Vivian Hsieh scite author profile

Vivian Hsieh

2Publications

47Citation Statements Received

213Citation Statements Given

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129

212

Affiliations

Massachusetts Institute of Technology

Publications

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Neurotransmitter-Responsive Nanosensors for T₂-Weighted Magnetic Resonance Imaging

Hsieh

Okada

et al. 2019

J. Am. Chem. Soc.

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Neurotransmitter-sensitive contrast agents for magnetic resonance imaging (MRI) have recently been used for mapping signaling dynamics in live animal brains, but paramagnetic sensors for T1-weighted MRI are usually effective only at micromolar concentrations that themselves perturb neurochemistry. Here we present an alternative molecular architecture for detecting neurotransmitters, using superparamagnetic iron oxide nanoparticles conjugated to tethered neurotransmitter analogs and engineered neurotransmitter binding proteins. Interactions between the nanoparticle conjugates result in clustering that is reversibly disrupted in the presence of neurotransmitter analytes, thus altering T2weighted MRI signals. We demonstrate this principle using tethered dopamine and serotonin analogs, together with proteins selected for their ability to competitively bind either the analogs or the neurotransmitters themselves. Corresponding sensors for dopamine and serotonin exhibit target-selective relaxivity changes of up to 20%, while also operating below endogenous neurotransmitter concentrations. Semisynthetic magnetic particle sensors thus represent a promising path for minimally perturbative studies of neurochemical analytes. ASSOCIATED CONTENT Supporting Information. Additional data, detailed methods, and characterization of synthetic compounds. This material is available free of charge at http://pubs.acs.org.

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Bioengineered Probes for Molecular Magnetic Resonance Imaging in the Nervous System

Hsieh

Jasanoff

2012

ACS Chem. Neurosci.

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The development of molecular imaging probes has changed the nature of neurobiological research. Some of the most notable successes have involved the use of biological engineering techniques for the creation of fluorescent protein derivatives for optical imaging, but recent work has also led to a number of bioengineered probes for magnetic resonance imaging (MRI), the preeminent technique for noninvasive investigation of brain structure and function. Molecular MRI agents are beginning to be applied for experiments in the nervous system, where they have the potential to bridge from molecular to systems or organismic levels of analysis. Compared with canonical synthetic small molecule agents, biomolecular or semibiosynthetic MRI contrast agents offer special advantages due to their amenability to molecular engineering approaches, their properties in some cases as catalysts, and their specificity in targeting and ligand binding. Here, we discuss an expanding list of instances where biological engineering techniques have aided in the design of MRI contrast agents and reporter systems, examining both advantages and limitations of these types of probes for studies in the central nervous system.

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Vivian Hsieh

Neurotransmitter-Responsive Nanosensors for T₂-Weighted Magnetic Resonance Imaging

Bioengineered Probes for Molecular Magnetic Resonance Imaging in the Nervous System

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Vivian Hsieh

Neurotransmitter-Responsive Nanosensors for T2-Weighted Magnetic Resonance Imaging

Bioengineered Probes for Molecular Magnetic Resonance Imaging in the Nervous System

Contact Info

Product

Resources

About

Neurotransmitter-Responsive Nanosensors for T₂-Weighted Magnetic Resonance Imaging