April Ruffin scite author profile

April Ruffin

3Publications

69Citation Statements Received

99Citation Statements Given

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Affiliations

National Institute of Neurological Disorders and Stroke, Johns Hopkins Medicine, Johns Hopkins University

Publications

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Circular compartmentalized microfluidic platform: Study of axon–glia interactions

et al. 2010

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We describe a compartmentalized circular microfluidic platform that enables directed cell placement within defined microenvironments for the study of axon-glia interactions. The multi-compartment platform consists of independent units of radial microchannel arrays that fluidically isolate somal from axonal compartments. Fluidic access ports punched near the microchannels allow for direct pipetting of cells into the device. Adjacent somal or axonal compartments can be readily merged so that independent groups of neurons or axons can be maintained in either separate or uniform microenvironments. We demonstrate three distinct modes of directed cell placement in this device, to suit varying experimental needs for the study of axon-glia interactions: (1) centrifugation of the circular platform can result in a two-fold increase in axonal throughput in microchannels and provides a new technique to establish axon-glia interactions; (2) microstencils can be utilized to directly place glial cells within areas of interest; and (3) intimate axon-glia co-culture can be attained via standard pipetting techniques. We take advantage of this microfluidic platform to demonstrate a two-fold preferential accumulation of microglia specifically near injured CNS axons, an event implicated in the maintenance and progression of a number of chronic neuroinflammatory and neurodegenerative diseases.

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Mammary gland architecture as affected by early nutrition

et al. 2006

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Fluconazole Is Neuroprotective via Interactions with the IGF-1 Receptor

et al. 2022

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There is a continuing unmet medical need to develop neuroprotective strategies to treat neurodegenerative disorders. To address this need, we screened over 2000 compounds for potential neuroprotective activity in a model of oxidative stress and found that numerous antifungal agents were neuroprotective. Of the identified compounds, fluconazole was further characterized. Fluconazole was able to prevent neurite retraction and cell death in in vitro and in vivo models of toxicity. Fluconazole protected neurons in a concentration-dependent manner and exhibited efficacy against several toxic agents, including 3-nitropropionic acid, N-methyl D-aspartate, 6-hydroxydopamine, and the HIV proteins Tat and gp120. In vivo studies indicated that systemically administered fluconazole was neuroprotective in animals treated with 3-nitropropionic acid and prevented gp120-mediated neuronal loss. In addition to neuroprotection, fluconazole also induced proliferation of neural progenitor cells in vitro and in vivo. Fluconazole mediates these effects through upregulation and signaling via the insulin growth factor-1 receptor which results in decreased cAMP production and increased phosphorylation of Akt. Blockade of the insulin growth factor-1 receptor signaling with the selective inhibitor AG1024 abrogated the effects of fluconazole. Our studies suggest that fluconazole may be an attractive candidate for treatment of neurodegenerative diseases due to its protective properties against several categories of neuronal insults and its ability to spur neural progenitor cell proliferation.

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April Ruffin

Circular compartmentalized microfluidic platform: Study of axon–glia interactions

Mammary gland architecture as affected by early nutrition

Fluconazole Is Neuroprotective via Interactions with the IGF-1 Receptor

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