Browsing by Author "Eyssen, Lauren Elizabeth-Ann."

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Molecular characterisation of metacaspase 5 and the production of oligopeptidase b-specific single chain variable fragment antibodies for potential animal African trypanosomosis chemotherapies and diagnostics.
(2018) Eyssen, Lauren Elizabeth-Ann.; Coetzer, Theresa Helen Taillefer.
African trypanosomosis (AT) is a major obstacle in the establishment of agriculture and economic sustainability in Africa. Animal AT is responsible for large numbers of livestock succumbing to the tsetse transmitted kinetoplastid parasites, Trypanosoma congolense and T. vivax, and as a result, losses in further downstream sectors are experienced. Due to the ability of the trypanosomal parasites to undergo antigenic variation, vaccine candidates are highly unlikely. Peptidases have been identified as virulence factors and are the focus of the development of novel chemotherapies and diagnostics. The metacaspases (MCAs) are a prime example of a chemotherapeutic target and oligopeptidase B (OPB), that of a diagnostic target. Towards the validation of a chemotherapeutic target, recombinant expression was used to obtain an active peptidase which could be enzymatically characterised. Various inhibitors were investigated and their effect on the parasite, analysed. Current diagnostics are based on antibody detection, but an antigen detection format would be preferable as it could differentiate between active and cured infections as anti-trypanosomal antibodies can persist for years. Given the rural, resource-poor locations in the areas of AT incidence, an ideal rapid diagnostic test (RDT) would be robust, affordable, sensitive and specific and requiring minimal training, such as a dipstick test. The MCAs are cysteine peptidases which are found in all kingdoms other than the metazoa, and share a secondary structure fold and catalytic dyad with the metazoan caspases. Since the caspases play a role in apoptosis, it is thought that the MCAs may function in a similar manner. The single copy MCAs of Trypanosoma spp. and Leishmania spp. differ from the multicopy MCAs in that they possess a Pro-, Gln-, Tyr-rich C-terminal domain which is thought to mediate protein-protein interactions. The activity of the single copy MCAs from T. cruzi and L. major has been implicated in the cell cycle of the kinetoplastid parasite. The aim of the project was to express, purify and enzymatically characterise the recombinant and native MCA5 from T. congolense and T. vivax. Using the 3D structures, solved by X-ray diffraction, of MCA2 from T. b. brucei, molecular docking studies were used to validate the inhibition potential of a published library of inhibitors, designed based on the, then, hypothetical structure of TbbMCA2. Since the elucidation of the 3D structure of TbbMCA2 by X-ray diffraction, the inhibitory power of the library of inhibitors against TbbMCA2 and the MCA5s was investigated. The serine peptidase, OPB, has been shown to be released into the host bloodstream by dead and dying parasites. The use of phage displayed scFv (single chain fragment variable) antibodies for the detection of OPB in serum from infected cattle is reported, towards the development of a RDT. Recombinantly expressed TcoMCA5 was shown to autoprocess and over autoprocess when purified using nickel affinity chromatography. Mutagenesis of the catalytic dyad residues reduced the over autoprocessing and the mutated form was enzymatically active at a pH between 6 and 9. This active mutant and purified TcoMCA5 showed a prefence for Arg over Lys at the P1 substrate position and were able to hydrolyse gelatin. Possible novel inhibitors of TbbMCA2 and the MCA5s of T. congolense and T. vivax were identified using a library of ligands (Berg library) based on the P1 specificity of TbbMCA2 and molecular docking. Commercial fluorogenic peptide substrates and inhibitors reported in literature for the characterisation of various MCAs, revealed interactions with the MCAs which should be taken into consideration when modifying the Berg ligands to achieve higher affinity for the MCAs. The application of scFv antibodies, derived from the Nkuku® phagemid library, for the diagnosis of current AAT infections by the detection of OPB, released in the bloodstream of the infected mammalian host, was investigated. After the successful isolation and production of OPB-specific scFv, MCA-specific scFv antibodies can be pursued using the Nkuku® phagemid library. The resulting OPB-specific scFv identified a conserved peptide between T. congolense and T. vivax and was able to detect native OPB in a western blot format. It was predicted that the scFv interacted with OPB in such a way that it would restrict the hinge motion between the C-terminal catalytic and N-terminal regulatory domains of the enzyme and limit access to the active site pocket. The ability of scFv and rabbit-anti-OPB polyclonal antibody in an antigen detection ELISA with sera from T. congolense infected cattle indicated that detection of OPB fluctuated with parasitaemia.
Studying trypanosomal peptidase antigen targets for the diagnosis of animal African trypanosomiasis.
(2013) Eyssen, Lauren Elizabeth-Ann.; Coetzer, Theresa Helen Taillefer.
The lack of a vaccine candidate due to antigenic variation by trypanosomal parasites, the causative agents of human and animal African trypanosomiasis, requires the disease to be controlled by surveillance, diagnosis and appropriate treatment schedules. Due to the non-specific symptoms along with the toxicity and side effects of the current trypanocides, diagnosis needs to be accurate, cost effective and applicable to active case finding in mostly rural settings. Trypanosomal proteases have been identified as virulence factors as they are essential to the parasites‟ survival. Here the diagnostic potential of previously described virulence factors, oligopeptidase B (OPB), pyroglutamyl peptidase (PGP) and the full length and catalytic domain of the cathepsin L-like peptidases (CATLFL and CATL respectively) from T. congolense (Tc) as well as OPB and CATL from T. vivax (Tv), was determined. These antigens were recombinantly expressed, purified and used to generate antibodies in chickens. The purified recombinant antigens were tested in an inhibition and indirect ELISA format using two separate blinded serum panels consisting of sera from non-infected and experimentally infected cattle, one each for T. congolense and for T. vivax. The tested sera were diluted 1:10 for the TcCATLFL, TcCATL antigens whilst the TvCATL antigen used a 1:100 serum dilution. The TcCATLFL, TcCATL and TvCATL antigens had the highest diagnostic potential in the indirect ELISA format with a 90.91, 92.21% accuracy at the second cut-off and a 77.22% accuracy at the third cut-off along with 0.8084, 0.7785 and 0.8813 area under curve (AUC) values respectively. These antigens show potential for development of lateral flow tests to detect T. congolense and T. vivax infections in cattle. The recently discovered metacaspases (MCAs) have been implicated in caspase-like activity and differentiation in T. b. brucei, T. cruzi and L. major and are considered to be virulence factors. The putative metacaspase 5 gene from T. congolense (TcMCA5) was successfully cloned, expressed within inclusion bodies, resolubilised and refolded using immobilised metal affinity chromatography. Recombinant TcMCA5 was successfully refolded as evident by the hydrolysis of the synthetic peptide substrate, Z-Gly-Gly-Arg-AMC. Autocatalytic processing was observed within the inclusion bodies and the products were purified along with the full length recombinant protein. Anti-TcMCA5 IgY antibodies, raised in chickens, were able to detect the native TcMCA5 along with the autocatalytic processed products within the lysate of the procyclic T. congolense (strain IL 3000) parasites. The diagnostic potential of TcMCA5 still requires verification.