K.S. Vinokurov

Sequence analysis and molecular characterization of larval midgut cDNA transcripts encoding peptidases from the yellow mealworm, Tenebrio molitor L.

Peptidase sequences were analysed in randomly picked clones from cDNA libraries of the anterior or posterior midgut or whole larvae of the yellow mealworm, Tenebrio molitor Linnaeus. Of a total of 1528 sequences, 92 encoded potential peptidases, from which 50 full‐length cDNA sequences were obtained, including serine and cysteine proteinases and metallopeptidases. Serine proteinase transcripts were predominant in the posterior midgut, whereas transcripts encoding cysteine and metallopeptidases were mainly found in the anterior midgut. Alignments with other proteinases indicated that 40% of the serine proteinase sequences were serine proteinase homologues, and the remaining ones were identified as either trypsin, chymotrypsin or other serine proteinases. Cysteine proteinase sequences included cathepsin B‐ and L‐like proteinases, and metallopeptidase transcripts were similar to carboxypeptidase A. Northern blot analysis of representative sequences demonstrated the differential expression profile of selected transcripts across five developmental stages of Te. molitor. These sequences provide insights into peptidases in coleopteran insects as a basis to study the response of coleopteran larvae to external stimuli and to evaluate regulatory features of the response.

DIGESTIVE PROTEOLYSIS ORGANIZATION IN TWO CLOSELY RELATED TENEBRIONID BEETLES: RED FLOUR BEETLE (Tribolium castaneum) AND CONFUSED FLOUR BEETLE (Tribolium confusum)

The spectra of Tribolium castaneum and T. confusum larval digestive peptidases were characterized with respect to the spatial organization of protein digestion in the midgut. The pH of midgut contents in both species increased from 5.6-6.0 in the anterior to 7.0-7.5 in the posterior midgut. However, the pH optimum of the total proteolytic activity of the gut extract from either insect was pH 4.1. Approximately 80% of the total proteolytic activity was in the anterior and 20% in the posterior midgut of either insect when evaluated in buffers simulating the pH and reducing conditions characteristic for each midgut section. The general peptidase activity of gut extracts from either insect in pH 5.6 buffer was mostly due to cysteine peptidases. In the weakly alkaline conditions of the posterior midgut, the serine peptidase contribution was 31 and 41% in T. castaneum and T. confusum, respectively. A postelectrophoretic peptidase activity assay with gelatin also revealed the important contribution of cysteine peptidases in protein digestion in both Tribolium species. The use of a postelectrophoretic activity assay with p-nitroanilide substrates and specific inhibitors revealed a set of cysteine and serine endopeptidases, 8 and 10 for T. castaneum, and 7 and 9 for T. confusum, respectively. Serine peptidases included trypsin-, chymotrypsin-, and elastase-like enzymes, the latter being for the first time reported in Tenebrionid insects. These data support a complex system of protein digestion in the Tribolium midgut with the fundamental role of cysteine peptidases.

Study of Inhibitors of Proteinases in the Midgut Anterior Part of the Cockroach Nauphoeta cinerea

The study of proteinase inhibitors in the midgut of the omnivorous cockroach Nauphoeta cinerea was carried out under conditions excluding their food origin. One trypsin inhibitor of molecular mass of 8.0 kDa and three subtilisin inhibitors of molecular masses of 13.0, 8.0, and 4.5 kDa were found in the protein preparations, using Sephadex G-50 fractionation. 94% of the activity of the both inhibitor types were located in the anterior midgut part. Using a high performance liquid chromatography on Mono Q column, the preparation of trypsin inhibitor was purified 120 times. Its isoelectric point was to 4.3. The inhibitor lost a part of its activity both under acidic and, especially, under alkaline conditions and was completely inactivated at pH 10. The studied inhibitors inhibited effectively activities of trypsin-like and subtilisin-like proteinases from the cockroach posterior midgut part. The possible physiological role of the proteinase inhibitors and, particularly, their participation in regulation of digestion in the midgut of N. cinerea are discussed.