Mechanical actions of dendritic-spine enlargement on presynaptic exocytosis.
Hasan UcarSatoshi WatanabeJun NoguchiYuichi MorimotoYusuke IinoSho YagishitaNoriko TakahashiHaruo KasaiPublished in: Nature (2021)
Synaptic transmission involves cell-to-cell communication at the synaptic junction between two neurons, and chemical and electrical forms of this process have been extensively studied. In the brain, excitatory glutamatergic synapses are often made on dendritic spines that enlarge during learning1-5. As dendritic spines and the presynaptic terminals are tightly connected with the synaptic cleft6, the enlargement may have mechanical effects on presynaptic functions7. Here we show that fine and transient pushing of the presynaptic boutons with a glass pipette markedly promotes both the evoked release of glutamate and the assembly of SNARE (soluble N-ethylmaleimide-sensitive factor attachment protein receptor) proteins8-12-as measured by Förster resonance transfer (FRET) and fluorescence lifetime imaging-in rat slice culture preparations13. Both of these effects persisted for more than 20 minutes. The increased presynaptic FRET was independent of cytosolic calcium (Ca2+), but dependent on the assembly of SNARE proteins and actin polymerization in the boutons. Notably, a low hypertonic solution of sucrose (20 mM) had facilitatory effects on both the FRET and the evoked release without inducing spontaneous release, in striking contrast with a high hypertonic sucrose solution (300 mM), which induced exocytosis by itself14. Finally, spine enlargement induced by two-photon glutamate uncaging enhanced the evoked release and the FRET only when the spines pushed the boutons by their elongation. Thus, we have identified a mechanosensory and transduction mechanism15 in the presynaptic boutons, in which the evoked release of glutamate is enhanced for more than 20 min.
Keyphrases
- energy transfer
- single molecule
- living cells
- quantum dots
- fluorescent probe
- single cell
- cell therapy
- high resolution
- stem cells
- magnetic resonance
- white matter
- small molecule
- cerebral ischemia
- binding protein
- spinal cord injury
- high glucose
- blood brain barrier
- drug induced
- protein protein
- resting state
- amino acid
- solid phase extraction
- cell migration
- stress induced