Christopher Burke scite author profile

The zebrafish is a useful model for understanding normal and cancer stem cells, but analysis has been limited to embryogenesis due to the opacity of the adult fish. To address this, we have created a transparent adult zebrafish in which we transplanted either hematopoietic stem/progenitor cells or tumor cells. In a hematopoiesis radiation recovery assay, transplantation of GFP-labeled marrow cells allowed for striking in vivo visual assessment of engraftment from 2 hr-5 weeks posttransplant. Using FACS analysis, both transparent and wild-type fish had equal engraftment, but this could only be visualized in the transparent recipient. In a tumor engraftment model, transplantation of RAS-melanoma cells allowed for visualization of tumor engraftment, proliferation, and distant metastases in as little as 5 days, which is not seen in wild-type recipients until 3 to 4 weeks. This transparent adult zebrafish serves as the ideal combination of both sensitivity and resolution for in vivo stem cell analyses.

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Layered reward signalling through octopamine and dopamine in Drosophila

Burke

Huetteroth

Owald

et al. 2012

Nature

507

692

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Dopamine (DA) is synonymous with reward and motivation in mammals1,2. However, only recently has dopamine been linked to motivated behavior and rewarding reinforcement in fruit flies3,4. Instead octopamine (OA) has historically been considered the signal for reward in insects5–7. Here we show using temporal control of neural function in Drosophila that only short-term appetitive memory is reinforced by OA. Moreover, OA-dependent memory formation requires signaling through DA neurons. Part of the OA signal requires the α-adrenergic like OAMB receptor in an identified subset of mushroom body (MB)-targeted DA neurons. OA triggers an increase in intracellular calcium in these DA neurons and their direct activation can substitute for sugar to form appetitive memory, even in flies lacking OA. Analysis of the β-adrenergic like Octβ2R receptor reveals that OA-dependent reinforcement also requires an interaction with DA neurons that control appetitive motivation. These data suggest that sweet taste engages a distributed OA signal that reinforces memory through discrete subsets of MB-targeted DA neurons. In addition, they reconcile prior findings with OA and DA and suggest that reinforcement systems in flies are more similar to mammals than previously envisaged.

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Mutant FUS proteins that cause amyotrophic lateral sclerosis incorporate into stress granules

et al. 2010

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Mutations in the RNA-binding protein FUS (fused in sarcoma) are linked to amyotrophic lateral sclerosis (ALS), but the mechanism by which these mutants cause motor neuron degeneration is not known. We report a novel ALS truncation mutant (R495X) that leads to a relatively severe ALS clinical phenotype compared with FUS missense mutations. Expression of R495X FUS, which abrogates a putative nuclear localization signal at the C-terminus of FUS, in HEK-293 cells and in the zebrafish spinal cord caused a striking cytoplasmic accumulation of the protein to a greater extent than that observed for recessive (H517Q) and dominant (R521G) missense mutants. Furthermore, in response to oxidative stress or heat shock conditions in cultures and in vivo, the ALS-linked FUS mutants, but not wild-type FUS, assembled into perinuclear stress granules in proportion to their cytoplasmic expression levels. These findings demonstrate a potential link between FUS mutations and cellular pathways involved in stress responses that may be relevant to altered motor neuron homeostasis in ALS.

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Sweet Taste and Nutrient Value Subdivide Rewarding Dopaminergic Neurons in Drosophila

et al. 2015

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SummaryDopaminergic neurons provide reward learning signals in mammals and insects [1–4]. Recent work in Drosophila has demonstrated that water-reinforcing dopaminergic neurons are different to those for nutritious sugars [5]. Here, we tested whether the sweet taste and nutrient properties of sugar reinforcement further subdivide the fly reward system. We found that dopaminergic neurons expressing the OAMB octopamine receptor [6] specifically convey the short-term reinforcing effects of sweet taste [4]. These dopaminergic neurons project to the β′2 and γ4 regions of the mushroom body lobes. In contrast, nutrient-dependent long-term memory requires different dopaminergic neurons that project to the γ5b regions, and it can be artificially reinforced by those projecting to the β lobe and adjacent α1 region. Surprisingly, whereas artificial implantation and expression of short-term memory occur in satiated flies, formation and expression of artificial long-term memory require flies to be hungry. These studies suggest that short-term and long-term sugar memories have different physiological constraints. They also demonstrate further functional heterogeneity within the rewarding dopaminergic neuron population.

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A Pair of Inhibitory Neurons Are Required to Sustain Labile Memory in the Drosophila Mushroom Body

et al. 2011

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Summary Labile memory is thought to be held in the brain as persistent neural network activity [1–4]. However, it is not known how biologically relevant memory circuits are organized and operate. Labile and persistent appetitive memory in Drosophila requires output after training from the α′β′ subset of mushroom body (MB) neurons and from a pair of modulatory Dorsal Paired Medial (DPM) neurons [5–9]. DPM neurons innervate the entire MB lobe region and appear to be pre- and post-synaptic to the MB [7, 8], consistent with a recurrent network model. Here we identify a role after training for synaptic output from the GABAergic Anterior Paired Lateral (APL) neurons [10, 11]. Blocking synaptic output from APL neurons after training disrupts labile memory but does not affect long-term memory. APL neurons contact DPM neurons most densely in the α′β′ lobes although their processes are intertwined and contact throughout all the lobes. Furthermore, APL contacts MB neurons in the α′ lobe but makes little direct contact with those in the distal α lobe. We propose that APL neurons provide widespread inhibition to stabilize and maintain synaptic specificity of a labile memory trace in a recurrent DPM and MB α′β′ neuron circuit.

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USP30 sets a trigger threshold for PINK1–PARKIN amplification of mitochondrial ubiquitylation

et al. 2020

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The mitochondrial deubiquitylase USP30 negatively regulates the selective autophagy of damaged mitochondria. We present the characterisation of an N-cyano pyrrolidine compound, FT3967385, with high selectivity for USP30. We demonstrate that ubiquitylation of TOM20, a component of the outer mitochondrial membrane import machinery, represents a robust biomarker for both USP30 loss and inhibition. A proteomics analysis, on a SHSY5Y neuroblastoma cell line model, directly compares the effects of genetic loss of USP30 with chemical inhibition. We have thereby identified a subset of ubiquitylation events consequent to mitochondrial depolarisation that are USP30 sensitive. Within responsive elements of the ubiquitylome, several components of the outer mitochondrial membrane transport (TOM) complex are prominent. Thus, our data support a model whereby USP30 can regulate the availability of ubiquitin at the specific site of mitochondrial PINK1 accumulation following membrane depolarisation. USP30 deubiquitylation of TOM complex components dampens the trigger for the Parkin-dependent amplification of mitochondrial ubiquitylation leading to mitophagy. Accordingly, PINK1 generation of phospho-Ser65 ubiquitin proceeds more rapidly in cells either lacking USP30 or subject to USP30 inhibition.

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Shocking Revelations and Saccharin Sweetness in the Study of Drosophila Olfactory Memory

et al. 2013

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It is now almost forty years since the first description of learning in the fruit fly Drosophila melanogaster. Various incarnations of the classic mutagenesis approach envisaged in the early days have provided around one hundred learning defective mutant fly strains. Recent technological advances permit temporal control of neural function in the behaving fly. These approaches have radically changed experiments in the field and have provided a neural circuit perspective of memory formation, consolidation and retrieval. Combining neural perturbations with more classical mutant intervention allows investigators to interrogate the molecular and cellular processes of memory within the defined neural circuits. Here, we summarize some of the progress made in the last ten years that indicates a remarkable conservation of the neural mechanisms of memory formation between flies and mammals. We emphasize that considering an ethologically-relevant viewpoint might provide additional experimental power in studies of Drosophila memory.

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Early Mobilization in the Pediatric Intensive Care Unit: A Systematic Review

Wieczorek

Burke

Alharbi

et al. 2015

J Pediatr Intensive Care

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Children admitted to the pediatric intensive care unit (PICU) can experience significant morbidity as a consequence of mechanical ventilation and sedative medications. This morbidity could potentially be decreased with the implementation of activities to promote early mobilization during critical illness. The objective of this systematic review is to summarize the current evidence regarding rehabilitation therapies in the PICU and to highlight the knowledge gaps and avenues for future research on early mobilization in the PICU. Using a combination of controlled vocabulary and key word terms PubMed, CINAHL, and EMBASE databases were searched; no limiters were imposed on search strategies. Two reviewers abstracted data and assessed quality independently. From the 1928 articles identified in the search 168 abstracts were identified for full text review. Fifty-nine articles were chosen for data extraction and five were identified for inclusion in review. A sixth article was identified through expert clinician query. The studies were categorized into three groups based on the outcomes discussed: safety and feasibility, functional outcomes, and length of stay. A synthesis of the studies indicates that early rehabilitation in the PICU is safe and feasible with potential short and long-term benefits. Institutional, provider and patient-related barriers to initiation of early rehabilitation in the PICU are identified. Recommendations for future investigation include early rehabilitation protocols for children hospitalized in the PICU and identification of outcome measures.

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