Roy McCauley scite author profile

Autophagy is a regulated process for the degradation of cellular components that has been well conserved in eukaryotic cells. The discovery of autophagy-regulating proteins in yeast has been important in understanding this process. Although many parallels exist between fungi and mammals in the regulation and execution of autophagy, there are some important differences. The pre-autophagosomal structure found in yeast has not been identified in mammals, and it seems that there may be multiple origins for autophagosomes, including endoplasmic reticulum, plasma membrane and mitochondrial outer membrane. The maturation of the phagophore is largely dependent on 5'-AMP activated protein kinase and other factors that lead to the dephosphorylation of mammalian target of rapamycin. Once the process is initiated, the mammalian phagophore elongates and matures into an autophagosome by processes that are similar to those in yeast. Cargo selection is dependent on the ubiquitin conjugation of protein aggregates and organelles and recognition of these conjugates by autophagosomal receptors. Lysosomal degradation of cargo produces metabolites that can be recycled during stress. Autophagy is an important cellular safeguard during starvation in all eukaryotes; however, it may have more complicated, tissue specific roles in mammals. With certain exceptions, autophagy seems to be cytoprotective, and defects in the process have been associated with human disease.

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Adenosine‐induced apoptosis in chick embryonic sympathetic neurons: a new physiological role for adenosine.

Wakade

Palmer

McCauley

et al. 1995

The Journal of Physiology

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1. A newly found action of adenosine in neurons, which may have an important physiological function in the growth and development of the sympathetic nervous system, is described.Adenosine (1-100 /SM) inhibited neurite outgrowth within the first 24 h and killed about 80 % of sympathetic neurons supported by nerve growth factor over the next 2 days in culture. Neurons supported by excess KCl, forskolin or phorbol 12,13-dibutyrate were equally susceptible to the toxic actions of adenosine. Inosine, guanosine or hypoxanthine (all 100-300 /tM) were without effect on neuronal growth and survival. 2. Specific agonists of adenosine Al and A2 receptors were not neurotoxic, and toxic effects of adenosine were not antagonized by aminophylline. These results rule out involvement of adenosine receptors and the adenylyl cyclase-cAMP signalling system in neurotoxic actions of adenosine. 3. Adenosine toxicity was prevented by inhibitors of the adenosine membrane transporter, suggesting an intracellular site of action of adenosine. 4. Inhibitors of adenosine deaminase dramatically facilitated the toxic action so that physiologically relevant concentrations of adenosine were neurotoxic. 5. Adenosine kinase activity of sympathetic neurons was dose-dependently inhibited by 5'-iodotubercidin (3-100 nM). 5'-Iodotubercidin (100 nM) completely protected neurons against toxicity of adenosine plus adenosine deaminase inhibitors. These results provide convincing evidence that phosphorylation of the nucleoside is an essential requirement for initiation of adenosine toxicity. 6. Sympathetic neurons were successfully rescued from the lethal effects of adenosine deaminase inhibitor plus adenosine by uridine or 2-deoxycytidine, but not by nicotinamide or 2-deoxyguanosine, suggesting that depletion of pyrimidine nucleotides by phosphorylated adenosine compounds and consequent inhibition of DNA synthesis produces neuronal death. 7. DNA fragmentation, assessed by the fluorescent dye bisbenzimide and by the TUNEL (terminal deoxynucleotidyl transferase-mediated nick end labelling) method, indicated that neuronal death induced by adenosine was apoptotic. 8. We conclude that adenosine deaminase and adenosine kinase play an important role in the metabolism of intracellular concentrations of adenosine and thereby regulate the growth and development of sympathetic neurons. Our study highlights, for the first time, the importance of adenosine as a mediator of programmed cell death of neurons supported by nerve growth factor.

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Activation of Src protein tyrosine kinase plays an essential role in urocortin-mediated cardioprotection

Yuan

McCauley

Chen‐Scarabelli

et al. 2010

Molecular and Cellular Endocrinology

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Separation of two monoamine oxidases from bovine bran

1973

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The in vitro insertion of monoamine oxidase B into mitochondrial outer membranes

1988

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Bovine monoamine oxidase (MAO) B has been synthesized in vitro using a reticulocyte lysate translation system directed by bovine liver poly(A)+ RNA. The newly synthesized enzyme apparently lacks a cleavable N‐terminal extension, but MAO B is readily incorporated into mitochondria or isolated mitochondrial outer membranes prepared from rat liver. ATP is not required for the binding of the newly synthesized enzyme to the outer membranes, but is necessary for the insertion of MAO B into these membrane vesicles. The ATP is not required to generate a mitochondrial membrane potential as assembly occurs under conditions that preclude either the formation or the maintenance of the potential. MAO B will bind to but not become incorporated into outer membrane vesicles which have been treated with trypsin, suggesting that the insertion of MAO B also depends on protein factors present on the outer membranes.

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Roy McCauley

Autophagy in mammalian cells

Adenosine‐induced apoptosis in chick embryonic sympathetic neurons: a new physiological role for adenosine.

Activation of Src protein tyrosine kinase plays an essential role in urocortin-mediated cardioprotection

Separation of two monoamine oxidases from bovine bran

The in vitro insertion of monoamine oxidase B into mitochondrial outer membranes

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