Browsing by Author "Dennison, Clive."

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A biochemical and immunological comparison of the Jaagsiekte and two related retroviruses.
(1987) York, Denis Francis.; Verwoerd, D. W.; Dennison, Clive.
Jaagsiekte is a contagious cancer affecting the lungs of sheep. Although the etiological agent is Jaagsiekte retrovirus (JSRV), two other retroviruses viz South African maedi visna virus ( SA - OMVV) and a novel Bovine retrovirus (BRV) have been associated with or implicated in the jaagsiekte disease complex. JSRV was sufficiently purified from lung rinse material using a Freon extraction, Percoll density gradient centrifugation and chranatography on a Sephacryl column, its polypeptide composition was studied by gel electrophoresis and its morphology observed electron microscopically. Monoclonal antibodies were made against purified preparations of the virus. Two hybridomas were isolated that produced MAbs which appear to be tumour cell specific. A third hybridoma, called 4A1O, produces antibodies considered to be viral specific. These MAbs have been used in the development of JS specific immunoassays. A cross reaction between JSRV and a polyclonal serum against Mason Pfizer monkey virus (MPMV) was confirmed and used in a Western blot technique to identify, monitor and differentiate JSRV from other viruses. During the study of JSRV it became apparent that another retrovirus was often present in JS infected lungs. This virus, referred to as SA - OM1V I, is a novel South African isolate of maedi visna virus (MVV). As SA - OM1V I has physicochemical characteristics similar to JSRV, it was often found in purified JSRV preparations. Being a retrovirus it is also detected by the reverse transcriptase assay which was the only method used to assay and monitor for JSRV during the early stages of our work. Using a Westen blot technique and sera against MVV and MPMV it was possible to simultaneously detect and differentiate JSRV from SA - OMVV I. A method was also developed whereby the two viruses could be separated from each other during purification. The information gained and techniques developed whilst studyiing JSRV were also used to isolate and characterize BRV. This novel virus originated from bovine cells that had been co-cultivated with white blood cells from an ox suffering from malignant catarrhal fever. Three out of four sheep inoculated with BRV developed JS. It therefore had to be· ascertained whether this virus was related to JSRV or not. The comparative study revealed that BRV was biochemically and morphologically quite different fran JSRV. Interestingly, it was shown that serum against MPMV cross reacted with a 32 kd protein of BRV indicating a serological relationship between JSRV, MPMV and BRV. The possible role of BRV in the etiology of jaagsiekte remains to be elucidated.
A carboxymethylcellulase and a xylanase from Sclerotium rolfsii.
(1983) Lindner, William Andrew.; Dennison, Clive.; Dekker, Robert F. H.
No abstract available.
A comparative study of three toxic legume glycoproteins.
(1973) Dennison, Clive.; Quicke, George Venn.; Visser, Leon.
No abstract available.
Effect of nitrate upon the digestibility of kikuyu grass (Pennisetum clandestinum)
(1985) Marais, Johan Pieter.; Dennison, Clive.
The factors affecting the accumulation of nitrate in kikuyu grass pastures and the effect of elevated nitrate levels upon digestion in the ruminant were investigated. A high potassium level in the soil seems to be the major factor stimulating the accumulation of excessive amounts of nitrate in kikuyu grass, when the nitrate content of the soil is also high. The continuous elongation of kikuyu grass tillers allows constant exposure of high nitrate containing stem tissue to the grazing ruminant. Digestibility studies in vitro showed that nitrite, formed during the assimilatory reduction of nitrate to ammonia, reduces cellulose digestion, but the degree of reduction also depends upon the presence of readily available carbohydrates and protein in the digest. Studies in vivo showed that the microbial population can adapt to metabolise high concentrations of nitrate (500 mg% N, m/m) in fresh kikuyu grass, without the accumulation of nitrite in the rumen. However, introduction into the rumen of nitrite in excess of the capacity of the nitrite reducing microbes, causes nitrite accumulation. Nitrite has no direct effect upon rumen cellulase activity. Due to the affinity of rumen carbohydrases for the substrate, attempts to isolate these enzymes by means of isoelectric focusing and other separation techniques met with limited success. Nitrite strongly reduces the xylanolytic, total and cellulolytic microbial numbers with a concomitant decrease in xylanase and cellulase activity of the digest. Decreased microbial numbers could not be .attributed to a less negative redox potential of the digest in the presence of nitrite, nor could the effect upon the cellulolytic microbes be attributed to an effect of nitrite on branched chain fatty acid synthesis required for cellulolytic microbial growth. A study of the effect of nitrite upon the specific growth rate of pure cultures of the major cellulolytic bacteria, Ruminococcus flavefaciens strain FDI, Butyrivibrio fibrisolvens strain Ce 51, Bacteroides succinogenes strain S 85 and Ruminococcus albus strain 22.08.6A and the non-cellulolytic bacterium Selenomonas ruminantium strain ATCC 19205 revealed the extreme sensitivity to nitrite of some of these bacteria and the relative insensitivity of others. Growth inhibition seems to depend primarily upon the extent to which these microbes derive their energy from electron transport-mediated processes.
Endolysosomal proteolysis and its regulation.
(2003) Pillay, Che Sobashkar.; Dennison, Clive.
The endolysosomal system is a multifunctional system and is involved in catabolism, antigen presentation and regulation of hormones. The descriptions of, and functions assigned to organelles within the system are often applied using different criteria. Further, the properties of the hydrolases within the system, and the organelles that house them are usually studied in isolation from one another. Considering that the endolysosomal system may be extremely dynamic, an understanding of the system as an integrated whole is a necessary first step. Thus, a review of the endolysosomal system was undertaken. It was determined that the enzymes within the endolysosomal system are probably subject to 'organelle-dependent' regulation, i.e. the organelles create the appropriate luminal conditions for these enzymes to work. It is also likely that the effectors of these luminal conditions are regulated in a manner that is related to GTPase networks that control much of the cell's functions. The organisation of the endolysosomal system may be hierarchical, with proteases being downstream effectors of a system that is regulated at the whole body level. The main endoprotease class within the endolysosomal system are cysteine proteases. A literature review suggested that these enzymes may not be redox regulated within the endolysosomal system. However, the lysosomal endoprotease cathepsin B has been implicated in many pathologies where it is operating in pH and redox conditions different from the endolysosomal system. To study this, cathepsin B was isolated from bovine livers using a novel procedure that exploits the ability of tertiary butanol to temporarily inhibit protease interactions in tissue homogenates. This would prevent artefactual, as well as protease-inhibitor interactions. This novel procedure resulted in increased yields of cathepsin B. Cathepsin D, an aspartic protease, was isolated using established methods. In order to test the hypothesis that cathepsin B may be redox regulated in vivo, cathepsin B activity and stability were measured in cysteine and/or cystine-containing redox buffers. Cathepsin B activity in cysteine-containing buffers was similar at pH 6.0 and pH 7.0, over all thiol concentrations tested. In contrast, the stability of the enzyme was greater at pH 6.0 than at pH 7.0. This suggests that the enzyme's operational pH in vivo may be < pH 7.0. The activity of the enzyme was depressed in glutathione-containing buffers. When assessed in cysteine:cystine redox buffers (pH 6.0 - 7.0) cathepsin B was active over a broad redox potential range, suggesting that cathepsin B activity may not be redox regulated.
Fibrolytic enzyme activity of herbivore microbial ecosystems.
(2006) Fon, Fabian Nde.; Nsahlai, Ignatius Verla.; Dennison, Clive.; Beukes, Mervyn.
The aim of this study was to determine firstly if there exist variations in fibrolysis among herbivore microbial ecosystems and secondly, the effect on fibre hydrolysis of compositing the most active systems with ruminal microbial ecosystem harvested from a Jersey cow. A literature review pointed to the complexity of carbohydrate (fibre) and how the physical and chemical nature of the forage carbohydrate can present barriers that hinder digestion in the rumen, especially its association with hemicelluloses, pectin, lignin and tannins. Fresh rumen fluid was collected from fistulated herbivores (Jersey cow and sheep) and faecal samples from non-fistulated herbivores (buffalo, horse, impala, camel, elephant, llama, sheep, wildebeest and elephant). Crude protein samples were precipitated with 60% ammonium sulfate. Sample activities were monitored and optimised by incubating with carboxymethyl cellulose (CMC) for 2 h at 39°C. The crude protein samples precipitated from the 11 herbivore microbial ecosystems were active. This was confirmed by an increase in enzyme specific activity with a decrease in total crude protein concentration. In vitro pH optimisation showed a broad range of activity for all ecosystems (4.5-8.0) but for the zebra, horse and elephant which peaked at pH 5. In experiment two (Chapter 4), seasonal variation of the enzymes (exocellulase, endocellulase, cellobiase and xylanase) were monitored through winter and summer. Enzyme specific activity of exocellulase, endocellulase, cellobiase and xylanase were determined by incubation with the specific substrates, crystalline cellulose, CMC, pNPG and xylan, respectively. The amount of reducing sugar released was used to determine the enzyme specific activity. Exocellulase analysis was suitable in winter while summer was preferred for carboxymethyl cellulase and xylanase due to their relative abundance. Cellobiase analysis did not depend on any particular season. Eleven herbivore microbial ecosystems were characterised according to their fibrolytic enzyme specific activities. Enzyme catalytic activities were calculated from kinetic parameters (Km and Vmax) obtained from Eisenthal and Cornish-Bowded plots (Chapter 5). Fibrolytic enzyme expression as well as their activities differed among the 11 ecosystems (P
Induction of auto-antibodies to Cathepsin B.
(2001) Moolman, Lizette.; Dennison, Clive.
Because tumours are comprised of "self" cells and antigens, they escape recognition by the immune system, which discriminates between "self" and "non-self". One such antigen is cathepsin B, a lysosomal cysteine proteinase, that has been implicated as one of the proteolytic enzymes involved in tumour invasion and metastasis. Cathepsin B autoantibodies could open possibilities which may be useful in cancer immunotherapy. In this study generation of cathepsin B autoantibodies was attempted by manipulating the immune system into recognising and responding to cathepsin B in complex with a "foreign" protein, bovine serum albumin (BSA). Cathepsin B was isolated from rabbit liver using the three phase partitioning (TPP) method, modified by adding t-butanol in the homogenisation buffer. Isolation of cathepsin Band cathepsin L, using this novel method, minimised the formation of artefacts such as a covalent cathepsin L-stefin B complex and produced higher yields of enzyme. Pure rabbit liver cathepsin B was conjugated to BSA, using glutaraldehyde as coupling agent, and administered intramuscularly into rabbits. Another three inoculation protocols, which functioned as controls were: i) free cathepsin B administered intramuscularly, ii) complexed cathepsin B administered intravenously, and iii) free cathepsin B administered intravenously. IgGs isolated from inoculated rabbits' serum were assayed by a three layer ELISA system, immunoinhibition assays and dot blots. The anti-complex (intramuscular) antibodies showed the highest recognition for cathepsin B and were the only antibodies that were immunoinhibitory. This suggests that the immune system was, to some extend, successfully manipulated into recognising the complexed "self" cathepsin B.
Induction of autoantibodies to cathepsin L as a step towards an anti-cancer vaccine.
(2005) Motsamai, Karabo.; Dennison, Clive.
Cancer is a disease that is caused by mutations in somatic cells. Metastasis is the major cause of death from cancer and often complicates treatment. Malignant tumours secrete degradative enzymes such as cathepsin L which degrade the extracellular matrix to facilitate tumour invasion and metastasis. The immune system does not normally recognize and eradicate tumours because they arise from self tissues to which the immune system is tolerant. Self antigens are poorly immunogenic because they lack T cell help. In this study, a foreign glucosidase was conjugated to self rabbit cathepsin L using glutaraldehyde to specifically provide T helper cell epitopes. The conjugate was used to immunise two male rabbits. A second pair of rabbits (male and female), was primed with sheep cathepsin L (to induce T helper cell activation) and received rabbit cathepsin L boosters. A third pair of rabbits which served as a control was immunised with sheep cathepsin L. The two pairs of test rabbits made high avidity antibodies against rabbit cathepsin L, showing a similar response to control rabbits when antibodies were tested in an ELISA. Western blot analysis showed that these anti-cathepsin L autoantibodies were specific for rabbit cathepsin L. Rabbits which were immunised with the conjugate were · inoculated with sheep cathepsin L nine weeks after the final inoculation with the conjugate. Analysis of antibodies in an ELISA showed that antibody responses against rabbit cathepsin L were augmented in a manner that is characteristic of memory responses. Low titre antibodies against sheep cathepsin L were also produced.
The influence of ionic strength on the kinetics of selected enzymes.
(2005) Chuntharpursat, Eulashini.; Dennison, Clive.
pH studies are used to gain insight into chemical mechanisms of enzyme catalysed reactions. However, perhaps the most important practical point that is often overlooked in pH studies is control of the ionic strength of reaction mixtures at the various pH values. For example, cathepsins Band L were suspected to be involved in cancer invasion but pH vs activity profiles indicated that they were not active at the extracellular pH (pH 7.2). When these profiles were re-evaluated in buffers of constant ionic strength, as opposed to buffers of constant molarity, it was shown that the enzymes were indeed active at pH 7.2. Other enzymes have also been reported to be sensitive to ionic strength. These include neutrophil elastase, class sigma glutathione S-transferase and penicillin G-acylase amongst others. The effects of increasing ionic strength on the activity of six enzymes were investigated. a-Glucosidase (from bakers ' yeast), elastase (human leukocyte) and trypsin (bovine pancreatic), cathepsin L (sheep liver), cathepsin B (rabbit liver), fruit bromelain (pineapple fruit) were subjected to different ionic strength buffers and their activities and Km and Vmax were determined as a function of ionic strength. The influence of ionic strength on Ki values has not been previously reported and was also studied, using the interaction between chicken egg-white cystatin C and cathepsin L as a model. a-Glucosidase was found to have an ionic strength optimum and elastase showed increasing activity with an increase in ionic strength. Trypsin activity decreased with increasing ionic strength with a substrate containing a positively charged side chain in the P1 position, and an increase in activity with a substrate containing a hydrophobic group at the P1 position. Cathepsin B activity increased when acting on the substrate Z-Phe-ArgNHMec and decreased when acting on Z-Arg-Arg-NHMec, with increasing ionic strength. Bromelain showed an increase in activity with increasing ionic strength. Cathepsin L activity decreased at increasing ionic strength and the Ki values for the cathepsin L-cystatin C interaction increased with increasing ionic strength. The results obtained can be attributed to the nature of the specificity pockets involved in binding the substrate, effects on the catalytic mechanism of the enzyme or structural changes due to increasing ionic strength. These results show that the ionic strength is a significant variable and should be kept constant or at in vivo levels when assaying enzymes.
The nutritive value of Italian ryegrass Lolium multiflorum) selected for high dry matter and nonstructural carbohydrate contents.
(2003) Hopkins, Cheryl.; Marais, Johan Pieter.; Dennison, Clive.
In traditional forage breeding programmes, breeders have spent decades improving the agronomic characteristics of grasses, such as herbage yield, persistence and resistance to diseases, without considering the nutrient requirements of the grazing animal. In an attempt to improve the nutritive value of Italian ryegrass, which is widely utilised for intensive dairy, lamb and beef production in South Africa, Enhancer ryegrass was developed from predominantly Italian types of Lolium multiflorum, with a minor Westerwolds component, by selecting for a higher concentration of total nonstructural carbohydrate (TNC) and lower moisture content than that currently available in commercial cultivars. The nutritional value of Enhancer was compared with Midmar ryegrass in a controlled environment study and in a grazing trial with weaned lambs; and with Dargle ryegrass in a grazing trial with Holstein dairy cows. Neutral detergent fibre, acid detergent fibre, lignin, nitrogenous compounds, mineral content and in vitro digestibility were also investigated as parameters of nutritive value. The anatomical features of Enhancer and Midmar were studied to determine possible structural differences. Weaned lambs grazed Enhancer and Midmar in an eight-paddock rotational grazing system, with 3.5 days spent in each paddock, allowing a 24.5 day regrowth period for the pastures. Holstein dairy cows grazed Enhancer and Dargle which were established on 16 and 19 hectare pastures, respectively. The n-alkane technique was used to estimate dry matter intake (DMI) in both grazing trials. Results from the controlled environment study suggest that the differences in the dry matter and TNC concentration of Enhancer are not positively linked to anti-quality factors associated with forage species, but can be attributed to genetic differences between the two grasses. Despite the significantly higher (P < 0.01) DMI of weaned lambs grazing Midmar compared with Enhancer, the lambs on Enhancer outperformed those on Midmar in terms of liveweight gain and carcass quality. The superior animal performance on Enhancer is likely due to an improvement in the readily digestible energy to protein ratio as a result of its significantly higher (P < 0.001) concentration of TNC compared with Midmar. Milk yield for cows grazing Enhancer in period 1 of the cross-over study was significantly higher (P < 0.05) than for cows grazing Dargle, despite the significantly lower (P < 0.05) DMI of animals on Enhancer. The higher TNC concentration relative to the true protein content of Enhancer would suggest that the protein metabolism in the rumen can be enhanced.
Properties of Cathepsin L in relation to a role in invasive cancer.
(1998) Dehrmann, Frieda Marie.; Dennison, Clive.
Cathepsin L, which has been implicated in many tissue degradative pathologies by virtue of its ability to degrade extracellular matrix components, was isolated by a novel, scaled-up protein purification method and purified to homogeneity in the single-chain form. In addition, the high molecular weight variant of cathepsin L covalently complexed with stefin B was isolated. Both cathepsin L and the complex were stable, in respect of their proteolytic activity, to the chaotropic agent urea, both showing enhanced activity in the presence of urea. Urea did not dissociate the complex. The suitability of cathepsin L for a purported extracellular role was addressed by investigating its pH optimum and pH stability. Cathepsins L and B are affected by ionic strength and so buffers of constant ionic strength (rather than constant molarity, and therefore varying ionic strength) were used in determining their pH optima and stability. Cathepsins L and B had apparent pH optima of pH 6.5 and 7.5, respectively, (measured with synthetic substrates) and, contrary to the previous belief, were substantially stable at physiological pH. In Hanks' balanced salt solution, a model of the extracellular fluid, they were shown to be active and stable, cathepsin L having a half-life of 179 s at pH 7.2 and 657 s at pH 6.8 (the peritumour pH). It was also shown that prior reductive activation of these enzymes increased their stability to extracellular conditions, supporting the hypothesis that the active site thiolate-imidazolium ion pair contributes to their stability. The nature of the bond between cathepsin L and stefin B in the covalent complex was examined, using CNBr cleavage, HPLC and amino acid sequencing. Stefin B was shown to be associated with residues 1-137 of cathepsin L via a reduction sensitive linkage which was deduced to be a thioester bond betwen Asp-71 of cathepsin L and Cys-3 of stefin B. Polyclonal antibodies to cathepsin L and stefin B-complexed cathepsin L were raised in rabbits and chickens, and characterised with respect to their suitability for immunocytochemical localisation of these forms of cathepsin L.
Proteinases and extracellular matrix degradation in breast cancer.
(1996) Fortgens, Philip Hendrik.; Dennison, Clive.
A variety of proteases have been shown to promote the progression of cancer by virtue of their ability to degrade extracellular proteinaceous barriers, such as basement membrane and interstitial stroma. At the outset of this study available evidence strongly implicated cathepsin D in breast cancer metastasis. It was envisaged that an antibody inhibitory to the activity of this enzyme might retard invasion, and restrain a tumour from spreading. To this end anti-peptide antibodies were generated against a peptide sequence derived from the substrate capturing "flap" of the enzyme. Inhibition of enzyme activity by these antibodies could not be demonstrated, probably due to the lack of a suitably sensitive enzyme assay. However, the rationale of this study and the expertise gained from it could be applied, in the future, to enzymes that have since been found to be more relevant to tumour invasion. A feature of many transformed cells is an anomalous lysosomal enzyme trafficking system, and concomitant hyper-secretion of some enzymes. The distribution of low pH compartments and lysosomal enzyme-containing compartments was investigated in human breast epithelial cells, and their c-Ha-ras- transformed counterparts. Immunofluorescence and immunoelectron microscopy showed that these compartments have a more peripheral cellular distribution with respect to normal cells, and cathepsins B and D were cell surface-associated. Studies were undertaken to reveal the extracellular matrix degrading ability of c-Ha- ras-transformed cells. Transformed cells exhibited increased degradation of fluorescein-labelled extracellular matrix in serum free medium, and increased motility, and degradation and disruption of extracellular matrix in serum-containing medium. In vitro invasion through artificial basement membrane by transformed cells was investigated using scanning electron microscopy, and was further used to preliminarily identify the proteases involved in invasion by specific inhibition. By this means, greatest inhibition of in vitro invasion was obtained using a specific metalloproteinase inhibitor. Overexpression by transformed cells of a metalloproteinase was detected by gelatin zymography. Together these results suggest that the increased invasive capacity of ras-transformed breast epithelial cells may be largely due to increased metalloproteinase activity.
Redox properties of cathepsin B in relation to its activity in vivo.
(1999) Pillay, Che Sobashkar.; Dennison, Clive.
The main site for protein degradation along the endosomal pathway is believed to be the late endosome. Lysosomes are thought to be storage organelles that, when necessary, inject proteases into the late endosome. It was hypothesised that differences in the lumenal redox environments between the two organelles could be responsible for their functional differences. In an attempt to quantify this potential difference, the lysosomal cysteine protease cathepsin B was isolated by an improved purification procedure. Several intracellular reducing agents were used to activate cathepsin B, the most effective being cysteine. Cysteine was used to activate cathepsin B under various pH conditions in order to model endosomal conditions. An inverse relationship was found between the pH and the concentration of cysteine required to activate cathepsin B. This suggested that cathepsin B may have an optimal redox potential. In order to determine this potential, cysteinexystine redox buffers were made up and used in determination of the activity of the enzyme against a synthetic and a whole protein substrate (haemoglobin). No distinct redox potential could be determined using either substrate, but it was found that cystine stimulated proteolysis of haemoglobin. A similar stimulatory effect was observed for cathepsin D and papain hydrolysis of haemoglobin. This effect is possibly due to the ability of cystine to promote substrate structure, effectively increasing the substrate concentration. These findings and other results obtained from the literature have been used to create a model of how proteolysis may be regulated along the endosomal system.
A study of proteinases of invasive cells using cryoultramicrotomy and immunogold labelling.
(1993) Elliott, Edith.; Dennison, Clive.
This study forms part of an investigation into the possible relevance of the lysosomal proteinases, cathepsins B, H, Land D, in cancer cell invasion. In this study, the main technique adopted was the Tokuyasu "cryo" method, in which the tissues were fixed, frozen and sectioned and labelled using the relevant antibodies, which were detected with protein A gold probes. In order to implement the Tokuyasu technique, it was necessary to rebuild a knife maker, for the production of adequately sharp glass knives, and to modify a sputter-coater into a glow-discharger, for rendering carbon-coated grids hydrophilic, to promote adhesion of hydrated sections. This study was directed towards human tissues and peptide antibodies were investigated as a means of avoiding isolation of proteins from scarce human tissue, and as a means of obtaining antibodies that will target specific regions of proteins of interest. Peptide antibodies were also considered promising for studies of proteinase trafficking and as immunoinhibiting agents, potentially useful in cancer therapy. Various prediction programmes were investigated for their effectiveness in predicting whether a given peptide sequence will elicit antibodies that will react with the native protein. Successful prediction would increase the success rate of peptide antibody production and thus lower the cost. Leucocytes were studied as a model of an invasive cell, since they are more readily available than tumour cells and serve the purpose during the development of methods. In the course of these studies, an optimal protocol for the fixation of PMNs was developed, involving lateral fixation of cut sections, that should be useful for future studies on these cells. Elastase and cathepsins D and G were found on the surface of activated PMNs and could thus play a role in the invasive properties of these cells. Studies on MCF-10A "normal" breast epithelial cells and their ras-transformed Neo-T counterparts revealed that upon transformation, lysosomes shift from a perinuclear position, to a more peripheral position. None of the cathepsins studied was found on the cell surface of either the normal or ras-transfected cells, suggesting that surface distribution of these enzymes may not be a requirement for invasiveness. These studies suggest that immunocytochemical investigation of cells, in the process of invading through a barrier membrane, might be profitable in elucidating the role of proteinases in invasive cancer.
A study of the proteinase, cathepsin L, in the context of tumour invasion.
(1990) Pike, Robert Neil.; Dennison, Clive.
The proteinase, cathepsin L, has been strongly implicated in the processes of tumour invasion and metastasis. A new purification method, three-phase partitioning, characterised in terms of the parameters which affected its fractionation of proteins, was found to simplify the purification of cathepsin L from sheep liver. This method, together with a novel cation-exchange step on S-Sepharose and molecular exclusion chromatography, enabled the enzyme to be purified to homogeneity, in a single-chain form. A further enzyme fraction was isolated as a proteolytically active complex with the endogenous inhibitor of cysteine proteinases, cystatin. Studies on the proteolytically active complex revealed that approximately 60% of it was covalently bound and proteolytically active, while the other 40% was non-covalently bound and proteolytically inactive, in the manner normally found for the binding of cystatin to cysteine proteinases. A cystatin fraction from sheep liver containing variants of cystatin B, was shown to be able to form complexes with free cathepsin L in vitro in a pH-dependent, rapid process, which was mildly stimulated by a reducing agent. Cathepsin L was also isolated from human spleen, but only as a protcolytically inactive complex, presumably also with cystatin(s). The complexed and free cathepsin L from sheep liver were analysed for their pH-dependent characteristics, and it was found that both forms of the enzyme were more active and stable at, or near, neutral pH, than would have been expected from published values. Specific polyclonal antibodies to pure sheep cathepsin L were raised in rabbits and chickens. The chicken egg yolk antibodies were of a much higher titre and were immunoinhibitory towards the enzyme, which the rabbit antibodies were not. Anti-peptide antibodies, raised in rabbits against a peptide sequence selected from the active site of human cathepsin L, were highly specific for cathepsin L and immunoinhibitory towards the enzyme. Together with the polyclonal anti-cathepsin L antibodies, they show promise for immunoinhibitory and immunocytochemical studies on the enzyme, and as potential anti-tumour drugs.
A study of the role of redox potential in lysosomal function.
(1996) Meinesz, Richard Edward.; Dennison, Clive.
No abstract available.
Type IV collagenase and cathepsins L and H : proteinases involved in tumour invasion.
(1992) Coetzer, Theresa Helen Taillefer.; Dennison, Clive.
The collagenolytic proteinases, type IV collagenase and cathepsins Land H, have been implicated in tumour invasion and metastasis, by virtue of their degradative action on the extracellular matrix barriers traversed by migrating tumour cells. Type IV collagenase was isolated from human leucocytes using anti-peptide antibody immunoaffinity chromatography. The highly specific targeting of both native and denatured forms of human type IV collagenase by these anti-peptide antibodies holds much promise for immunolocalisation studies in human tumour tissue. Cathepsin L was purified in both a free; single-chain form from sheep liver, and as complexes with the endogenous cysteine proteinase inhibitor, stefin B. These complexes comprised mixtures of the usual tight-binding non-covalent, inhibitory complexes, and novel, proteolytically active, covalent cathepsin L/stefin B complexes. The latter form spontaneously in a pH-dependent manner in vitro from purified, active constituents. The primary structures of these complexing moieties from sheep liver are reported here for the first time, and showed a high degree of sequence homology with their human counterparts. Single-chain cathepsin L, both in the free, and novel, covalently complexed forms, manifested stability and increased activity at neutral pH, thus suggesting a role in extracellular tissue destruction. This potential involvement in tumour invasion was strengthened by demonstrating that the single-chain form of the enzyme, and similar covalent complexes, active under physiological conditions, could be isolated from liver tissue homogenates of higher primates, baboon (Papio ursinus) and man. A battery of versatile polyclonal anti-sheep cathepsin L and anti-human cathepsins L and H peptide antibodies were raised in chickens and rabbits. The chicken egg yolk antibodies were often of a higher titre than the corresponding rabbit serum antibodies, and additionally manifested unique immunoinhibitory properties. In the case of the polyclonal chicken anti-sheep cathepsin L antibodies, this was derived from their ability to target a peptide located in the active site of cathepsin L. The chicken anti-human cathepsins L and H peptide antibodies constitute the immunological probes of choice for immunolocalisation and in vitro tumour invasion studies to elucidate the relative contributions of these collagenolytic cathepsins to tumour invasion, and could ultimately find application in tumour immunotherapy.