At the cellular level, the best-established morphological correlate of synaptic plasticity is the turnover of dendritic spines.
Abnormal spine turnover is associated with a variety of Neuopsychatric and Neurodegenerative disorders, ranging from decreased synaptic plasticity in depression models to gradual loss of synapses in Alzheimer’s models.
Dendritic spines are minute cellular organelles (approx. 1-2 micrometers in size) that comprise the post-synaptic part of the cortical synapses (primarily glutamatergic).
Measurement of spine turnover can be done using single-photon microscopy (e.g., confocal) in cultured cells or in ogranotypic brain slices; however, the relevance of data obtained in these in vitro preparations is low compared to the intact brain in vivo.
Two-photon microscopy is the only technique that allows imaging dendritic spines and quantifying their dynamics (turnover) in a living mouse’ brain. We use viral expression of fluorescent proteins, as well as “reporter” mice, for in vivo microscopic analysis of spine turnover.
Accumulating recent evidence shows that general anesthetics (including the commonly used Ketamine) have strong and lasting effects on spine turnover. This is why all spine imaging studies are performed at Neurotar in non-anesthetized, awake and behaving mice. This type of studies is enabled by our proprietary device called Mobile HomeCage (which was initially developed to facilitate our contract research studies in vigilo, i.e. in awake mice).
- 2-5 groups, e.g., 1 placebo, 1-2 test compounds and optionally 1 positive control and/or 1 negative control
- 3-5 imaging sessions: baseline -24 h, 0 h, optionally 6 h, 24 h, optionally 72 h, optionally 144 h
- 1-3 imaging areas per animal
- turnover of at least 150 individual dendritic spines per animal is quantified
- report delivered 3-5 months after the study commencement
Options and extensions
- Different drug administration routs: per oral (gavage), injections i.p., s.c., i.v. or i.t. (intrathecal)
- Can be combined with PK measurements for biologics targeting/affecting synapses
Pan F, Aldridge GM, Greenough WT, Gan WB (2010) Dendritic spine instability and insensitivity to modulation by sensory experience in a mouse model of fragile X syndrome. PNAS 107:17768-17773. 10.1073/pnas.1012496107
Liston C, Gan WB (2011) Glucocorticoids are critical regulators of dendritic spine development and plasticity in vivo. PNAS 108:16074-16079. 10.1073/pnas.1110444108
Sudarov A, Gooden F, Tseng D, Gan WB, Ross ME (2013) Lis1 controls dynamics of neuronal filopodia and spines to impact synaptogenesis and social behavior. EMBO Mol Med 5:591-607. 10.1002/emmm.201202106
Phoumthipphavong V, Barthas F, Hassett S, Kwan AC (2016) Longitudinal Effects of Ketamine on Dendritic Architecture In Vivo in the Mouse Medial Frontal Cortex. ENeuro Apr 4;3(2). 10.1523/ENEURO.0133-15.2016