Digging Deeper: Advancements in Visualization of Inhibitory Synapses in Neurodegenerative Disorders

Abstract: Recent research has provided strong evidence that neurodegeneration may develop from an imbalance between synaptic structural components in the brain. Lately, inhibitory synapses communicating via the neurotransmitters GABA or glycine have come to the center of attention. Increasing evidence suggests that imbalance in the structural composition of inhibitory synapses affect deeply the ability of neurons to communicate effectively over synaptic connections. Progressive failure of synaptic plasticity and memory … Show more

“…While AT uses physical dissection to improve image resolution, another approach is to exploit super resolution microscopy techniques ( Eisenstein, 2015 ; Lambert and Waters, 2017 ; Raduloviæ et al, 2021 ; Fuhrmann et al, 2022 ) such as stochastic optical reconstruction microscopy (STORM, Rust et al, 2006 ), stimulated emission depletion (STED, Hell and Wichmann, 1994 ), photoactivated localization microscopy [PALM, ( Betzig et al, 2006 )], and structured illumination microscopy (SIM, Gustafsson, 2000 ). Briefly, these super-resolution imaging techniques achieve low nanometer resolutions by utilizing different ways to localize fluorophores more accurately in a sample, for instance by switching the fluorescent state of single molecules one at a time and determining their precise localization or by using two different lasers in a donut formation to selectively switch some fluorophores on while depleting others around them.…”

Bringing synapses into focus: Recent advances in synaptic imaging and mass-spectrometry for studying synaptopathy

“…While AT uses physical dissection to improve image resolution, another approach is to exploit super resolution microscopy techniques ( Eisenstein, 2015 ; Lambert and Waters, 2017 ; Raduloviæ et al, 2021 ; Fuhrmann et al, 2022 ) such as stochastic optical reconstruction microscopy (STORM, Rust et al, 2006 ), stimulated emission depletion (STED, Hell and Wichmann, 1994 ), photoactivated localization microscopy [PALM, ( Betzig et al, 2006 )], and structured illumination microscopy (SIM, Gustafsson, 2000 ). Briefly, these super-resolution imaging techniques achieve low nanometer resolutions by utilizing different ways to localize fluorophores more accurately in a sample, for instance by switching the fluorescent state of single molecules one at a time and determining their precise localization or by using two different lasers in a donut formation to selectively switch some fluorophores on while depleting others around them.…”

Bringing synapses into focus: Recent advances in synaptic imaging and mass-spectrometry for studying synaptopathy