Litcius/Paper detail

Light microscopy based approach for mapping connectivity with molecular specificity

Fred Shen, Margaret Harrington, Logan A. Walker, Hon Pong Jimmy Cheng, Edward S. Boyden, Dawen Cai

2020Nature Communications60 citationsDOIOpen Access PDF

Abstract

Mapping neuroanatomy is a foundational goal towards understanding brain function. Electron microscopy (EM) has been the gold standard for connectivity analysis because nanoscale resolution is necessary to unambiguously resolve synapses. However, molecular information that specifies cell types is often lost in EM reconstructions. To address this, we devise a light microscopy approach for connectivity analysis of defined cell types called spectral connectomics. We combine multicolor labeling (Brainbow) of neurons with multi-round immunostaining Expansion Microscopy (miriEx) to simultaneously interrogate morphology, molecular markers, and connectivity in the same brain section. We apply this strategy to directly link inhibitory neuron cell types with their morphologies. Furthermore, we show that correlative Brainbow and endogenous synaptic machinery immunostaining can define putative synaptic connections between neurons, as well as map putative inhibitory and excitatory inputs. We envision that spectral connectomics can be applied routinely in neurobiology labs to gain insights into normal and pathophysiological neuroanatomy.

Topics & Concepts

ConnectomicsNeuroanatomyNeuroscienceConnectomeImmunostainingCellular neuroscienceInhibitory postsynaptic potentialComputer scienceCell typeBiologyFunctional connectivityCellImmunohistochemistryImmunologyGeneticsAdvanced Fluorescence Microscopy TechniquesAdvanced Electron Microscopy Techniques and ApplicationsCell Image Analysis Techniques
Light microscopy based approach for mapping connectivity with molecular specificity | Litcius