Dispersion and isolation of beating cells from adult rat heart

The cells of adult rat heart ventricles were dispersed using crude bacterial collagenase. An investigation into the effect of shaking speed, stroke length, concentration of enzyme, ionic composition, and pH of the dispersing medium permitted the development of optimal conditions for obtaining beating myocytes. Approximately one-quarter of the initial protein content of ventricular chunks could be routinely recovered as single cells after such dispersion. Centrifugation through solutions of Ficoll in phosphate buffer selectively concentrated the beating myocytes and removed contaminating cells and tissue debris.     

Morphometric analysis of the isolated calcium-tolerant cardiac myocyte

Summary Using morphometric analysis of thin sections and freeze-fracture replicas, the ultrastructure of isolated rat myocytes prepared by collagenase digestion (Powell et al. 1980) was compared with that of myocytes fixed by perfusion of intact myocardium. The volumes of myofibrils, mitochondria, nuclei, sarcoplasmic reticulum and lipid droplets in the isolated myocytes did not differ from those of their counterparts in the intact heart, but the volume occupied by transverse tubules was apparently reduced. The isolated cells had significantly shorter sarcomeres than did cells in the intact tissue, and this was associated with an altered topography of plasma membrane surface folds at the level of the Z-lines. Plasma membrane intramembrane particles were randomly distributed and showed the same numerical density on the E-faces of both isolated and intactheart myocytes. However, P-face particle density was slightly reduced in the isolated cells. It is concluded that the few differences detected in the isolated cells do not reflect any fundamental derangement of their properties.     

Primary Culture of Adult Rat Heart Myocytes

Cultured primary adult rodent heart cells are an important model system for cardiovascular research. Nevertheless, establishment of robust, viable cultured adult myocytes can be a technically challenging, rate-limiting step for many researchers. Here we described a protocol to obtain a high yield of adult rat heart myocytes that remain viable in culture for several days. The heart is isolated and perfused with collagenase and protease under low Ca²⁺ conditions to recover single myocytes. Ca²⁺-tolerant cells are obtained by stepwise increases in extracellular Ca²⁺ concentration in three subsequent wash steps. Cells are filtered, resuspended in culture medium, and plated on laminin coated slips. Cultured myocytes obtained using this protocol are viable for up to four days and are suitable for most experiments including electrophysiology, biochemistry, imaging and molecular biology.Open in a separate windowClick here to view.^{(71M, flv)}     

Nature of the inhibitory effect of collagenase on phosphodiesterase activity

The level of phosphodiesterase (PDE) activity is lower in collagenase-isolated human fat cells than in adipose tissue fragments. The inhibition is not species-specific since collagenase also inhibits PDE in rat adipose tissue and bovine heart. In subcellular fractions from isolated fat cells, the PDE activities were lowest in the plasma membrane-enriched fractions and highest in the cytosolic fractions. This is opposite to PDE in subcellular fractions obtained from adipose tissue fragments. In dose-response experiments, collagenase inhibited particulate PDE to a much larger extent than it inhibited soluble PDE. The extracellular activities of PDE were completely eliminated by collagenase. Repeated washings or reincubation of the isolated fat cells did not restore the PDE activity. A purified collagenase with low specific protease activity reduced the PDE activity in isolated fat cells to a lesser extent than did a collagenase with high specific protease activities. Collagen and several protease inhibitors were ineffective in preventing the reduction of PDE after exposure to collagenase. It is concluded that nonspecific proteases in the collagenase preparations used for fat cell isolation interact with particulate and soluble PDE causing an irreversible inhibition of PDE activity in isolated fat cells. Of the various forms of PDE, plasma membrane-associated PDE seems most sensitive to collagenase.     

A rapid technique for the isolation and purification of adult cardiac muscle cells having respiratory control and a tolerance to calcium

A rapid technique is described for the isolation of muscle cells from adult rat myocardium using in vitro perfusion with calcium-free bicarbonate buffer containing crude collagenase. Under optimum conditions, 5 × 10⁶ cells per g tissue are obtained and the suspension may be purified to contain 70% intact cells. The complete procedure is rapid and isolated myocytes beat, exclude vital stains, have conventional sub-cellular morphology, show tight respiratory coupling and also have a tolerance to external calcium not found in cells isolated by other perfusion techniques. This represents a significant advance in the development of an isolated cell model for the study of myocardial mechanisms.     

Atrial cardiomyocyte calcium signalling

Whereas Ca²⁺ signalling in ventricular cardiomyocytes is well described, much less is known regarding the Ca²⁺ signals within atrial cells. This is surprising given that atrial cardiomyocytes make an important contribution to the refilling of ventricles with blood, which enhances the subsequent ejection of blood from the heart. The dependence of cardiac function on the contribution of atria becomes increasingly important with age and exercise. Disruption of the rhythmic beating of atrial cardiomyocytes can lead to life-threatening conditions such as atrial fibrillation. Atrial and ventricular myocytes have many structural and functional similarities. However, one key structural difference, the lack of transverse tubules (“T-tubules”) in atrial myocytes, make these two cell types display vastly different calcium patterns in response to electrical excitation. The lack of T-tubules in atrial myocytes means that depolarisation provokes calcium signals that originate around the periphery of the cells. Under resting conditions, such Ca²⁺ signals do not propagate towards the centre of the atrial cells and so do not fully engage the contractile machinery. Consequently, contraction of atrial myocytes under resting conditions is modest. However, when atrial myocytes are stimulated with a positive inotropic agonist, such as isoproterenol, the peripheral Ca²⁺ signals trigger a global wave of Ca²⁺ that propagates in a centripetal manner into the cells. Enhanced centripetal movement of Ca²⁺ in atrial myocytes leads to increased contraction and a more substantial contribution to blood pumping. This article is part of a Special Issue entitled: 11th European Symposium on Calcium.     

Developmental modulation of embryonic cardiac myocyte adhesion to cardiac collagens in vitro

The goal of this investigation is to identify molecules that mediate embryonic cardiac myocyte adhesion during chick cardiac morphogenesis. The assay used employs culturing embryonic myocytes on substrata containing embryonic heart proteins separated by molecular weight. This assay shows that embryonic myocytes from 10- to 14-day-old embryos will bind to 140,000 and 128,000 Da proteins present in embryonic hearts and do not require Mg²⁺ or Ca²⁺ for adhesion. Myocytes from embryos younger than 10 days or older than 14 days display little or no binding. Embryonic heart flbroblasts collected at these same ages do not bind to these proteins. The 140- and 128-kDa proteins were found to copurify in extraction procedures for procollagens. Amino acid analysis shows that both proteins contain high glycine and hydroxyproline, indicating that they are collagens. However, glycine and imino acid levels are low relative to other known collagens, indicating a nonhelical domain present in each molecule and most closely resembled levels present in procollagens. Immunoblots show that antisera to chick collagen type I recognizes the 128-kDa protein while anti-collagen type III recognizes the 140-kDa protein. Monoclonal antibodies to the amino terminal propeptide of collagen type I recognize the 128-kDa protein in immunoblotting procedures. Embryonic chick myocytes bind to 140/128 kDa proteins present in extracts of sympathetic trunk, although they do not bind to 140/128 kDa proteins in embryonic tendon. The findings thereby indicate that forms of type III and type I collagens in embryonic heart support direct adhesion of embryonic myocytes for a restricted period of cardiac myogenesis and that these proteins differ from collagen types I and III present in other tissues and from fully processed collagen types I and III.     

Human placental tissue stimulates bovine capillary endothelial cell growth,migration and protease production

A crude extract of human placenta has been demonstrated to stimulate growth, motility and the production of the proteases plasminogen activator and collagenase in cultured bovine capillary endothelial cells. These data are in keeping with the presence of an angiogenic factor(s) in human placenta.     

Dissociation of single cells from lung or kidney tissue with elastase

Summary Experiments were conducted to determine the capacity of various enzyme preparations to dissociate single cells from guinea pig lung tissue. The number of cells separated from tissue progressively increased as the concentration of crude trypsin was increased from 25 to 250 mg per 100 ml. This action could be inhibited by soy bean trypsin inhibitor. Elastase, but not ethylenediaminetetraacetate (disodium salt), crystalline trypsin, nor chymotrypsin, dissociated cells from lung tissues. Crude trypsin (Trypsin 1∶300) was found to contain 3.0 Sachar units of elastase per mg. Elastase was also inhibited by soy bean trypsin inhibitor. Only some collagenase preparations dissociated cells from lung tissue. Impure bacterial proteases dissociated lung cells. Our data suggest that the term “trypsinization” to denote dissociation of cells from tissue with crude preparations of trypsin is misleading and should be discontinued. Partially supported bv Armour-Baldwin Laboratories and the National Institute of Health, Grant, AM 12919.     

Isolation and enrichment of Ca2+-tolerant myocytes for biochemical experiments from guinea-pig heart

Isolated myocytes for biochemical experiments must be homogeneous and highly enriched in viable cells. For cardiac myocytes, isolation of Ca2+-tolerant cells in high yield and with good viability has been possible from rat. This paper describes myocyte isolation and enrichment procedures which are effective for several species including guinea-pig and rat. New methods for selection of collagenase and viable cells are presented. Using Ca2+-tolerant myocytes obtained from guinea-pig heart and enriched in viable cells, dihydropyridine binding sites are shown to be accessible only in depolarized cells.     

Specific attachment of desmin filaments to desmosomal plaques in cardiac myocytes

Intercellular junctions which are similar in ultrastructure and protein composition to typical desmosomes have so far only been found in epithelial cells and in heart tissue, specifically in the intercalated disks of cardiac myocytes and at cell boundaries between Purkinje fiber cells. In epithelial cells the cytoplasmic side of desmosomes, the 'desmosomal plaque', represents a specific attachment structure for the anchorage of intermediate filaments (IF) of the cytokeratin type. Cardiac myocytes do not contain cytokeratin filaments. In primary cultures of rat cardiac myocytes, we have examined by immunofluorescence and electron microscopy, using single and double label techniques, whether other types of IF are attached to the desmosomal plaques of the heart. Antibodies to desmoplakin, the major protein of the desmosomal plaque, have been used to label specifically the desmosomal plaques. It is shown that the desmoplakin-containing structures are often associated with IF stained by antibodies to desmin, i.e., the characteristic type of IF present in these cells. Like cytokeratin filaments in epithelial cells, desmin filaments attach laterally to the desmosomal plaque. They also remain attached to these plaques after endocytotic internalization of desmosomal domains by treatment of the cells with EGTA. These desmin filaments do not appear to attach to junctions of the fascia adherens type and to nexuses (gap junctions). These observations show that anchorage at desmosomal plaques is not restricted to IF of the cytokeratin type and that IF composed of either cytokeratin or desmin, specifically attach, in a lateral fashion, to desmoplakin-containing regions of the plasma membrane. We conclude that special domains exist in these two IF proteins that are involved in binding to the desmosomal plaque.     

Developmental modulation of embryonic cardiac myocyte adhesion to cardiac collagens in vitro.

The goal of this investigation is to identify molecules that mediate embryonic cardiac myocyte adhesion during chick cardiac morphogenesis. The assay used employs culturing embryonic myocytes on substrata containing embryonic heart proteins separated by molecular weight. This assay shows that embryonic myocytes from 10- to 14-day-old embryos will bind to 140,000 and 128,000 Da proteins present in embryonic hearts and do not require Mg2+ or Ca2+ for adhesion. Myocytes from embryos younger than 10 days or older than 14 days display little or no binding. Embryonic heart fibroblasts collected at these same ages do not bind to these proteins. The 140- and 128-kDa proteins were found to copurify in extraction procedures for procollagens. Amino acid analysis shows that both proteins contain high glycine and hydroxyproline, indicating that they are collagens. However, glycine and imino acid levels are low relative to other known collagens, indicating a nonhelical domain present in each molecule and most closely resembled levels present in procollagens. Immunoblots show that antisera to chick collagen type I recognizes the 128-kDa protein while anti-collagen type III recognizes the 140-kDa protein. Monoclonal antibodies to the amino terminal propeptide of collagen type I recognize the 128-kDa protein in immunoblotting procedures. Embryonic chick myocytes bind to 140/128 kDa proteins present in extracts of sympathetic trunk, although they do not bind to 140/128 kDa proteins in embryonic tendon. The findings thereby indicate that forms of type III and type I collagens in embryonic heart support direct adhesion of embryonic myocytes for a restricted period of cardiac myogenesis and that these proteins differ from collagen types I and III present in other tissues and from fully processed collagen types I and III.     

Activation of human breast carcinoma collagenase through plasminogen activator

Latent collagenase activity was detected in the media of a well-characterized line of human breast carcinoma cells maintained for over two years in culture. The media also contained sufficient plasminogen activator to convert extrinsically added plasminogen to plasmin which in turn activated the collagenase. During culture of the breast carcinoma in serum-free medium, collagenase activity was maximum on day 12 whereas plasminogen activator activity changed little with time. Using type I collagen as a substrate, the activated breast tumor collagenase produced $\text{3}\text{4}\text{?}\text{1}\text{4}$ fragments consistent with a mammalian collagenase. These findings suggest a pathologic role of plasminogen activator in the activation of latent collagenase during tumor invasion.A number of investigators have postulated that proteases may play a role in tumor invasion (1–5). Collagenase is one such protease which is active at neutral pH and specifically cleaves triple helical collagen into two ($\text{3}\text{4}\text{?}\text{1}\text{4}$ fragments (6). Secretion of collagenase by tumor cells migrating from the primary mass provides an attractive hypothesis for the mechanism of tumor invasion of surrounding host connective tissue—since the local environment would likely be at neutral pH. Consequently, a number of investigators have reported significant levels of collagenase activity in a wide variety of tumors (7–14). Abramson (13) has correlated aggressive $\text{in vivo}$ growth in carcinomas of the head and neck with collagenase activity, and Kuettner et al. (14) have postulated that inhibitors of collagenase may prevent tumors from invading cartilage.Collagenase is produced in both latent and active forms (6). The latent form can be activated with brief protease treatment (15). Since one of the proteases capable of activating collagenase is plasmin (15), the possibility arose that tumor cells could activate collagenase through plasminogen activator. Plasminogen activator secreted by tumor cells (4, 5) could convert plasminogen zymogen to plasmin which would in turn activate latent tumor collagenase. Testing this hypothesis $\text{in vitro}$ was the subject of the present study.Previous studies on collagenase from human carcinoma (7, 13, 14) have suffered from the drawback that contaminating inflammatory cells and fibroblasts may have been the source of the collagenase. Therefore, we have studied collagenase production from cultured human breast carcinoma cells which have been well characterized to be mammary epithelial in origin, malignant in karyotype, and able to grow in nude mice. Production of collagenase from these cells is therefore unequivocally of human carcinoma origin. The time course of latent collagenase and plasminogen activator secretion by these cultured tumor cells was studied following withdrawal of serum. To test whether plasminogen activator was secreted in sufficient amounts to indirectly activate latent collagenase, collagenase activity of the culture media was studied after the extrinsic addition of plasminogen. Finally, to verify that the tumor-secreted collagenase cleaved type I collagen at a single locus, enzyme degradation products were studied by gel electrophoresis.     

产胶原酶的蜡样芽胞杆菌发酵条件优化及酶的分离纯化

【目的】优化蜡样芽胞杆菌R75E菌株产胶原酶的条件,并通过蛋白分离纯化技术获得高纯度胶原酶。【方法】利用单因素及正交试验优化蜡样芽胞杆菌R75E产胶原酶的发酵条件及发酵培养基,将发酵液离心除菌后得到粗酶液,对其依次通过硫酸铵分级沉淀、Butyl FF疏水层析及SuperdexTM 200凝胶过滤层析等方法对目标胶原酶进行分离纯化,利用SDS-PAGE电泳检测其纯度。【结果】优化后发酵条件为培养温度41°C、接种量6%、培养时间36 h,优化后发酵培养基为葡萄糖10 g/L、蛋白胨5 g/L、起始p H 7.0,粗酶液酶活力较优化前提高了2.9倍;将该粗酶液经过一系列纯化后得到纯度超过90%的胶原酶产物,其纯化倍数和回收率分别为18.4和1.1%。【结论】获得蜡样芽胞杆菌R75E的最佳产酶条件,并对胶原酶分离纯化的方法进行了探索,为微生物胶原酶的开发应用奠定基础。     

Characterization of extracellular alkaline proteases and collagenase induction in Vibrio alginolyticus

The number and approximate molecular weights of extracellular alkaline proteases produced by Vibrio alginolyticus were determined by gelatin-PAGE. Three major bands of protease activity with apparent molecular weights of approximately 28 000, 22 500 and 19 500 (proteases 1, 2 and 3, respectively) and two minor bands of protease activity with apparent molecular weights of approximately 15 500 and 14 500 (proteases 4 and 5, respectively) were obtained after gelatin-PAGE. The activities of the five proteases were inhibited by serine protease inhibitors but their activities were not affected by inhibitors of trypsin-like enzymes. Histidine, which inhibited V. alginolyticus collagenase, did not inhibit the activities of the alkaline serine proteases. The production of protease 1, however, was enhanced by histidine. Protease 1 production was also affected by temperature and production was depressed at 37 degrees C. Gelatin-PAGE of a commercial V. alginolyticus collagenase preparation revealed four bands of activity which were identified as collagenases with apparent molecular weights of approximately 45 000, 38 500, 33 500 and 31 000. The collagenase preparation was contaminated with two serine proteases. The release of [3H]proline from collagen matrices produced by smooth muscle cells was shown to be a sensitive assay for bacterial collagenases and was used to show that V. alginolyticus produced a basal constitutive level of extracellular collagenase. The constitutive levels of collagenase were affected by aeration.     

The enzymatic evaluation of procollagenase and collagenase inhibitors in crude biological media

The validity of the enzymatic assay of procollagenase within crude biological media containing also the collagenase inhibitor TIMP (tissue inhibitor of metalloproteinases) as well as other (pro)metalloproteinases and sometimes, metalloproteinase-TIMP complexes, has been reevaluated. To be enzymatically assayed, procollagenase has to be activated. The standard activation procedures by either trypsin or 4-aminophenylmercuric acetate (APMA) both allow an optimal recovery of collagenase from procollagenase when the media do not contain free TIMP. However, they do not destroy TIMP nor do they reactivate the collagenase present in enzyme-inhibitor complexes. Therefore, the collagenase formed by the activation of procollagenase in the presence of free TIMP is immediately inactivated by binding to the inhibitor. As a result, both the bound collagenase and TIMP can no longer be assayed by enzymatic methods. An optimal recovery of collagenase can, however, be obtained if free TIMP is neutralized by the binding of other tissue metalloproteinases (such as those present in culture media of rabbit bone marrow-derived macrophages) prior to the activation and assay of procollagenase. Similarly, it is possible to recover under an active free form a large part of the TIMP present in collagenase- (or other metalloproteinase-)TIMP complexes by heating the complexes at acid pH under conditions which inactivate the collagenase.     

Isolation,long-term culture,and ultrastructural characterization of adult cardiomyopathic cardiac muscle cells

Summary A long-term cell culture system for adult cardiomyopathic hamster cardiac muscle cells has been established. The diseased and control hearts were dissociated into single cell suspension with the modifications of our previous technique using collagenase and hyaluronidase as applied to the dissociation of the adult rat heart. The postperfusion of the diseased heart with Krebs-Ringer phosphate buffer and bovine serum albumin was very helpful in obtaining greater yield of viable diseased muscle cells; the cells were cultured for 4 wk. Approximately 60% of the myocytes from the diseased heart and 85% of the myocytes from the normal heart attached to the substrates and survived throughout the culture period. Approximately 60 to 70% of the cardiac myocytes from the diseased and control hearts were bi- or multinucleated; 30% of the diseased and 80% of the normal myocytes showed rhythmic contractility. Electron microscopy revealed the presence of two kinds of cardiac muscle cells in the diseased cell culture on the basis of their myofibril content: one with scanty myofibrils and another with abundant myofibrils. Myocytes with sparse myofibrils showed certain characteristic features that included autophagic vacuoles, amorphous matrix of fine filamentous texture, scattered strips of myofibrils, and abnormal organization of the Z-line. Cardiac muscle cells with abundant myofibrillar content contained unorganized myofibrils in certain sarcomeres. These studies demonstrate the feasibility of maintaining diseased cardiac muscle cells from adult cardiomyopathic hamsters for at least 4 wk in monolayer culture. This study was supported by a grant from the American Heart Association of Michigan, National Institutes of Health grant HL-25482, and by an Oakland University Biomedical Research Support Grant.     

Papillon-Lefèvre syndrome: correlating the molecular, cellular, and clinical consequences of cathepsin C/dipeptidyl peptidase I deficiency in humans

A variety of neutral serine proteases are important for the effector functions of immune cells. The neutrophil-derived serine proteases cathepsin G and neutrophil elastase are implicated in the host defense against invading bacterial and fungal pathogens. Likewise, the cytotoxic lymphocyte and NK cell granule-associated granzymes A and B are important for the elimination of virus-infected cells. The activation of many of these serine proteases depends on the N-terminal processing activity of the lysosomal cysteine protease cathepsin C/dipeptidyl peptidase I (DPPI). Although mice deficient in DPPI have defects in serine protease activation in multiple cellular compartments, the role of DPPI for human serine protease activation is largely undefined. Papillon-Lefevre syndrome (PLS) is a rare autosomal recessive disease associated with loss-of-function mutations in the DPPI gene locus. In this study, we established that the loss of DPPI activity is associated with severe reduction in the activity and stability of neutrophil-derived serine proteases. Surprisingly, patients with PLS retain significant granzyme activities in a cytotoxic lymphocyte compartment (lymphokine-activated killer) and have normal lymphokine-activated killer-mediated cytotoxicity against K562 cells. Neutrophils from patients with PLS do not uniformly have a defect in their ability to kill Staphylococcus aureus and Escherichia coli, suggesting that serine proteases do not represent the major mechanism used by human neutrophils for killing common bacteria. Therefore, this study defines the consequences of DPPI deficiency for the activation of several immune cell serine proteases in humans, and provides a molecular explanation for the lack of a generalized T cell immunodeficiency phenotype in patients with PLS.     

Inositol 1,4,5-trisphosphate receptor expression in cardiac myocytes

Calcium release from intracellular stores is the signal generated by numerous regulatory pathways including those mediated by hormones, neurotransmitters and electrical activation of muscle. Recently two forms of intracellular calcium release channels (CRCs) have been identified. One, the inositol 1,4,5-trisphosphate receptors (IP3Rs) mediate IP3-induced Ca2+ release and are believed to be present on the ER of most cell types. A second form, the ryanodine receptors (RYRs) of the sarcoplasmic reticulum, have evolved specialized functions relevant to muscle contraction and are the major CRCs found in striated muscles. Though structurally related, IP3Rs and RYRs have distinct physiologic and pharmacologic profiles. In the heart, where the dominant mechanism of intracellular calcium release during excitation-contraction coupling is Ca(2+)-induced Ca2+ release via the RYR, a role for IP3-mediated Ca2+ release has also been proposed. It has been assumed that IP3Rs are expressed in the heart as in most other tissues, however, it has not been possible to state whether cardiac IP3Rs were present in cardiac myocytes (which already express abundant amounts of RYR) or only in non- muscle cells within the heart. This lack of information regarding the expression and structure of an IP3R within cardiac myocytes has hampered the elucidation of the significance of IP3 signaling in the heart. In the present study we have used combined in situ hybridization to IP3R mRNA and immunocytochemistry to demonstrate that, in addition to the RYR, an IP3R is also expressed in rat cardiac myocytes. Immunoreactivity and RNAse protection have shown that the IP3R expressed in cardiac myocytes is structurally similar to the IP3R in brain and vascular smooth muscle. Within cardiac myocytes, IP3R mRNA levels were approximately 50-fold lower than that of the cardiac RYR mRNA. Identification of an IP3R in cardiac myocytes provides the basis for future studies designed to elucidate its functional role both as a mediator of pharmacologic and hormonal influences on the heart, and in terms of its possible interaction with the RYR during excitation- contraction coupling in the heart.     

Protease activities of Acanthamoeba polyphaga and Acanthamoeba castellanii

Acanthamoeba spp. are free-living amoebae that cause amoebic granulomatous encephalitis, skin lesions, and ocular amoebic keratitis in humans. Several authors have suggested that proteases could play a role in the pathogenesis of these diseases. In the present work, we performed a partial biochemical characterization of proteases in crude extracts of Acanthamoeba spp. and in conditioned medium using 7.5% SDS-PAGE copolymerized with 0.1% m/v gelatin as substrate. We distinguished a total of 17 bands with proteolytic activity distributed in two species of Acanthamoeba. The bands ranged from 30 to 188 kDa in A. castellanii and from 34 to 144 kDa in A. polyphaga. Additionally, we showed that the pattern of protease activity differed in the two species of Acanthamoeba when pH was altered. By using protease inhibitors, we found that the proteolytic activities belonged mostly to the serine protease family and secondly to cysteine proteases and that the proteolytic activities from A. castellanii were higher than those in A. polyphaga. Furthermore, aprotinin was found to inhibit crude extract protease activity on Madin-Darby canine kidney (MDCK) monolayers. These data suggest that protease patterns could be more complex than previously reported.