Immunoelectron microscopy study of polyamines using a newly prepared monoclonal antibody against spermidine: use of a mixture of glutaraldehyde and paraformaldehyde as a cross-linking agent in the preparation of the antigen.

We developed a mouse monoclonal antibody (ASPD-19, IgG3 sub-isotype mAb) against spermidine (Spd) conjugated to bovine serum albumin (BSA) using a mixture of glutaraldehyde (GA) and paraformaldehyde (PFA)-sodium borohydride for applications in immunoelectron microscopic studies. The antibody specificity was evaluated by an ELISA binding test simulating the immunocytochemistry (ICC) of tissue sections. The ASPD-19 mAb is highly specific for Spd and Spm, almost the same degree to each, and can distinguish alterations in the chemical structure of other polyamine (PA) analogs, showing less than 3.2% cross-reaction with N(1)-acetylspermidine, acetylspermine, or N(8)-acetylspermidine. By an indirect immunoperoxidase method using the ASPD-19 mAb, PA-like immunoreactivities were observed in different tissues fixed with Karnovsky fixative (a mixture of GA and PFA) in combination with borohydride reduction. In contrast, immunoreactivity was very low in tissues when the borohydride reduction step was omitted. The PA-like immunoreaction was completely abolished by the adsorption of the ASPD-19 mAb with 100 microg/ml of Spd or Spm, but was inhibited little or none by other PA-related compounds or amino acids. A light microscopic ICC method using ASPD-19 produced immunostaining of PAs in certain cells in rat tissues with high biosynthetic activities (small intestine, pancreas and spinal cord). A pre-embedding immunoelectron microscopic study using rat spinal cord showed PA immunoreactivity located predominantly on free (polysomes) and attached ribosomes of the rough endoplasmic reticulum (Nissl bodies) in the cytoplasm of motor neurons. These results are in complete agreement with the results obtained by our recent ICC method using another mAb (ASPM-29) produced against GA-conjugated Spm.

Immunoelectron microscopic study for histamine in the gastric enterochromaffin-like cells of rats treated with the proton pump inhibitor lansoprazole.

The enterochromaffin-like (ECL) cells of the gastric mucosa in animals play an important role in gastric acid secretion. They contain few granules and numerous secretory vesicles and microvesicles. They operate under the control of circulating gastrin. In the present study, we conducted an immunoelectron microscopic study for histamine (HA) in the ECL cells of rats given the proton pump inhibitor lansoprazole (LP), which is known to induce hypergastrinemia. The pre-embedding indirect immunoperoxidase procedure utilized a mouse monoclonal antibody AHA-2 against glutaraldehyde-conjugated HA. Rats received LP (50 microg/kg per day, subcutaneously) over a period of a month, and developed hypertrophy of the ECL cells in the stomach. It was clearly demonstrated that HA was located to a much higher degree in the cytoplasm of ECL cells of LP-treated rats than in normal rats. HA immunoreactivity was observed in the cores of the granules and secretory vesicles of the ECL cells in all the rats, but in the LP-treated rats it was observed in the cores of the newly developed vacuoles as well. These results may suggest that HA may be actively generated in the cytoplasm of the hypertrophic ECL cells of LP-treated rats. Also suggested in the present study is that HA is instrumental in the transformation of granules into secretory vesicles and in their consequent enlargement, and that vacuoles are formed by the fusion of large secretory vesicles. Furthermore, the finding that relatively little HA immunoreactivity existed in the vacuoles may suggest that the vacuoles actively degrade superfluous secretory products (for example, HA) through enhanced autophagocytosis and/or oxidative stress. Another possibility may be that the membrane-bounded structure regarded as the vacuoles in this study might actually be an invagination structure produced as a result of successive series of exocytosis through which the secretory vesicles actively and rapidly release HA.