Pharmacology and Therapeutics - Research Publications

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Author: Adlard, Paul × Author: Bush, Ashley × Start date: 2006 ×

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    Metals and Alzheimer's disease
    Adlard, PA ; Bush, AI (IOS PRESS, 2006-11)
    There is increasing evidence to support a role for both the amyloid beta-protein precursor (AbetaPP) and its proteolytic fragment, amyloid beta (Abeta), in metal ion homeostasis. Furthermore, metal ions such as zinc and copper can interact with both AbetaPP and Abeta to potentiate Alzheimer's disease by participating in the aggregation of these normal cellular proteins and in the generation of reactive oxygen species. In addition, metal ions may interact on several other AD-related pathways, including those involved in neurofibrillary tangle formation, secretase cleavage of AbetaPP and proteolytic degradation of Abeta. As such, a dysregulation of metal ion homeostasis, as occurs with both aging and in AD, may foster an environment that can both precipitate and accelerate degenerative conditions such as AD. This offers a broad biochemical front for novel therapeutic interventions.
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    Tau-mediated iron export prevents ferroptotic damage after ischemic stroke
    Tuo, Q-Z ; Lei, P ; Jackman, KA ; Li, X-I ; Xiong, H ; Li, X-L ; Liuyang, Z-Y ; Roisman, L ; Zhang, S-T ; Ayton, S ; Wang, Q ; Crouch, PJ ; Ganio, K ; Wang, X-C ; Pei, L ; Adlard, PA ; Lu, Y-M ; Cappai, R ; Wang, J-Z ; Liu, R ; Bush, AI (NATURE PUBLISHING GROUP, 2017-11)
    Functional failure of tau contributes to age-dependent, iron-mediated neurotoxicity, and as iron accumulates in ischemic stroke tissue, we hypothesized that tau failure may exaggerate ischemia-reperfusion-related toxicity. Indeed, unilateral, transient middle cerebral artery occlusion (MCAO) suppressed hemispheric tau and increased iron levels in young (3-month-old) mice and rats. Wild-type mice were protected by iron-targeted interventions: ceruloplasmin and amyloid precursor protein ectodomain, as well as ferroptosis inhibitors. At this age, tau-knockout mice did not express elevated brain iron and were protected against hemispheric reperfusion injury following MCAO, indicating that tau suppression may prevent ferroptosis. However, the accelerated age-dependent brain iron accumulation that occurs in tau-knockout mice at 12 months of age negated the protective benefit of tau suppression against MCAO-induced focal cerebral ischemia-reperfusion injury. The protective benefit of tau knockout was revived in older mice by iron-targeting interventions. These findings introduce tau-iron interaction as a pleiotropic modulator of ferroptosis and ischemic stroke outcome.
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    A comparison of ceruloplasmin to biological polyanions in promoting the oxidation of Fe2+ under physiologically relevant conditions
    Wong, BX ; Ayton, S ; Lam, LQ ; Lei, P ; Adlard, PA ; Bush, AI ; Duce, JA (ELSEVIER SCIENCE BV, 2014-12)
    BACKGROUND: Iron oxidation is thought to be predominantly handled enzymatically in the body, to minimize spontaneous combustion with oxygen and to facilitate cellular iron export by loading transferrin. This process may be impaired in disease, and requires more accurate analytical assays to interrogate enzymatic- and auto-oxidation within a physiologically relevant environment. METHOD: A new triplex ferroxidase activity assay has been developed that overcomes the previous assay limitations of measuring iron oxidation at a physiologically relevant pH and salinity. RESULTS: Revised enzymatic kinetics for ceruloplasmin (Vmax≈35μMFe(3+)/min/μM; Km≈15μM) are provided under physiological conditions, and inhibition by sodium azide (Ki for Ferric Gain 78.3μM, Ki for transferrin loading 8.1×10(4)μM) is quantified. We also used this assay to characterize the non-enzymatic oxidation of iron that proceeded linearly under physiological conditions. CONCLUSIONS AND GENERAL SIGNIFICANCE: These findings indicate that the requirement of an enzyme to oxidize iron may only be necessary under conditions of adverse pH or anionic strength, for example from hypoxia. In a normal physiological environment, Fe(3+) incorporation into transferrin would be sufficiently enabled by the biological polyanions that are prevalent within extracellular fluids.
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    Pharmacotherapeutic targets in Alzheimer's disease
    Biran, Y ; Masters, CL ; Barnham, KJ ; Bush, AI ; Adlard, PA (WILEY, 2009-01)
    Alzheimer's disease (AD) is a progressive neurodegenerative disorder which is characterized by an increasing impairment in normal memory and cognitive processes that significantly diminishes a person's daily functioning. Despite decades of research and advances in our understanding of disease aetiology and pathogenesis, there are still no effective disease-modifying drugs available for the treatment of AD. However, numerous compounds are currently undergoing pre-clinical and clinical evaluations. These candidate pharma-cotherapeutics are aimed at various aspects of the disease, such as the microtubule-associated tau-protein, the amyloid-beta(Abeta) peptide and metal ion dyshomeostasis--all of which are involved in the development and progression of AD. We will review the way these pharmacological strategies target the biochemical and clinical features of the disease and the investigational drugs for each category.
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    β-amyloid in biological samples: not all Aβ detection methods are created equal
    Adlard, PA ; Li, Q-X ; McLean, C ; Masters, CL ; Bush, AI ; Fodero-Tavoletti, M ; Villemagne, V ; Barnham, KJ (FRONTIERS MEDIA SA, 2014-08-13)