Histochemical analysis of molluscan stomach and intestinal alkaline phosphatase: a sialoglycoprotein.

Abstract

Though sialoprotein nature of alkaline phosphatase of certain mammalian organs has been suggested by biochemical investigations, no histochemical techniques have yet been applied to elucidate this concept. With this view, the alkaline phosphatase of stomach and intestine of a mollusc—Semperula maculata—was analysed histochemically to elucidate its sialoglycoprotein nature. The localisation of alkaline phosphatase and sialic acid was investigated by employing well known and standard histochemical techniques. Alkaline phosphatase was localised selectively in the brush border of the mucosa of stomach and intestine, it was Mg++ nonsensitive but showed a structure-linked sensitivity to phenylalanine. The sialomucins were selectively localised in the brush border, whereas the goblet cells contained both the sialomucins and sulfomucins, and the connective tissue of lamina propria contained sulfomucins. The localisation of alkaline phosphatase and sialomucins in the brush border uniquely coincided with each other. The alkaline phosphatase activity in the brush border was completely lost after neuraminidase treatment at 37.5° C for 16 h. Such effect of neuraminidase on alkaline phosphatase activity was pH dependent and controlled by velocity of reaction. Heat-inactivated neuraminidase showed no effect on alkaline phosphatase activity. These histochemical results have been interpreted as suggesting a sialoglycoprotein nature of alkaline phosphatase in the brush border, and sialic acid somehow seems to be essential for enzyme activity. These results, thus, indicate necessity of visualising some of the sialo-glycoproteins as macromolecules with catalytic activity.