Identification Of Proteolytic Activity Research Articles

Proteolysis on the body surface of pyrethroid-sensitive and resistant Varroa destructor

The aim of this work was to determine the activity of proteases and protease inhibitors sampled from the body surface of tau-fluvalinate-sensitive and resistant V. destructor. Proteins were isolated from the tau-fluvalinate-sensitive and resistant mites, while mites untreated with tau-fluvalinate constituted the control. Subsequently, the following methodology was applied: protein concentration assay by the Lowry method - as modified by Schacterle and Pollack; assay of proteolytic activity in relation to various substrates (gelatine, haemoglobin, ovoalbumin, albumin, cytochrome C, casein) by the modified Anson method; identification of proteolytic activity in relation to diagnostic inhibitors of proteolytic enzymes (pepstatin A, PMSF, iodoacetamide, o-phenantrolin), using the Lee and Lin method; identification of acidic, neutral and basic protease activities by means of the modified Anson method; electrophoretic analysis of proteins in a polyacrylamide gel for protease detection with the Laemmli method and for protease inhibitor detection with the Felicioli method. The highest value of protein concentration was found in the tau-fluvalinate-sensitive V. destructor, while the highest activity levels of acidic, neutral and alkaline proteases were observed in the tau-fluvalinate-resistant mites. Aspartic, serine, thiolic and metallic proteases were found in the drug-resistant and drug-sensitive Varroa mites. The control samples were found to contain aspartic and serine proteases. In an acidic and alkaline environment, the results revealed a complete loss of inhibitor activities in the in vitro analyses and electrophoresis. Serine protease inhibitor activities (at pH 7.0) were high, especially in the group of tau-fluvalinate-resistant mites.

Analysis of pineapple [ Ananas comosus (L.) Merr.] fruit proteinases by 2-D zymography and direct identification of the major zymographic spots by mass spectrometry

Cysteine proteinases present in pineapple plants are phytotherapeutical agents with anti-edematous, anti-inflammatory, anti-thrombotic and fibrinolytic activities. Active components involved have been only partially identified as bromelain, the major proteinase in pineapple fruits. In this work, pineapple fruit extracts were analysed by 2-D zymography. Clear spots, corresponding to enzymatic activities, were excised, digested with trypsin and submitted to MALDI-ToF mass spectrometry for enzyme identification. The most representative enzymes were identified as bromelains, including their isoforms and their post-translational modifications. The novelty of the present study is the identification of proteolytic activities by means of direct MALDI-ToF MS analysis of the zymographic spots. Enzymes were identified without the need for 2-D gel electrophoresis or purification. 2-D zymography can offer not only the complete map of the enzymes present in a biological sample or in a food matrix, but it can allow also their direct identification including their isotypes.

Identification of proteolytic activities in ROS 17/2.8 cell lysates which cleave peptide substrates for protein kinase C-mediated phosphorylation.

We have observed two proteolytic activities in cell lysates from the rat osteoblastic osteosarcoma cell line ROS 17/2.8 which are capable of cleaving a peptide substrate for protein kinase C-mediated phosphorylation, and other peptides containing similar sequences. Both activities are inhibited by Pefabloc, a serine protease inhibitor, while one of the activities is inhibited by either EDTA or aprotinin. The protease inhibitors pepstatin, bestatin, E-64, leupeptin and phosphoramidon do not block either of these proteolytic activities.

Identification of proteolytic activities in the cytosolic compartment of mature human erythrocytes.

Individual lysates from human erythrocyte suspensions, completely deprived of leucocytes and were assayed for a number of proteolytic activities using both naturally occurring and synthetic substrates. Removal of hemoglobin by batchwise DEAE-cellulose chromatography did not modify the complement of the various proteolytic activities which were then fractionated by means of chromatography on a column of DEAE-cellulose, followed by conventional techniques such as gel chromatography and preparative electrophoresis. This procedure allowed a number of proteinases to be identified in the erythrocyte cytosol while providing a tool for their selective though partial separation. The following peptidases were found to be present in the soluble fraction of mature human erythrocytes: (a) a neutral endopeptidase having an approximate molecular weight of 110 000; (b) three acidic endopeptidases, with pH optima between 2.5 and 3.5, showing molecular and functional properties almost identical with those of the three proteinases previously purified from solubilized erythrocyte membranes [Pontremoli et al. (1979) Biochem. J. 181, 559--568]; (c) two dipeptidylaminopeptidases whose molecular weights are around 80 000 and tentatively identified as dipeptidyl aminopeptidases II and III, respectively, on the basis of their substrate specificities and pH optima; (d) presumably two aminopeptidases, having an approximate molecular weight of 80 000 and classified as an aminopeptidase with broad substrate specificity and an aminopeptidase B, respectively. No evidence for any carboxypeptidase activity was found in the cytosolic compartment of mature human erythrocytes.