Biochemistry and Pharmacology - Research Publications

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Start date: 2010 × End date: 2019 × Author: Hill, Andrew × Author: Barnham, Kevin × Author: Bush, Ashley ×

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    The hypoxia imaging agent CuII(atsm) is neuroprotective and improves motor and cognitive functions in multiple animal models of Parkinson's disease
    Hung, LW ; Villemagne, VL ; Cheng, L ; Sherratt, NA ; Ayton, S ; White, AR ; Crouch, PJ ; Lim, S ; Leong, SL ; Wilkins, S ; George, J ; Roberts, BR ; Pham, CLL ; Liu, X ; Chiu, FCK ; Shackleford, DM ; Powell, AK ; Masters, CL ; Bush, AI ; O'Keefe, G ; Culvenor, JG ; Cappai, R ; Cherny, RA ; Donnelly, PS ; Hill, AF ; Finkelstein, DI ; Barnham, KJ (ROCKEFELLER UNIV PRESS, 2012-04-09)
    Parkinson's disease (PD) is a progressive, chronic disease characterized by dyskinesia, rigidity, instability, and tremors. The disease is defined by the presence of Lewy bodies, which primarily consist of aggregated α-synuclein protein, and is accompanied by the loss of monoaminergic neurons. Current therapeutic strategies only give symptomatic relief of motor impairment and do not address the underlying neurodegeneration. Hence, we have identified Cu(II)(atsm) as a potential therapeutic for PD. Drug administration to four different animal models of PD resulted in improved motor and cognition function, rescued nigral cell loss, and improved dopamine metabolism. In vitro, this compound is able to inhibit the effects of peroxynitrite-driven toxicity, including the formation of nitrated α-synuclein oligomers. Our results show that Cu(II)(atsm) is effective in reversing parkinsonian defects in animal models and has the potential to be a successful treatment of PD.
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    Ablation of tau causes an olfactory deficit in a murine model of Parkinson's disease
    Beauchamp, LC ; Chan, J ; Hung, LW ; Padman, BS ; Vella, LJ ; Liu, XM ; Coleman, B ; Bush, AI ; Lazarou, M ; Hill, AF ; Jacobson, L ; Barnham, KJ (BMC, 2018-07-05)
    Parkinson's disease is diagnosed upon the presentation of motor symptoms, resulting from substantial degeneration of dopaminergic neurons in the midbrain. Prior to diagnosis, there is a lengthy prodromal stage in which non-motor symptoms, including olfactory deficits (hyposmia), develop. There is limited information about non-motor impairments and there is a need for directed research into these early pathogenic cellular pathways that precede extensive dopaminergic death in the midbrain. The protein tau has been identified as a genetic risk factor in the development of sporadic PD. Tau knockout mice have been reported as an age-dependent model of PD, and this study has demonstrated that they develop motor deficits at 15-months-old. We have shown that at 7-month-old tau knockout mice present with an overt hyposmic phenotype. This olfactory deficit correlates with an accumulation of α-synuclein, as well as autophagic impairment, in the olfactory bulb. This pathological feature becomes apparent in the striatum and substantia nigra of 15-month-old tau knockout mice, suggesting the potential for a spread of disease. Initial primary cell culture experiments have demonstrated that ablation of tau results in the release of α-synuclein enriched exosomes, providing a potential mechanism for disease spread. These alterations in α-synuclein level as well as a marked autophagy impairment in the tau knockout primary cells recapitulate results seen in the animal model. These data implicate a pathological role for tau in early Parkinson's disease.