Nik Sawe scite author profile

Extracellular signal-regulated kinase 1/2 (ERK1/2), one of the best-characterized members of the mitogen-activated protein kinase (MAPK) family, mediates a range of activity from metabolism, motility, and inflammation to cell death and survival. It is phosphorylated and activated through a three-tiered MEK mode via cell surface receptors stimulated by growth factors or cytokines. The phosphorylated ERK1/2 level is usually increased after cerebral ischemia/reperfusion, but whether an increase in ERK1/2 phosphorylation is protective or detrimental is highly debatable. Much of the support for ERK1/2's role as a neuroprotectant against stroke stems from its apparent involvement in the beneficial effects of growth factors, estrogen, preconditioning, and hypothermia on the ischemic brain. Conversely, evidence supporting the detrimental effects of ERK1/2 activity is derived from its activation promoting inflammation and oxidative stress and its inhibition reducing ischemic damage. The dual potential of ERK1/2 actions in the ischemic brain is likely related to its responses to a diverse array of agonists and cell surface receptors. Plausibly, the ERK1/2 activity generated by cytokines and free radicals or other inflammatory factors after stroke may worsen ischemic damage, whereas the ERK1/2 activity produced by exogenous growth factors, estrogen, and preconditioning favors neuroprotection. Future experiments should be conducted to optimize the protective effect of ERK1/2 while blocking its detrimental actions.

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Using Data Sonification to Overcome Science Literacy, Numeracy, and Visualization Barriers in Science Communication

Sawe

Chafe

Treviño

2020

Front. Commun.

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Sharing the complex narratives within scientific data in an intuitive fashion has proven difficult, especially for communicators endeavoring to reach a wide audience comprised of individuals with differing levels of scientific knowledge and mathematical ability. We discuss the application of data sonification-the process of translating data into sound, sometimes in a musical context-as a method of overcoming barriers to science communication. Data sonification can convey large datasets with many dimensions in an efficient and engaging way that reduces scientific literacy and numeracy barriers to understanding the underlying scientific data. This method is particularly beneficial for its ability to portray scientific data to those with visual impairments, who are often unable to engage with traditional data visualizations. We explore the applications of data sonification for science communicators and researchers alike, as well as considerations for making sonified data accessible and engaging to broad audiences with diverse levels of expertise.

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Neural valuation of environmental resources

Sawe

Knutson

2015

NeuroImage

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How do people value environmental resources? To estimate public valuation of natural resources, researchers often conduct surveys that ask people how much they would be willing to pay to preserve or restore threatened natural resources. However, these survey responses often elicit complex affective responses, including negative reactions toward proposed destructive land uses of those resources. To better characterize processes that underlie the valuation of environmental resources, we conducted behavioral and neuroimaging experiments in which subjects chose whether or not to donate money to protect natural park lands (iconic versus non-iconic) from proposed land uses (destructive versus non-destructive). In both studies, land use destructiveness motivated subjects' donations more powerfully than did the iconic qualities of the parks themselves. Consistent with an anticipatory affect account, nucleus accumbens (NAcc) activity increased in response to more iconic parks, while anterior insula activity increased in response to more destructive uses, and the interaction of these considerations altered activity in the medial prefrontal cortex (MPFC). Further, anterior insula activity predicted increased donations to preserve parks threatened by destructive uses, but MPFC activity predicted reduced donations. Finally, individuals with stronger pro-environmental attitudes showed greater anterior insula activity in response to proposed destructive uses. These results imply that negative responses to destructive land uses may play a prominent role in environmental valuation, potentially overshadowing positive responses to the environmental resources themselves. The findings also suggest that neuroimaging methods might eventually complement traditional survey methods by allowing researchers to disentangle distinct affective responses that influence environmental valuation.

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Using neuroeconomics to understand environmental valuation

Sawe

2017

Ecological Economics

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Environmental neuroeconomics: how neuroscience can inform our understanding of human responses to climate change

Sawe

Chawla

2021

Current Opinion in Behavioral Sciences

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Nik Sawe

Dual roles of the MAPK/ERK1/2 cell signaling pathway after stroke

Using Data Sonification to Overcome Science Literacy, Numeracy, and Visualization Barriers in Science Communication

Neural valuation of environmental resources

Using neuroeconomics to understand environmental valuation

Environmental neuroeconomics: how neuroscience can inform our understanding of human responses to climate change

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