AI Article Synopsis
- The study introduces a novel "mirror" technique that uses immunohistochemistry correlated with electron microscopy to map synaptic inputs on dendrites of identified interneurons, preserving tissue structure.
- This approach enables detailed quantitative analysis of synaptic parameters across entire dendrites, enhancing our understanding of synaptic integration.
- Sample data illustrates the method's effectiveness in assessing synaptic coverage, distribution of different types of synapses, and specific morphometric characteristics related to presynaptic structures.
Article Abstract
In the nervous system synaptic input arrives chiefly on dendrites and their type and distribution have been assumed pivotal in signal integration. We have developed an immunohistochemistry (IH)-correlated electron microscopy (EM) method - the "mirror" technique - by which synaptic input to entire dendrites of neurochemically identified interneurons (INs) can be mapped due preserving high-fidelity tissue ultrastructure. Hence, this approach allows quantitative assessment of morphometric parameters of synaptic inputs along the whole length of dendrites originating from the parent soma. The method exploits the fact that adjoining sections have truncated or cut cell bodies which appear on the common surfaces in a mirror fashion. In one of the sections the histochemical marker of the GABAergic subtype, calbindin was revealed in cell bodies whereas in the other section the remaining part of the very same cell bodies were subjected to serial section EM to trace and reconstruct the synaptology of entire dendrites. Here, we provide exemplary data on the synaptic coverage of two dendrites belonging to the same calbindin-D immunopositive IN and determine the spatial distribution of asymmetric and symmetric synapses, surface area and volume of the presynaptic boutons, morphometric parameters of synaptic vesicles, and area extent of the active zones.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC8093522 | PMC |
| http://dx.doi.org/10.3389/fnana.2021.652422 | DOI Listing |
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