Global ETD Search

41	High-throughput modelling and structural investigation of cysteine protease complexes with protein inhibitors Kroon, Matthys Christoffel January 2013 (has links) The papain-like cysteine protease family (C1 proteases) is highly important because of its involvement in research and industrial applications and its role in various human diseases. Protein inhibitors are an important aspect of C1 protease biology and are relevant to its clinical, industrial and research importance. To study the interaction between the proteases and the inhibitors it is very useful to have accurate structural models of the protease-inhibitor complexes. To this end, a high-throughput pipeline for modelling complexes of papain-like cysteine proteases and protein inhibitors was implemented and tested (Tastan Bishop & Kroon, 2011). The pipeline utilizes a novel technique for obtaining modelling templates by using superpositioning to combine coordinates from separate experimental structures. To test the pipeline, models of complexes with known structures (test set) were modelled using many different templates and the resultant models evaluated to compare the quality of the different templates. It was found that use of the new technique to obtain templates did not introduce significant errors, while allowing closer homologs to be used for modelling - leading to more accurate models. The test set models were also used to evaluate certain steps of the modelling protocol. The effect of Rosetta energy minimization on model accuracy and the use of Rosetta energy and DOPE Z-score values to identify accurate models were investigated. Several complexes were then modelled using the best available templates according to criteria informed by the previous results. A website was built that allows a user to download any of the metrics or models produced in the study. This website is accessible at http://rubi.ru.ac.za/cpmdb Cysteine proteinases Cysteine proteinases -- Inhibitors Papain Cystatins Malaria -- Chemotherapy Homology (Biology) Protein-protein interactions
42	Molecular cloning and sequence analysis of cystatin from rainbow trout (Oncorhynchus mykiss) Li, Fugen 25 February 1997 (has links) A partial cystatin cDNA from rainbow trout was generated by reverse transcription polymerase chain reaction with two degenerate primers. The partial cystatin PCR product was 168 bp and used to screen trout liver λgt 11 cDNA library. Four positive clones were isolated and designated as cstl, cst2, cst3 and cst4. Only cst2 contained the full-length cystatin cDNA which was 674 bp and included 5' untranslated region and the polyadenylation signal sequence AATAAA in the 3' region. Translation of the cDNA contains 132 amino acid residues. Comparison of the amino acid sequence with those of family II cystatin indicated that the 21 amino acids at N-terminal end is a signal peptide that leads to cystatin secretion, and the 111 amino acids are mature cystatin. Four cysteine residues in the cystatin may form two disulfide bonds for the secondary structure. Cst2 was subcloned into pGEM-3z for Northern and Southern blot experiments. Northern blot indicated that trout cystatin mRNA is about 750 bp. Cystatin is expressed in all tissues examined but at various levels. This difference may reflect the regulation of cysteine proteinase activities. Southern blot of trout genomic DNA showed that the copy number of the trout cystatin gene is probably one per haploid genome. / Graduation date: 1997 Rainbow trout -- Molecular genetics Molecular cloning Cysteine proteinases -- Analysis
43	Enzymatic and crystallisation studies of CATL-like trypanosomal cysteine peptidases. Jackson, Laurelle. January 2011 (has links) African animal trypanosomosis or nagana is a disease in livestock caused by various species of protozoan parasites belonging to the genus Trypanosoma particularly T. congolense, T. vivax and T. b. brucei. Nagana is the most important constraint to livestock and mixed crop-livestock farming in tropical Africa. Trypanosomes undergo part of their developmental life in their insect vector, the tsetse fly and part in their mammalian host. Measures for eradicating the continent of the tsetse fly vector include insecticidal spraying, targeting and trapping. Vaccine development has been hampered by the generation of an inexhaustible collection of variant surface glycoproteins that trypanosomes possess and allow for evasion of the host immune system. Anti-disease vaccines aimed at reducing the symptoms of the disease rather than killing the parasite itself have been demonstrated as an alternative approach. Trypanotolerant cattle are able to protect themselves from the disease-associated symptoms. They are able to mount a better antibody response to the CATL-like cysteine peptidase, TcoCATL, compared to trypanosusceptible breeds. Bovine trypanosomosis, however, continues to be controlled primarily by trypanocidal compounds such as isometamidium chloride, homidium and diaminazene that have been developed more than 50 years ago and consequently drug resistance is widespread. Trypanosomal cysteine peptidases have also been proven to be effective targets for chemotherapeutics. TcrCATL, inhibited by the vinyl sulfone pseudopeptide inhibitor K11777, was effective in curing or alleviating T. cruzi infection in preclinical proof-of-concept studies and has now entered formal preclinical drug development investigation. Understanding enzymatic as well as structural characteristics of pathogenic peptidases is the first step towards successful control of the disease. To date no such characterisation of the major cysteine peptidases from T. vivax has been conducted. Although the major cysteine peptidase from T. vivax, TviCATL, has not been proven as a pathogenic factor yet, its high sequence identity with the pathogenic counterparts such as TcrCATL and TcoCATL hold much speculation for TviCATLs role in pathogenocity. In the present study, native TviCATL was isolated from T. vivax Y486, purified and characterised. TviCATL showed to have a general sensitivity to E-64 and cystatin and has a substrate specificity defined by the S2 pocket. TviCATL exhibited no activity towards the CATB-like substrate, Z-Arg-Arg-AMC but was able to hydrolyse Z-Phe-Arg-AMC, the CATL-like substrate. Leu was preferred in the P2 position and basic and non-bulky hydrophobic residues were accepted in the P1 and P3 positions respectively. Similar findings were reported for TcoCATL. The substrate specificity of TviCATL and TcoCATL does argue for a more restricted specificity compared to TcrCATL. This was based on the Glu333 in TcrCATL substituted with Leu333 in TviCATL and TcoCATL. In the case of TcrCATL, the Glu333 allows for the accommodation of Arg in the P2 position. Like other trypanosomal cysteine peptidases, TviCATL was inhibited by both chloromethyl ketones, Z-Gly-Leu-Phe-CMK and H-D-Val-Phe-Lys-CMK. Determining further structural and functional characteristics as well as whether TviCATL, like the T. congolense homolog, TcoCATL, acts as a pathogenic factor, would be important information to the designing of specific chemotherapeutic agents. To date, TcrCATL and TbrCATL (from T. b. rhodesiense) are the only trypanosomal CATL-like cysteine peptidases been crystallised and their tructures solved. This advantage has allowed for the directed design of synthetic peptidase inhibitors. The crystal structure of TcoCATL will be of major significance to the design of specific chemotherapeutic agents. Furtherrmore, understanding the dimeric conformation of TcoCATL is important for vaccine design as immune responses are likely to recognise the dimer specific epitopes. In the current study, the catalytic domain of TcoCATL and TviCATL, were recombinantly expressed in Pichia pastoris and purified to homogeneity. The T. congolense cysteine peptidase pyroglutamyl peptidase (PGP), also proven to be pathogenic in T. b. brucei, was recombinantly expressed in E. coli BL21 (DE3) cells and also purified to homogeneity. Purified cysteine peptidases along with previously purified TcoCATL dimerisation mutants, TcoCATL (H43W) and TcoCATL (K39F; E44P), possessing mutated residues involved in TcoCATL dimerisation, as well as the mutant proenzyme TcoCATL (C25A), were screened for crystallisation conditions using the Rigaku robotic crystallisation suite. One-dimensional needle-like crystals were found for TcoCATL (K39F; E44P). Optimisation of the TcoCATL (K39F; E44P) crystals were analysed for X-ray diffraction. The poor diffraction pattern prompted further optimisations for better crystal quality, which is presently underway. The crystal structure of TcoCATL, with some of the residues involved in dimerisation mutated, will be pivotal in understanding the dimerisation model. Furthermore, the information about the structure will be valuable for vaccine design and chemotherapeutics development. / Thesis (M.Sc.)-University of KwaZulu-Natal, Pietermaritzburg, 2011. African trypanosomiasis. Cysteine proteinases--Structure. Theses--Biochemistry.
44	Epigenetic regulation of gene expression of cystatin 6, CST6, in hepatocellular carcinoma Ma, Ka-li, Marcella, 馬嘉莉 January 2005 (has links) published_or_final_version / Medical Sciences / Master / Master of Medical Sciences Liver - Cancer - Genetic aspects. Cysteine proteinases - Inhibitors. Antioncogenes. Genetic regulation.
45	Synthesis and kinetics of cysteine proteinase inhibitors Tehrani, Kamin A. 08 1900 (has links) No description available. Cysteine proteinases Inhibitors Serine proteinases Inhibitors Dynamics Mechanics, Analytic Motion
46	Gene disruption of TcoCATL (Congopain) and oligopeptidase B, pathogenic factors of African trypanosomes. Kangethe, Richard Thiga. January 2011 (has links) African trypanosomosis is a parasitic disease in man and animals caused by protozoan parasites of the genus Trypanosoma. T. congolense, T. vivax and T. brucei brucei cause nagana in cattle. The variable nature of the parasite surface coat has hindered the development of an effective vaccine. An option for developing vaccines and chemotherapeutic agents against trypanosomosis is to target pathogenic factors released by the parasite during infection, namely an “anti-disease” approach. Two pathogenic factors released during infection are oligopeptidase B (OPB) and TcoCATL (congopain). TcoCATL, a major lysosomal cysteine peptidase, is a member of the papain family C1 cysteine peptidases. RNA interference (RNAi) was used to down-regulate the expression of TcoCATL in T. congolense IL3000 TRUM183:29-13 parasites in vivo during mouse infections. TcoCATL RNAi was monitored in infected mouse blood by comparing the hydrolysis of Z-Phe-Arg-AMC and parasitaemia between mice in which RNAi was induced and control mice. Mice infected with parasites induced for TcoCATL RNAi had lower parasitaemia when compared to control mice. An attempt was also made at deleting the entire CATL gene array in both T. congolense IL3000 and T. brucei 427 Lister strains. The second pathogenic factor studied, OPB, is a cytosolic trypanosomal peptidase that hydrolyses peptides smaller than 30 amino acid residues, C-terminal to basic residues. In order to evaluate the role that OPB play during disease, RNAi was also applied to knock-down the expression levels of OPB in T. brucei T7T and T. congolense IL3000 TRUM183:29-13 strains (TbOPB and TcoOPB respectively). Oligopeptidase B null mutant strains (Δopb) were also generated in T. brucei brucei Lister 427. An attempt was also made to generate OPB null mutants in T. congolense IL3000 parasites. Western blot analysis of the knock-down experiments using chicken anti-TcoOPB peptide IgY showed that only TbOPB levels were reduced in T. brucei T7T parasites induced for RNAi when compared to TcoOPB RNAi induced cultures. Quantitative assessment of a fourteen day induction experiment for OPB RNAi in T. brucei showed an 87% reduction in TbOPB levels when compared to levels on day one. There was no growth effect observed in T. brucei parasites cultured in vitro and induced for TbOPB RNAi. It was concluded that TbOPB is not necessary for the in vitro survival of T. brucei parasites, thus making the generation of OPB null mutants possible. Δopb T. brucei parasites were successfully generated and grew normally in vitro and were as virulent as wild type strains during infection in mice. Immunohistopatholgy of infected mouse testes revealed Δopb parasites in extra vascular regions showing that T. brucei OPB (TbOPB) is not involved in assisting T. brucei parasites to cross microvascular endothelial cells. Gelatin gel analysis of Δopb null mutants and wild type strains showed an increase in cysteine peptidase activity. Enzymatic activity assays were carried out to identify how closely related oligopeptidases are affected by knocking out TbOPB, and a significant increase of T. brucei prolyl oligopeptidase (TbPOP) activity was observed. However, western blot analysis did not show any increase of TbPOP protein levels in Δopb parasites, suggesting that either TbOPB is responsible for generating an endogenous inhibitor for TbPOP or that another POP-like enzyme might compensate for a loss in OPB activity in Δopb null mutants. This study made a significant contribution to an understanding of the interplay between different trypanosomal peptidases that are important pathogenic factors in trypanosomosis. It highlights the need to simultaneously target several trypanosomal peptidases to develop an effective vaccine or chemotherapeutic agents for African animal trypanosomosis. / Thesis (Ph.D.)-University of KwaZulu-Natal, Pietermaritzburg, 2011. Trypanosomiasis in animals. Trypanosoma. African trypanosomiasis. Cysteine proteinases. Theses--Biochemistry.
47	A study of the proteinase, cathepsin L, in the context of tumour invasion. Pike, Robert Neil. January 1990 (has links) 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. / Thesis (Ph.D.)-University of Natal, Pietermaritzburg, 1990. Cathepsin L--Purification. Cysteine proteinases. Cancer invasiveness. Theses--Biochemistry.
48	Palmitoylation and oxidation of the cysteine rich region of SNAP-25 and their effects on protein interactions / Martinez, Derek L. January 2007 (has links) (PDF) Thesis (M.S.)--Brigham Young University. Dept. of Physiology and Developmental Biology, 2007. / Includes bibliographical references (p. 38-40).
49	Structural analysis of prodomain inhibition of cysteine proteases in plasmodium species Njuguna, Joyce Njoki January 2012 (has links) Plasmodium is a genus of parasites causing malaria, a virulent protozoan infection in humans resulting in over a million deaths annually. Treatment of malaria is increasingly limited by parasite resistance to available drugs. Hence, there is a need to identify new drug targets and authenticate antimalarial compounds that act on these targets. A relatively new therapeutic approach targets proteolytic enzymes responsible for parasite‟s invasion, rupture and hemoglobin degradation at the erythrocytic stage of infection. Cysteine proteases (CPs) are essential for these crucial roles in the intraerythrocytic parasite. CPs are a diverse group of enzymes subdivided into clans and further subdivided into families. Our interest is in Clan CA, papain family C1 proteases, whose members play numerous roles in human and parasitic metabolism. These proteases are produced as zymogens having an N-terminal extension known as the prodomain which regulates the protease activity by selectively inhibiting its active site, preventing substrate access. A Clan CA protease Falcipain-2 (FP-2) of Plasmodium falciparum is a validated drug target but little is known of its orthologs in other malarial Plasmodium species. This study uses various structural bioinformatics approaches to characterise the prodomain‟s regulatory effect in FP-2 and its orthologs in Plasmodium species (P. vivax, P. berghei, P. knowlesi, P. ovale, P. chabaudi and P. yoelii). This was in an effort to discover short peptides with essential residues to mimic the prodomain‟s inhibition of these proteases, as potential peptidomimetic therapeutic agents. Residues in the prodomain region that spans over the active site are most likely to interact with the subsite residues inhibiting the protease. Sequence analysis revealed conservation of residues in this region of Plasmodium proteases that differed significantly in human proteases. Further prediction of the 3D structure of these proteases by homology modelling allowed visualisation of these interactions revealing differences between parasite and human proteases which will lead to significant contribution in structure based malarial inhibitor design. Plasmodium Cysteine proteinases Proteolytic enzymes Malaria -- Chemotherapy Antimalarials Plasmodium falciparum
50	Expression and analysis of a legumain from trichomonas vaginalis Patel, Nimisha Navinchandra 01 January 2009 (has links) Trichomonas vaginalis and Tritrichomonas foetus are the etiologic agents of human and bovine trichomoniasis, respectively. As microaerophilic protozoans; both share a wide array of clinical manifestations ranging from vaginitis to abnormal pregnancies. Human trichomoniasis receives minimal public health attention despite of its worldwide high prevalence rate. Emerging evidence of metronidazole-resistant T vaginalis strains facilitates a concern to understand this protozoan. Cysteine proteases have been implicated as important virulence factors produced by T vagina/is. This study explores the expression of one particular legumain-like cysteine protease known as Tv AE 1. Furthermore, it highlights the relationship between inhibitory effects of trichomonal cells caused by sanguinarine and chelerythrine. A system for obtaining legumains by expressing it in methylotrophic yeast, Pichia pastor is, has been described. The recombinant legumains were produced and processed by the yeast to their inactive and mature forms. Secondly, T foetus cells were transfected with TvAEl construct. Localization and enzymatic studies on legumains will provide evidence into the pathogenicity ofT vagina/is. This study revealed the vesicularization of recombinantly unprocessed TvAEl proteins. Thirdly, plant derived compounds, sanguinarine (SA) and chelerythrine (CHE) were assessed in vitro for their inhibitory effects against T vagina/is and T. foetus. Treatment of SA and CHE for 24 h led to a significant inhibitory growth of in vitro cultures for all three trichomonal strains, G3, Tl and Dl, compared to untreated cells. For these bovine and human trichomonal strains, SA was slightly more effective inhibitor than CHE. With IC5o values between 3 - 8 micromolar for the alkaloids, CHE had less inhibitory effect compared to SA. These findings are significant considering the association between cysteine pro teases and trichomoniasis. Further elucidation of the exact anti protozoal mechanism of both compounds toward legumains may lead to the development of these potent agents against trichomonads. Cysteine proteinases Trichomonas vaginalis Trichomonas Biology Life Sciences

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