We developed a mouse monoclonal antibody (mAb; APUT-32, IgG1 subisotype mAb) against putrescine (Put) conjugated to bovine serum albumin using a glutaraldehyde (GA)-sodium borohydride procedure, for applications in immunocytochemistry (ICC). The antibody specificity was evaluated by an ELISA binding test, simulating the ICC of tissue sections. APUT-32 mAb was highly specific to Put, and distinguished alterations in the chemical structure of other polyamine (PA) analogs, showing 3.8% crossreaction with cadaverine, 3.3% with spermidine (Spd), and 2.3% with 1,3-diaminopropane. Comparable results in immunoreactivity of APUT-32 mAb were obtained with the ELISA inhibition test. By the indirect immunoperoxidase method using the APUT-32 mAb, Put-like immunoreactivities were observed in the cytoplasm of HeLa and MCF-7 cell lines fixed with GA in combination with NaBH4 reduction, but almost no immunoreaction was seen in the cytoplasm of the human melanoma BD cell line. On the other hand, the same method but using a previously prepared ASPM-29 mAb, specific for spermine (Spm) and Spd, produced intense immunostaining in the cytoplasm of all the three cell types. The Put-like immunoreaction was completely abolished by absorption of the APUT-32 mAb with 10 microg/ml Put-human serum albumin conjugate prepared using GA and NaBH4. HPLC analysis was also performed for the levels of each of the PAs in the three types of cell, showing that the levels of Put detected were much lower than those of Spm and Spd, and were strikingly different in the three cell lines among which the human melanoma BD cell line contained the lowest levels of Put. These results strongly suggest that APUT-32 mAb reacts specifically with Put in the tumor cells and therefore has the potential as a new tool for elucidating the biological roles of Put in cells and tissues.