Rett Syndrome

JUMP TO SECTION

• Rotarod Performance
• Hindlimb Clasping
• Startle Response
• Fear Conditioning
• Respiration
• Optokinetic Response
• BDNF Levels in Brain
• Molecular Biomarkers in Brain
• Long-Term Potentiation

The lack of FMRP in these mice not only affects the physical structure of neurons but also significantly alters synaptic plasticity. This alteration manifests as impaired long-term potentiation in the cortex and hippocampus, alongside an increased long-term depression in both the hippocampus and cerebellum. Such changes in synaptic behavior are essential for understanding the learning and memory deficits associated with Fragile X syndrome. Male FMR1 knockout (KO) mice, particularly those bred on an FVB/n background at PsychoGenics, are extensively utilized in research studies. They offer a valuable tool for exploring the mechanisms of Fragile X syndrome and developing potential therapeutic strategies to mitigate its effects.

Female HET Mice Show Deficits in Rotarod Performance.

Mice are placed on the continuous rotating rod (Columbus Rotamex Treadmill Apparatus) and are given a 5-min training period at a slow speed (4 RPM). After a 1 h-ITI, mice are exposed to three 5 min-trials.​

• During each trial, the mice are placed back on the rotarod, and the speed is gradually and uniformly increased (0-40 RPM).​
• The time that each mouse remains on the rotating rod before falling as well as the speed of the rotarod when the mouse falls is recorded.

• The acoustic startle measures an unconditioned reflex response to external auditory stimulation.​
• Mice are placed in the startle enclosures for a 5min habituation period of white noise (70 dB).  ​
• Subsequent test sessions consist of 10 blocks of eleven trials each.  Within each block, stimuli of 70, 75, 80, 85, 90, 95, 100, 105, 110, 115, and 120dB are presented in random order with a variable inter-trial interval of mean 15 sec (10-20sec).  ​
• The duration of the stimulus is 40 ms.  Responses are recorded for 150 ms from startle onset and are sampled every ms​

Female HET mice show decreased freezing during contextual fear conditioning test at 13 weeks of age.

• On day 1, mice are placed in a conditioning chamber to habituate to the context for 2 min (CS). A tone will be presented for 20 sec followed by a foot shock (1s, 0.5 mA; US) . This pairing of the CS and US is repeated for a total of 3 times, with an interval of 60 sec between pairings. Mice will remain in the conditioning chamber for another 60s and then be returned to its home cage. ​
• On the second day, animals are tested for contextual memory in the same chamber they were trained in for a period of 5 min without shock or any other interference. Freezing is measured by FreezeView software.

Female HET mice show higher apnea counts and higher breathing rate.

• Mice are tested in a whole-body plethysmograph system for 1 hour​
• Mice are awake during testing​

• Extracellular field excitatory postsynaptic potentials (fEPSP) were evoked in hippocampal slices at the Schaffer collateral-CA1 synapse from 6-month-old female WT and MeCP2 mice. ​
• Stable baseline recordings were obtained with fEPSPs evoked using 40% of maximum stimulus intensity. LTP was induced by delivering three trains of 100 Hz high frequency stimulation, each train separated by five minutes inter-train interval.​
• Synaptic responses were normalized and expressed as percent from baseline.