Literature DB >> 27941898

Targeted intracellular voltage recordings from dendritic spines using quantum-dot-coated nanopipettes.

Krishna Jayant1,2,3,4, Jan J Hirtz2,3,4, Ilan Jen-La Plante5, David M Tsai1,2,3,4, Wieteke D A M De Boer2,3,4,5, Alexa Semonche2, Darcy S Peterka2,3,4, Jonathan S Owen5, Ozgur Sahin2,3, Kenneth L Shepard1,3,4,6, Rafael Yuste2,3,4.   

Abstract

Dendritic spines are the primary site of excitatory synaptic input onto neurons, and are biochemically isolated from the parent dendritic shaft by their thin neck. However, due to the lack of direct electrical recordings from spines, the influence that the neck resistance has on synaptic transmission, and the extent to which spines compartmentalize voltage, specifically excitatory postsynaptic potentials, albeit critical, remains controversial. Here, we use quantum-dot-coated nanopipette electrodes (tip diameters ∼15-30 nm) to establish the first intracellular recordings from targeted spine heads under two-photon visualization. Using simultaneous somato-spine electrical recordings, we find that back propagating action potentials fully invade spines, that excitatory postsynaptic potentials are large in the spine head (mean 26 mV) but are strongly attenuated at the soma (0.5-1 mV) and that the estimated neck resistance (mean 420 MΩ) is large enough to generate significant voltage compartmentalization. Nanopipettes can thus be used to electrically probe biological nanostructures.

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Year:  2016        PMID: 27941898      PMCID: PMC5901699          DOI: 10.1038/nnano.2016.268

Source DB:  PubMed          Journal:  Nat Nanotechnol        ISSN: 1748-3387            Impact factor:   39.213


  57 in total

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Review 7.  An atlas of nano-enabled neural interfaces.

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