Enzyme markers and isolation of the microvillar and perimicrovillar membranes of Dysdercus peruvianus (hemiptera: pyrrhocoridae) midgut cells

The midgut of Dysdercus peruvianus is divided into four sections (V₁-V₄). All the cells have microvilli ensheathed by a lipoprotein membrane (perimicrovillar membrane) extending toward the lumen as narrow tubes with dead ends. Subcellular fractionation of V₁ and V₂ tissue in isotonic and hypotonic conditions showed that -glucosidase is associated with membranous structures larger than those associated with β-glucosidase. The /β-glucosidase activity ratio is 34 ± 4 in V₁ tissue and 170 ± 10 in membranes recovered from the V₁ luminal contents. These membranes are resolved in sucrose gradients into low density (1.087 ± 0.001 g/cm³) -glucosidase-carrying membranes (/β-glucosidase activity ratio of 330±30) and high density (1.132 ± 0.002g/cm³) β-glucosidase-carrying-membranes. Low-density membranes have 1090 ± 60 μg lipid/mg protein and apparently are not contaminated by high-density ones (electron micrographs). SDS-polyacrylamide gel electrophoresis (SDS-PAGE) showed that membranes recovered from V₁ luminal contents are composed mainly of a-glucosidase-rich membranes. The data suggest that -glucosidase-rich membranes are perimicrovillar membranes which may be partly lost into luminal contents on dissection, with densities and lipid/protein ratios similar to that of myelin sheaths, in accordance with previous freeze-fracture data. β-Glucosidase-rich membranes are probably microvillar membranes with densities increased by the presence of associated portasomes.