Structure, Function and Evolutionary Studies of Fasciola Cathepsin L-like Proteases

Norbury, Luke James, s9806495@student.rmit.edu.au

January 2008

Fasciola cause considerable monetary loss in the agriculture industry, while parasitism of humans is an emerging disease. Fasciola cathepsin L-like proteases are believed to aid parasite invasion and survival through a range of functions including feeding, immune evasion and modulation, tissue migration, egg production and excystment. As such these proteases are considered good targets for chemotherapies and vaccine development. Fasciola cathepsins are evolutionarily divided into clades that reflect function and life stage of expression. Analysis of F. gigantica genomic DNA and mRNA identified novel cathepsin L-like sequences which are incorporated into a phylogenetic analysis of the complete Fasciola cathepsin L-like protease family. Analysis of mRNA transcripts isolated in this study also points to trans-splicing occurring amongst cathepsin transcripts, the first time this has been identified in Fasciola species. S2 subsite specificity is important in determining substrate interactions with cathepsin L-like proteases. Previous work has shown that amino acid substitutions at this site can dramatically influence substrate specificity. A number of substitutions, specifically those that have been observed, or predicted to occur during the evolution of Fasciola cathepsins L-like proteases, were introduced into the S2 subsite of FhCatL5 at aa69 to determine their influence. The introduction of L69C and L69S substitutions resulted in low overall activity indicating their expression provides no functional advantage, thus explaining the absence of such variants amongst fluke. The L69F variant showed an increase in the ability to cleave substrates with P2 proline, indicating F69 variants expressed by fluke are also likely to have this ability, similar to that shown with L69Y and FhCatL2. The introduction of a L69W substitution leads to increased cleavage of substrates with P2 proline, along with a decrease in cleavage of substrates with P2 phenylalanine. FgCatL1G transcripts were isolated from F. gigantica metacercariae. This contrasts with FhCatL5 and FhCatL2 which have been isolated in adult F. hepatica. These cathepsins differ at aa69, possessing tryptophan, leucine and tyrosine respectively. The processing and substrate specificities of each recombinant enzyme was analysed and compared. While FhCatL5 and FhCatL2 process in vitro in a manner similar to that reported for FhCatL1, FgCatL1G requires different processing conditions, including neutral pH. Combined with FgCatL1G possessing increased stability at acidic pH, this reflects the different environment into which FgCatL1G is expressed by immature compared to the adult flukes. The substrate specificity of FgCatL1G also differed from previously reported cathepsins, with a preference for P2 proline and low activity against substrates with P2 phenylalanine. This is the first time recombinant expression and purification of a cathepsin L-like protease specific to the immature life stages of Fasciola has been undertaken and had enzyme specificity analysed. This work has expanded knowledge of the repertoire of cathepsin proteases expressed at various life-stages of the liver fluke. Vaccination and/or drug inhibition studies may in the future be targeted towards cathepsins that are expressed in either the adult or immature stage, or perhaps both in a multi-targeted approach. The knowledge gained in this study may allow such targets to be chosen.

Fasciola

cathepsin L

cysteine protease

S2 subsite

substrate specificity

site-directed mutagenesis

phylogeny

RNA splicing

molecular modeling

Functional Analyses of West Nile Virus (WNV) Bicistronic Replicons Containing Different Sequence Elements and of Simian Hemorrhagic Fever Virus (SHFV) Polyprotein Processing

Radu, Gertrud Ulrike

29 November 2007

The flavivirus West Nile virus (WNV) encodes a single polyprotein that is processed into three structural and seven nonstructural proteins. Various WNV bicistronic replicons that direct cap-dependent translation of an N-terminal viral capsid or capsid/Renilla luciferase fusion protein as well as IRES-dependent translation of the nonstructural proteins were constructed. An original replicon consisting of the WNV 5' NCR, the 5' 198 nts of the capsid coding sequence, which included the 5' cyclization sequence (Cyc), and an EMCV IRES followed by the WNV nonstructural genes and 3' NCR was generated. Real time qRT-PCR analysis of intracellular levels of this replicon RNA showed a 4 fold increase by 96 hr after transfection of BHK cells. Increasing the distance between the 5' Cyc and IRES by insertion of a 5' IRES flanking sequence alone or together with a Renilla luciferase reporter did not increase RNA replication. Addition of only a reporter decreased RNA replication. The insertion of an extended capsid coding sequence also did not enhance RNA replication, but did enhance both cap- and IRES-dependent translation of replicon RNA, as indicated by immunofluorescence and Western blot analysis. These results suggest the presence of a translation enhancer in the 3' portion of the capsid coding region. Simian hemorrhagic fever virus (SHFV) is a member of the family Arteriviridae, order Nidovirales. SHFV is unique among Nidoviruses in having three instead of two papain-like cysteine protease (PCP) motifs designated alpha, beta, and gamma, within the N-terminal region of its ORF1a. Mutations of putative PCP cleavage sites showed that the most efficient cleavage was by PCP beta at its downstream cleavage site. A large deletion located between the two catalytic residues of PCP alpha was hypothesized to render this protease inactive. However, processing was observed at the cleavage site following PCP alpha. Mutational analyses confirmed that PCP alpha is an inactive protease, and that the cleavage sites downstream of PCP alpha are cleaved by PCP gamma. When the catalytic residues of PCP gamma were mutated, PCP beta was also able to back cleave at these sites. This "back" cleavage is a previously unreported activity for an arterivirus PCP.

Papain-like cysteine protease

West Nile virus

IRES

Capsid

Simian hemorrhagic fever virus

Translation

RNA Replication

Replicon

Biology, general

Studies On The Phenomenon Of Blastocyst Hatching: Role Of Cysteine Proteases

Garimella, Sireesha V

07 1900

The mammalian embryo is encased in a glycoproteinaceous covering, the zona pellucida (ZP/zona) during preimplantation development. Prior to implantation into the recipient maternal endometrium, the blastocyst has to hatch out of this zona. This is a critical and an important event for the successful establishment of pregnancy. Hatching in mammals is characterised by the expansion of the blastocyst, followed by the nicking of the zona and extrusion of the blastocyst by repeated contraction-expansion cycles, thereby leaving the empty zona behind. In species such as the mouse, cow and primates, the empty zona is left behind in the uterine lumen. However, in the hamsters, the features associated with hatching are characteristic for this species. Firstly, the blastocyst remains predominantly in a deflated state. Secondly, the zona undergoes focal rupture which is followed by the complete dissolution of the zona. Third, trophectodermal projections (TEPs) present in the blastocysts, aid the hatching of the blastocyst. Hence, this study was aimed to identify the molecular players involved in hamster blastocyst hatching and to study their embryo-endometrial expression. Earlier work in the laboratory has demonstrated the involvement of cysteine protease-like factors in hamster blastocyst hatching (Mishra and Seshagiri, 2000a). Broad spectrum cysteine protease inhibitors, E-64 and PHMB, completely blocked the hatching of blastocysts. To identify the class of cysteine proteases involved in this phenomenon, class-specific inhibitors were used in this study. Calpain and caspase inhibitors, calpastatin and Z-VAD- FMK, respectively, did not block hamster blastocyst hatching (Fig 2.2). Cathepsin (cts)-specific inhibitors, cystatin-C and peptidyl diazomethane (PPDM) blocked hatching of embryos in a dose-, time- and embryo-stage dependant manner (Figs 2.5, 2.6, 2.10 and 2.11). Continuous exposure of 1.0 µM cystatin to expanded or deflated blastocysts completely blocked hatching (Fig 2.3Aii, iii), without effecting their viability (Fig 2.3Bii and iii). Deflated blastocysts exposed transiently to 1.0 µM cystatin, for 12 or 6 h failed to hatch, but could overcome the inhibition and exhibited hatching, when transferred to fresh, inhibitor-free medium (Fig 2.6). Effect of the inhibitor was less pronounced in the deflated blastocysts when compared to expanded blastocysts (Figs 2.5 and 2.6). The viability of the cystatin-treated embryos was not affected as assessed by vital-dye staining and also their ability to attach and exhibit trophoblast (TB) proliferation on serum-coated dishes was not compromised. The area of the TB outgrowth of cystatin-treated embryos was similar to that of the untreated embryos (Fig 2.9). The inhibitory effect of PPDM, an irreversible inhibitor of cts, on blastocyst hatching was demonstrated. Expanded and deflated blastocysts exhibited a dose-dependent inhibition in hatching, following the exposure to 0.5 and 1.0 µM of PPDM (Figs 2.10A and 2.11A). When treated with the inhibitor for 6 or 12 h, there was a transient inhibition in hatching, as blastocysts could overcome the inhibition and exhibit hatching following transfer to inhibitor-free, fresh medium. Inhibitor-treated hatched blastocysts, when transferred to serum-coated dishes, attached and exhibited TB outgrowth, similar to untreated embryos (Figs 2.13 and 2.14). A PPDM-interacting protease was localised to the cytoplasm of the embryonic cells in the hamster blastocyst, suggesting that the embryo is the source of the zona lysin. Two forms of the enzyme, a probable variant zymogen of molecular mass 65 k and an active form of molecular mass 32 k were detected in the blastocysts (Fig 2.15). In vitro susceptibility of hamster zona to cathepsins is significantly different from that of other species zonae such as the mouse, rat, monkey and human zonae (Table 2.2). All these lines of evidence unequivocally demonstrate the involvement of cathepsins in hamster blastocyst hatching, which is in sharp contrast to what is observed in the mouse, where serine proteases such as strypsin/hepsin, ISP-1 and -2 are reported to play an important role in blastocyst hatching. However, since extensive inhibitor studies were not performed using embryos from other species, it is possible that cysteine proteases maybe involved in the hatching of blastocysts from other species. Having shown the role of cathepsins in hamster zona dissolution, expression of the cathepsins in preimplantation embryos was investigated. Hamster specific cts–L, -B and –P were amplified from day 14 placenta using mouse primers and the amplicons were found to be highly homologous to the cts of other species (Fig 3.2). Hamster and mouse preimplantation embryos i.e., 8-cell, morula and blastocyst were found to express cts–L, -B and –P transcripts (Figs 3.6 and 3.10). Cts-P, present only in the TBs of the placenta (Fig 3.4), for the first time, was also shown to be present in the preimplantation embryos. The immunoreactive cts-L and -P proteins were detected in blastomeres of 8-cell embryo, in the inner cell mass (ICM) and trophectoderm (TE) of the blastocyst (Figs 3.7 and 3.8). These cathepsins could probably correspond to the PPDM- interacting enzymes of molecular mass 32 and 65 kDa, described above. (fig) Fig 5.1. Overview of the expression and the role of embryo-endometrial cathepsins in blastocyst hatching in the golden hamster. Cathepsins ( ) produced by the inner cell mass ( ) or the trophectoderm ( ) of the blastocyst or the endometrial cells ( ) act on the zona matrix ( ), bringing about its lysis. The cathepsins are secreted into the peri-vitelline space or are carried by trophectodermal projections (TEPs, yellow projections) to the zona. Also shown are endogenous inhibitors and growth factors that can regulate these cathepsins. A striking observation made in this study was the detection of the immunoreactive signals for cathepsins in the zona matrix of blastocysts. Since hamster blastocysts possess extracellular projections (TEPs), it is possible for these projections to participate in the transport of cathepsins from TE cells to the zona; as the localisation of the proteases to these projections was demonstrated (Fig 3.9). Also, since the actin-based projections are highly undulating structures, they might potentiate the mechanical rupture of the zona during hatching, apart from acting as carriers for the proteases. Hence, during hatching of the hamster blastocyst, cathepsins, expressed in the ICM and the TE, might be secreted transiently into the peri-vitelline space, whereby they can act on the ZP. Alternatively, in the absence of any apoptotic cells in the embryo that can release the cell contents (Fig 3.13), the cathepsins may be deposited by TEPs in specific pockets of the zona matrix, thereby causing focal zona lysis. In vivo, the hatching of the blastocysts is brought about by both embryonic and maternal proteases. Cts–L and -B transcripts were detected in the maternal endometrium during different stages of the reproductive cycle and early pregnancy (Fig 4.1 and 4.3). Immunoreactive cts-L protein was detected in the uterine luminal epithelium and the stromal cells (Fig 4.5). In the uterus, the PPDM-interacting 32 kDa form was in abundance compared to the 65 kDa form (Fig 4.6). Hence, uterine cathepsins might play a major role in the remodelling of the extracellular matrix during estrous cycle and pregnancy. However, the role of these cathepsins in causing zona dissolution during blastocyst hatching, along with embryonic proteases cannot be ruled out. Reports of recurrent miscarriages in women with low serum cystatin levels imply a role for cysteine proteases in early pregnancy events like blastocyst development, hatching and implantation. Hence, these studies, described in the thesis, could form a basis to investigate the role of cathepsins in early human development. Taken together, the results demonstrate the involvement of embryo-derived cathepsins in hamster blastocyst hatching. These cathepsins may be secreted into the peri-vitelline space or transported to the zona matrix by TEPs (Fig 5.1). Additionally, in vivo, endometrial cathepsins might aid the embryonic zona lysins in the complete zona dissolution. The regulation of these proteases by growth factors, cytokines and their specific inhibitors needs to be explored. (For figure pl see the original document)

Hamster - Hatching

Proteases

Blastocyst Hatching

Embryogenesis

Zonalysis

Cathepsins

Cysteine Protease

Peri-implantation Embryo Development

Hamster Blastocysts

Animal Physiology

The Design, Synthesis and Biological Assay of Cysteine Protease Specific Inhibitors

Mehrtens (nee Nikkel), Janna Marie

January 2007

This thesis investigates the design, synthesis and biological assay of cysteine protease inhibitors within the papain superfamily of cysteine proteases. This is achieved by examining the effect of inhibitor design, especially warheads, on IC₅₀ values and structureactivity relationships between cysteine protease inhibitors of the papain superfamily. The representative proteases used are m-calpain, μ-calpain, cathepsin B and papain. Chapter One is an introductory chapter; Chapters Two-Four describe the design and synthesis of cysteine protease inhibitors; Chapter Five discusses assay protocol; and Chapter Six contains the assay results and structure-activity relationships of the synthesised inhibitors. Chapter One introduces cysteine proteases of the papain family and examines the structure, physiology and role in disease of papain, cathepsin B, m-calpain and μ-calpain. The close structural homology that exists between these members of the papain superfamily is identified, as well characteristics unique to each protease. Covalent reversible, covalent irreversible and non-covalent warheads are defined. The generic inhibitor scaffold of address region, recognition and warhead, upon which the inhibitors synthesised in this thesis are based, is also introduced. Chapter Two introduces reversible cysteine protease inhibitors found in the literature and that little is known about the effect of inhibitor warhead on selectivity within the papain superfamily. Oxidation of the dipeptidyl alcohols 2.6, 2.26, 2.29, 2.30, 2.35 and 2.36 utilising the sulfur trioxide-pyridine complex gave the aldehydes 2.3, 2.27, 2.19, 2.2, 2.21 and 2.22. Semicarbazones 2.37-2.40 were synthesised by a condensation reaction between the alcohol 2.3 and four available semicarbazides. The amidoximes 2.48 and 2.49 separately underwent thermal intramolecular cyclodehydration to give the 3-methyl-1,2,4- oxadiazoles 2.41 and 2.50. The aldehydes 2.3 and 2.27 were reacted with potassium cyanide to give the cyanohydrins 2.51 and 2.52. The cyanohydrins 2.51 and 2.52 were separately reacted to give 1) the α-ketotetrazoles 2.43 and 2.55; 2) the α-ketooxazolines 2.42 and 2.58; 3) the esterified cyanohydrins 2.60 and 2.61. A two step SN2 displacement reaction of the alcohol 2.6 to give the azide 2.62, an example of a non-covalent cysteine protease inhibitor. Chapter Three introduces inhibitors with irreversible warheads. The well-known examples of epoxysuccinic acids 3.1 and 3.5 are discussed in detail, highlighting the lack of irreversible cysteine protease specific inhibitors. The aldehydes 2.3 and 2.27 were reacted under Wittig conditions to give the α,β-unsaturated carbonyls 3.14-3.18. Horner- Emmons-Wadsworth methodology was utilised for the synthesis of the vinyl sulfones 3.20- 3.23. The dipeptidyl acids 2.24 and 2.28 were separately reacted with diazomethane to give the diazoketones 3.25 and 3.26. The diazoketones 3.25 and 3.26 were separately reacted with hydrogen bromide in acetic acid (33%) to give the α-bromomethyl ketones 3.27 and 3.28, which were subsequently reduced to give the α-bromomethyl alcohols 3.29-3.32. Under basic conditions the α-bromomethyl alcohols 3.29-3.32 ring-closed to form the peptidyl epoxides 3.33-3.36. Chapter Four introduces the disadvantages of peptide-based inhibitors. A discussion is given on the benefits of constraining inhibitors into the extended bioactive conformation known as a β-strand. Ring closing metathesis is utilised in the synthesis of the macrocyclic aldehyde 4.4, macrocyclic semicarbazone 4.15, the macrocyclic cyanohydrin 4.16, the macrocyclic α-ketotetrazole 4.18 and the macrocyclic azide 4.19. Chapter Five introduces enzyme inhibition studies. The BODIPY-casein fluorogenic assay used for establishing inhibitor potency against m-calpain and μ-calpain is validated. Assay protocols are also established and validated for cathepsin B, papain, pepsin and α- chymotrypsin. A discussion of the effect of solvent on enzyme activity is also included as part of this study. Chapter Six presents the assay results for all the inhibitors synthesised throughout this thesis and an extensive structure-activity relationship study between inhibitors is included. The alcohols 2.26 and 2.30 are unprecedented examples of non-covalent, potent, cathepsin B inhibitors (IC₅₀ = 0.075 μM selectivity 80-fold and 1.1 μM, selectivity 18-fold). The macrocyclic semicarbazone 4.15 is an unprecedented example of a potent macrocyclic cysteine protease inhibitor (m-calpain: IC₅₀ = 0.16 μM, selectivity 8-fold). The cyanohydrin 2.51 contains an unprecedented cysteine protease warhead and is a potent and selective inhibitor of papain (IC₅₀ = 0.030 μM, selectivity 3-fold). The O-protected cyanohydrin 2.61 is a potent and selective inhibitor of pepsin (IC₅₀ = 1.6 μM, selectivity 1.5-fold). The top ten warheads for potent, selective cathepsin B inhibition are: carboxylic acid, methyl ester, diazoketone, esterified cyanohydrin, α-bromomethyl ketone, α,β- unsaturated aldehyde, vinyl sulfones, α-bromomethyl-C₃-S,R-alcohol, alcohol and α,β- unsaturated ethyl ester. The selectivity of these warheads was between 5- and 130-fold for cathepsin B. The best inhibitors for cathepsin B were the α-bromomethyl ketone 3.26 (IC₅₀ = 0.075 μM, selectivity 16-fold), the α,β-unsaturated aldehyde 3.18 (IC₅₀ = 0.13 μM, selectivity 13-fold) and the esterified cyanohydrin 3.59 (IC₅₀ = 0.35 μM, selectivity 22- fold). Chapter Seven outlines the experimental details and synthesis of the compounds prepared in this thesis.

cysteine proteases

cysteine protease inhibitors

cathepsin B

papain

calpains

IC50. reversible inhibitors

irreversible inhibitors

non-covalent inhibitors

macrocycles

assays

Characterisation of proteases involved in proteolytic degradation of haemoglobin in the human hookworm Necator americanus

Ranjit, Najju

January 2008

With over a billion people infected world wide, hookworms are considered as important human pathogens, particularly in developing countries which have the highest rates of infections. Hookworms reside in the gastrointestinal tract of the host where they continuously feed on blood, leading to conditions such as chronic irondeficiency anaemia. The majority of blood-feeding parasites rely on proteins found in blood to provide many of their nutritional requirements for growth, reproduction and survival. Of the numerous proteins found in blood, haemoglobin (Hb) is one of the most abundant. In order to acquire amino acids for protein synthesis, it is thought that haematophagous parasites degrade Hb using various classes of endo- and exoproteases, in a manner similar to that which occurs in catabolism of proteins in mammalian cellular lysosomes. This study identified and characterised proteases involved in the Hb degradation process in the human hookworm, Necator americanus, in order to identify potential candidate antigens for a vaccine that interrupts blood-feeding. Red blood cells ingested by hookworms are lysed to release Hb, which is cleaved by various proteases into dipeptides or free amino acids and these are taken up through the gut membrane by amino acid transporters. Proteases expressed in the intestinal tract of hookworms are thought to play a major role in this process and would therefore make good targets for vaccine candidates aimed at interrupting blood-feeding. To identify these proteases, adult hookworms (both N. americanus and Ancylostoma caninum) were sectioned and intestinal tissue was dissected via laser microdissection microscopy. RNA extracted from the dissected tissue was used to generate gut-specific cDNA, which then was used to create plasmid libraries. Each library was subjected to shotgun sequencing, and of the 480 expressed sequence tags (ESTs) sequenced from each species, 268 and 276 contigs were assembled from the N. americanus and A. caninum libraries, respectively. Nine percent of N. americanus and 6.5% of A. caninum contigs were considered novel as no homologues were identified in any published/accessible database. The gene ontology (GO) classification system was used to categorise the contigs to predicted biological functions. Only 17% and 38% of N. americanus and A. caninum contigs, respectively, were assigned GO categories, while the rest were classified as being of unknown function. The most highly represented GO categories were molecular functions such as protein binding and catalytic activity. The most abundant transcripts encoded fatty acid binding proteins, C-type lectins and activation associated secreted proteins, indicative of the diversity of functions that occur in this complex organ. Of particular interest to this study were the contigs that encoded for cysteine and metalloproteases, expanding the list of potential N. americanus haemoglobinases. In the N. americanus cDNA library, four contigs encoding for cathepsin B cysteine proteases were identified. Three contigs from the A. caninum and one contig from the N. americanus cDNA libraries encoded for metalloproteases, including astacin-like and O-sialoglycoprotein endopeptidases, neither of which had previously been reported from adult hookworms. Apart from haemoglobinases, other mRNAs encoding potential vaccine candidate molecules were identified, including anti-clotting factors, defensins and membrane proteins. This study confirmed that the gut of hookworms encodes a diverse range of proteases, some of which are likely to be involved in Hb digestion and have the potential to be hidden (cryptic) vaccine antigens. Four cysteine proteases (Na-CP-2, -3, -4 and -5) were identified from the gut cDNA library of N. americanus. All four proteases belong to the clan CA, family C1, share homology with human cathepsin B and possess a modified occluding loop. Real-time PCR indicated that all transcripts were up-regulated in the adult stage of the hookworm parasite with high levels of mRNA expression detected in gut cDNA. All four proteases were expressed in recombinant form, but only Na-CP-3 was successfully expressed in soluble form in the yeast Pichia pastoris. Proteolytic activity for Na-CP-3 was detected on a gelatin zymogen gel, however no catalytic activity was detected against the class-specific fluorogenic peptides Z-Phe-Arg-AMC and Z-Arg-Arg-AMC. Mass spectrometry analysis of the purified protein suggested that the pro-region had not been processed in trans when the protein was secreted by yeast. Incubation of Na-CP-3 in salt buffers containing dextran sulfate resulted in autoprocessing of the pro-region as detected by Western blot and catalytic activity was detected against Z-Phe-Arg-AMC. Activated Na-CP-3 did not digest intact tetrameric human Hb. The other three cysteine proteases (Na-CP-2, -4, and -5) were expressed in insoluble form in Escherichia coli. Antibodies to all four proteins (Na- CP-2 to 5) immunolocalised to the gut region of the adult worm, supporting mRNA amplification results and strongly indicated that they might play a role in nutrient acquisition. Hb digestion in blood feeding parasites such as schistosomes and Plasmodium spp. occurs via a semi-ordered cascade of proteolysis involving numerous enzymes. In Plasmodium falciparum, at least three distinct mechanistic classes of endopeptidases have been implicated in this process, and at least two classes have been implicated in schistosomes. A similar process is thought to occur in hookworms. An aspartic protease, Na-APR-1, was expressed in P. pastoris and purified protein was shown to cleave the class-specific fluorogenic peptide 7- Methoxycoumarin-4-Acetyl-GKPILFFRLK(DNP)-D-Arg-Amide. Recombinant Na- APR-1 was able to cleave intact human Hb and completely degrade the 16 kDa monomer and 32 kDa dimer within one hour. Recombinant Na-CP-3 was not able to cleave intact Hb, but was able to further digest globin fragments that had previously been digested with Na-APR-1. A clan MA metalloprotease, Na-MEP-1, was identified in gut tissue of N. americanus and was expressed in recombinant form in Hi5 insect cells using the baculovirus expression system. Recombinant Na-MEP-1 displayed proteolytic activity when assessed by gelatin zymography, but was incapable of cleaving intact Hb. However, Na-MEP-1 did cleave globin fragments which had previously been incubated with Na-APR-1 and Na-CP-3. Hb digested with all three proteases was subjected to reverse phase HPLC and peptides were analysed using Liquid Chromatography-Mass Spectrometry (LC-MS). A total of 74 cleavage sites were identified within Hb ƒ¿ and ƒÀ chains. Na-APR-1 was responsible for cleavage of Hb at the hinge region, probably unravelling the molecule so that Na- CP-3 and Na-MEP-1 could gain access to globin peptides. All three proteases were promiscuous in their subsite specificities, but the most common P1-P1Œ residues were hydrophobic and/or bulky in nature, such as Phe, Leu and Ala. Antibodies to all three proteins (Na-APR-1, -CP-3, -MEP-1) immunolocalised to the gut region of the worm, further supporting their roles in Hb degradation. These results suggest that Hb degradation in N. americanus follows a similar pattern to that which has been described in Plasomdium falciparum. Studies conducted in this project have identified a number of potential haemoglobinases and have demonstrated that the gut region of the hookworm contains a multitude of proteases which could be targeted for production of new chemotherapies or as vaccine candidates. Results presented here also suggest that the Hb degradation process occurs in an ordered cascade, similar to those which have been reported in other haematophagous parasites. More importantly, it has been confirmed that Na-APR-1 plays a crucial role in the initiation of the Hb degradation process and therefore targeting this molecule as a vaccine candidate could provide high levels of protection against hookworm infection.

The Design, Synthesis and Biological Assay of Cysteine Protease Specific Inhibitors

Mehrtens (nee Nikkel), Janna Marie

January 2007

This thesis investigates the design, synthesis and biological assay of cysteine protease inhibitors within the papain superfamily of cysteine proteases. This is achieved by examining the effect of inhibitor design, especially warheads, on IC₅₀ values and structureactivity relationships between cysteine protease inhibitors of the papain superfamily. The representative proteases used are m-calpain, μ-calpain, cathepsin B and papain. Chapter One is an introductory chapter; Chapters Two-Four describe the design and synthesis of cysteine protease inhibitors; Chapter Five discusses assay protocol; and Chapter Six contains the assay results and structure-activity relationships of the synthesised inhibitors. Chapter One introduces cysteine proteases of the papain family and examines the structure, physiology and role in disease of papain, cathepsin B, m-calpain and μ-calpain. The close structural homology that exists between these members of the papain superfamily is identified, as well characteristics unique to each protease. Covalent reversible, covalent irreversible and non-covalent warheads are defined. The generic inhibitor scaffold of address region, recognition and warhead, upon which the inhibitors synthesised in this thesis are based, is also introduced. Chapter Two introduces reversible cysteine protease inhibitors found in the literature and that little is known about the effect of inhibitor warhead on selectivity within the papain superfamily. Oxidation of the dipeptidyl alcohols 2.6, 2.26, 2.29, 2.30, 2.35 and 2.36 utilising the sulfur trioxide-pyridine complex gave the aldehydes 2.3, 2.27, 2.19, 2.2, 2.21 and 2.22. Semicarbazones 2.37-2.40 were synthesised by a condensation reaction between the alcohol 2.3 and four available semicarbazides. The amidoximes 2.48 and 2.49 separately underwent thermal intramolecular cyclodehydration to give the 3-methyl-1,2,4- oxadiazoles 2.41 and 2.50. The aldehydes 2.3 and 2.27 were reacted with potassium cyanide to give the cyanohydrins 2.51 and 2.52. The cyanohydrins 2.51 and 2.52 were separately reacted to give 1) the α-ketotetrazoles 2.43 and 2.55; 2) the α-ketooxazolines 2.42 and 2.58; 3) the esterified cyanohydrins 2.60 and 2.61. A two step SN2 displacement reaction of the alcohol 2.6 to give the azide 2.62, an example of a non-covalent cysteine protease inhibitor. Chapter Three introduces inhibitors with irreversible warheads. The well-known examples of epoxysuccinic acids 3.1 and 3.5 are discussed in detail, highlighting the lack of irreversible cysteine protease specific inhibitors. The aldehydes 2.3 and 2.27 were reacted under Wittig conditions to give the α,β-unsaturated carbonyls 3.14-3.18. Horner- Emmons-Wadsworth methodology was utilised for the synthesis of the vinyl sulfones 3.20- 3.23. The dipeptidyl acids 2.24 and 2.28 were separately reacted with diazomethane to give the diazoketones 3.25 and 3.26. The diazoketones 3.25 and 3.26 were separately reacted with hydrogen bromide in acetic acid (33%) to give the α-bromomethyl ketones 3.27 and 3.28, which were subsequently reduced to give the α-bromomethyl alcohols 3.29-3.32. Under basic conditions the α-bromomethyl alcohols 3.29-3.32 ring-closed to form the peptidyl epoxides 3.33-3.36. Chapter Four introduces the disadvantages of peptide-based inhibitors. A discussion is given on the benefits of constraining inhibitors into the extended bioactive conformation known as a β-strand. Ring closing metathesis is utilised in the synthesis of the macrocyclic aldehyde 4.4, macrocyclic semicarbazone 4.15, the macrocyclic cyanohydrin 4.16, the macrocyclic α-ketotetrazole 4.18 and the macrocyclic azide 4.19. Chapter Five introduces enzyme inhibition studies. The BODIPY-casein fluorogenic assay used for establishing inhibitor potency against m-calpain and μ-calpain is validated. Assay protocols are also established and validated for cathepsin B, papain, pepsin and α- chymotrypsin. A discussion of the effect of solvent on enzyme activity is also included as part of this study. Chapter Six presents the assay results for all the inhibitors synthesised throughout this thesis and an extensive structure-activity relationship study between inhibitors is included. The alcohols 2.26 and 2.30 are unprecedented examples of non-covalent, potent, cathepsin B inhibitors (IC₅₀ = 0.075 μM selectivity 80-fold and 1.1 μM, selectivity 18-fold). The macrocyclic semicarbazone 4.15 is an unprecedented example of a potent macrocyclic cysteine protease inhibitor (m-calpain: IC₅₀ = 0.16 μM, selectivity 8-fold). The cyanohydrin 2.51 contains an unprecedented cysteine protease warhead and is a potent and selective inhibitor of papain (IC₅₀ = 0.030 μM, selectivity 3-fold). The O-protected cyanohydrin 2.61 is a potent and selective inhibitor of pepsin (IC₅₀ = 1.6 μM, selectivity 1.5-fold). The top ten warheads for potent, selective cathepsin B inhibition are: carboxylic acid, methyl ester, diazoketone, esterified cyanohydrin, α-bromomethyl ketone, α,β- unsaturated aldehyde, vinyl sulfones, α-bromomethyl-C₃-S,R-alcohol, alcohol and α,β- unsaturated ethyl ester. The selectivity of these warheads was between 5- and 130-fold for cathepsin B. The best inhibitors for cathepsin B were the α-bromomethyl ketone 3.26 (IC₅₀ = 0.075 μM, selectivity 16-fold), the α,β-unsaturated aldehyde 3.18 (IC₅₀ = 0.13 μM, selectivity 13-fold) and the esterified cyanohydrin 3.59 (IC₅₀ = 0.35 μM, selectivity 22- fold). Chapter Seven outlines the experimental details and synthesis of the compounds prepared in this thesis.

cysteine proteases

cysteine protease inhibitors

cathepsin B

papain

calpains

IC50. reversible inhibitors

irreversible inhibitors

non-covalent inhibitors

macrocycles

assays

Expressão recombinante da cisteíno protease nsP2 do arbovírus Mayaro em células de inseto

Costa, Renata Torres da

January 2016

Orientadora: Profa. Dra. Maria Aparecida Sperança / Dissertação (mestrado) - Universidade Federal do ABC, Programa de Pós-Graduação em Biossistemas, 2016. / O arbovírus Mayaro (MAYV), encontrado nas regiões próximas a florestas e áreas rurais da América do Sul, é membro da família Togaviridae, gênero Alphavirus. Este gênero é distribuído amplamente, tendo dois grupos principais: Alphavirus do Velho Mundo (Chikungunya, Sindbis, O¿nyong-nyong, Ross River, Semliki Forest) e do Novo Mundo (Encefalite Equina Venezuelana, Encefalite Equina Ocidental), de acordo com a região na qual foram isolados originalmente. O mosquito Haemagogus spp. é o principal vetor do MAYV que também já foi isolado de mosquitos do gênero Aedes spp. Considerando a semelhança do MAYV com o vírus Chikungunya, recentemente inserido no Brasil, e transmitido por Ae. aegypti, há risco de que o MAYV possa ser transmitido em áreas urbanas. Cabe ressaltar que no Brasil já foram registrados casos de co-circulação de MAYV durante surtos epidêmicos de dengue. A infecção por MAYV causa sintomas semelhantes a outras doenças febris, como a febre da dengue, a febre do Chikungunya, e a malária, dificultando o diagnóstico preciso dos casos. O genoma de MAYV, com cerca de 11,7 kb, é organizado em duas principais regiões: domínio não estrutural (extremidade 5¿ do RNA), contendo os genes que codificam as proteínas não estruturais (nsP1-4); e domínio estrutural, contendo os genes que codificam as proteínas estruturais. As proteínas não estruturais dos Alphavirus são necessárias para o processamento da poliproteína e para síntese do RNA viral. Dentre as proteínas não estruturais, as proteases virais podem ser imunogênicas além de se constituírem em excelentes alvos terapêuticos. O estudo comparativo do genoma dos Alphavirus indica que a proteína nsP2 de MAYV possui diversas atividades enzimáticas, incluindo a atividade de cisteíno protease em sua região C-terminal. Portanto, com o intuito de obter um método de diagnóstico sorológico específico para MAYV, utilizando sistema de expressão recombinante em células de insetos, foi realizada a construção de três baculovírus recombinantes para a nsP2 de MAYV, para obtenção da proteína completa (nsP2FL), do domínio de cisteíno protease da porção C-terminal (Pro38), e do domínio N-terminal (NT51) como controle negativo da atividade proteolítica. A expressão de cada uma das formas recombinantes da nsP2 foi realizada em célula de inseto High Five¿. Os resultados foram analisados por meio de eletroforese em gel de poliacrilamida contendo SDS (SDS-PAGE) e Western blotting. Apenas a construção NT51 da nsP2 de MAYV foi detectada na fração celular da cultura de High Five¿ por Western blotting. A análise de RNA das células High Five¿ e Sf-9 infectadas com os baculovírus recombinantes para nsP2FL e Pro38, revelou a presença de transcritos das proteínas recombinantes, indicando que a ausência dos produtos proteicos poderia ser devido a perda da cauda de histidina presente nas construções por atividade de proteólise na extremidade Cterminal. Esta hipótese foi confirmada após expressão das proteínas nsP2FL e Pro38, em célula High Five¿ infectada com baculovírus recombinantes para os genes que codificam as respectivas proteínas, com cauda de histidina na porção N-terminal. / The arbovirus Mayaro (MAYV), found in regions close to forests and rural areas of South America, is a member of the family Togaviridae, genus Alphavirus. This genus is distributed widely, in two main groups, according to the region in which they were originally isolated: the Old World (Chikungunya, Sindbis, O'nyong-Nyong, Ross River, Semliki Forest) and the New World Alphavirus (Venezuelan Equine Encephalitis, Western Equine Encephalitis). The mosquito Haemagogus spp. is the main vector of MAYV which has also been isolated from mosquitoes of the genus Aedes spp. Considering the similarity of MAYV with Chikungunya virus, recently introduced in Brazil, and transmitted by Ae. aegypti, there is risk of MAYV urban transmission. Indeed, in Brazil, co-circulation of MAYV during dengue outbreaks have been related. Symptoms of MAYV fever are similar to other febrile diseases, such as dengue fever, Chikungunya fever, and malaria, making an accurate diagnosis, difficult. MAYV 11.7 kb genome is divided in two regions: non-structural domain (5'- RNA) containing the genes encoding the nonstructural proteins (nsP1-4); and structural domain containing genes encoding structural proteins. The Alphavirus nonstructural proteins are required for processing of the polyprotein and for viral RNA synthesis. Among the non-structural proteins, viral proteases may be immunogenic besides being excellent therapeutic targets. Genome comparative studies of Alphavirus indicates that the MAYV nsP2 protein has diverse enzymatic activities including a cysteine protease activity in its C-terminal region. Thus, with the objective to obtain a specific diagnostic method for MAYV, using a recombinant expression system in insect cells, a construction of three MAYV nsP2 recombinant baculoviruses to obtain the complete protein (nsP2FL), the C-terminal cysteine protease domain (Pro38), and the N-terminal (NT51) domain as a proteolysis activity negative control. The expression of each nsP2 construction was performed on Sf-9 and High Five¿ insect cells and the results were analyzed by polyacrylamide gel electrophoresis with SDS (SDS-PAGE) and Western blotting. Only the nsP2 NT51 construction was detected in the cellular fraction of Sf-9 and High Five¿ cultures by Western blotting. RNA analysis of Sf-9 cells infected with nsP2FL and Pro38 recombinant baculoviruses revealed the presence of transcripts, suggesting that the absence of the corresponding protein products occurred due the proteolysis of the C-terminal portion of the protein, resulting in histidine tail elimination. This hypothesis was confirmed by expression of nsP2FL e Pro38, proteins in Sf-9 and High Five¿ cells infected with recombinant baculoviruses for the genes encoding the respective proteins with histidine tail at the N-terminal portion.

EXPRESSÃO RECOMBINANTE

CÉLULA DE INSETO

CISTEÍNO PROTEASE

RECOMBINANT EXPRESSION

INSECT CELLS

CYSTEINE PROTEASE

Produção recombinante e caracterização de uma legumaína de cana-de-açúcar

Buzolin, Ana Lígia

04 September 2014

Made available in DSpace on 2016-06-02T20:21:36Z (GMT). No. of bitstreams: 1 6407.pdf: 1899401 bytes, checksum: d7929c149990e2a77bfc5e204bc566f5 (MD5) Previous issue date: 2014-09-04 / Universidade Federal de Minas Gerais / Cysteine proteases (CPs) are proteolytic enzymes which have a cysteine residue at its active site. Plant legumains are CPs known as vacuolar processing enzymes and they play key roles in seed maturation, germination, senescence, stress response, programmed cell death during development and defense against pathogens. Although there are many studies about plant legumains, most of them is related to legumain functions in seeds of dicotyledonous. To date, only one legumain from sugarcane has been described. In this study, it was performed the characterization of a new sugarcane legumain, named CaneLEG2. The recombinant CaneLEG2 was produced in the heterologous expression system Pichia pastoris and its kinetic characterization showed that it exhibits self-activation and activity under acidic pH, which are common features of plant legumains. This study also demonstrated that the sugarcane cystatin CaneCPI-3 has a strong inhibition over the CaneLEG2 activity, suggesting that this cystatin may participate of the regulation of endogenous cysteine proteases. The results obtained in this work will support the understanding of the functions of CaneLEG2 and CaneCPI-3 in sugarcane. / As cisteino-peptidases (CPs) são enzimas proteoliticas que possuem um resíduo de cisteina em seu sitio ativo. As legumainas de plantas são CPs conhecidas como enzimas de processamento vacuolar (VPE) e participam nos processos de maturação de sementes, germinação, senescência, resposta a estresses, morte celular programada no desenvolvimento da planta ou em resposta ao ataque de patógenos. Embora existam diversos estudos com legumainas de plantas, a maioria deles esta relacionada as funções das legumainas em sementes de dicotiledoneas. Ate o momento, apenas uma legumaina de cana-de-açúcar havia sido descrita. Neste presente trabalho, foi realizada a caracterização de uma nova legumaina de cana-de-açúcar, denominada CaneLEG2. A CaneLEG2 recombinante foi produzida em sistema de expressão heterologa Pichia pastoris e sua caracterização cinetica mostrou que ela apresenta auto-ativação e atividade em pH ácido, caracteristicas comuns em legumainas de plantas. Esse estudo ainda demonstrou que a cistatina de cana-de-açúcar CaneCPI-3 exerce uma forte inibição sobre a atividade da CaneLEG2, sugerindo que essa cistatina pode atuar na regulação de cisteino-peptidases endógenas. Os resultados obtidos neste trabalho ajudam no entendimento das funções exercidas pela CaneLEG2 e CaneCPI-3 na cana-de-açúcar.

Biologia molecular

Cisteíno peptidase

Cistatina

Legumaína

Pichia pastoris

Saccharum sp

Cysteine protease

Cystatin

Legumain

CIENCIAS BIOLOGICAS::GENETICA

Effects of Five Substances with Different Modes of Action on Cathepsin H, C and L Activities in Zebrafish Embryos

Küster, Eberhard, Kalkhof, Stefan, Aulhorn, Silke, von Bergen, Martin, Gündel, Ulrike

06 April 2023

Cathepsins have been proposed as biomarkers of chemical exposure in the zebrafish embryo model but it is unclear whether they can also be used to detect sublethal stress. The present study evaluates three cathepsin types as candidate biomarkers in zebrafish embryos. In addition to other functions, cathepsins are also involved in yolk lysosomal processes for the internal nutrition of embryos of oviparous animals until external feeding starts. The baseline enzyme activity of cathepsin types H, C and L during the embryonic development of zebrafish in the first 96 h post fertilisation was studied. Secondly, the effect of leupeptin, a known cathepsin inhibitor, and four embryotoxic xenobiotic compounds with different modes of action (phenanthrene—baseline toxicity; rotenone—an inhibitor of electron transport chain in mitochondria; DNOC (Dinitro-ortho-cresol)—an inhibitor of ATP synthesis; and tebuconazole—a sterol biosynthesis inhibitor) on in vivo cathepsin H, C and L total activities have been tested. The positive control leupeptin showed effects on cathepsin L at a 20-fold lower concentration compared to the respective LC50 (0.4 mM) of the zebrafish embryo assay (FET). The observed effects on the enzyme activity of the four other xenobiotics were not or just slightly more sensitive (factor of 1.5 to 3), but the differences did not reach statistical significance. Results of this study indicate that the analysed cathepsins are not susceptible to toxins other than the known peptide-like inhibitors. However, specific cathepsin inhibitors might be identified using the zebrafish embryo.

info:eu-repo/classification/ddc/610

ddc:610

ELUCIDATION OF A NOVEL PATHWAY IN STAPHYLOCOCCUS AUREUS: THE ESSENTIAL SITE-SPECIFIC PROCESSING OF RIBOSOMAL PROTEIN L27

Wall, Erin A

01 January 2015

Ribosomal protein L27 is a component of the eubacterial large ribosomal subunit that has been shown to play a critical role in substrate stabilization during protein synthesis. This function is mediated by the L27 N-terminus, which protrudes into the peptidyl transferase center where it interacts with both A-site and P-site tRNAs as well as with 23S rRNA. We observed that L27 in S. aureus and other Firmicutes is encoded with a short N-terminal extension that is not present in most Gram-negative organisms, and is absent from mature ribosomes. The extension contains a conserved cleavage motif; nine N-terminal amino acids are post-translationally removed from L27 by a site-specific protease so that conserved residues important for tRNA stabilization at the peptidyl transferase center are exposed. We have identified a novel cysteine protease in S. aureus that performs this cleavage. This protease, which we have named Prp, is conserved in all bacteria containing the L27 N-terminal extension. L27 cleavage was shown to be essential in S. aureus; un-cleavable L27 did not complement an L27 deletion. Cleavage appears to play an essential regulatory role, as a variant of L27 lacking the cleavage motif could not complement. Ribosomal biology in eubacteria has largely been studied in E. coli; our findings indicate that there are aspects of the basic biology of the ribosome in S. aureus and other related bacteria that differ substantially from that of E. coli. This research lays the foundation for the development of new therapeutic approaches that target this novel, essential pathway.

Staphylococcus aureus

ribosome

L27

cysteine protease

Amino Acids, Peptides, and Proteins

Bacteriology

Biochemistry

Enzymes and Coenzymes

Microbial Physiology

Molecular Biology

Structural Biology

Virology