CGG repeats in RNA modulate expression of TDP-43 in mouse and fly models of fragile X tremor ataxia syndrome.

Determining the molecular mechanism(s) leading to Purkinje neuron loss in the neurodegenerative disorder fragile X-associated tremor/ataxia syndrome (FXTAS) is limited by the complex morphology of this cell type. Purkinje neurons are notoriously difficult to isolate and maintain in culture presenting considerable difficultly to identify molecular changes in response to expanded CGG repeat (rCGG)-containing mRNA that induces neurotoxicity in FXTAS. Several studies have uncovered a number of RNA-binding proteins involved in translation that aberrantly interact with the CGG-containing RNA; however, whether these interactions alter the translational profile of cells has not been investigated.

Inhibition of the mammalian target of rapamycin blocks epilepsy progression in NS-Pten conditional knockout mice.

Purpose: Increased activity of mTOR Complex 1 (mTORC1) has been demonstrated in cortical dysplasia and tuberous sclerosis complex, as well as in animal models of epilepsy. Recent studies in such models revealed that inhibiting mTORC1 with rapamycin effectively suppressed seizure activity. However, seizures can recur after treatment cessation, and continuous rapamycin exposure can adversely affect animal growth and health.

Electrical enhancement of formulated plasmid delivery in animals.

Electroporation has been shown to significantly increase plasmid transfer to the skeletal muscle, but this procedure is also implicated in muscle damage. We are reporting a highly efficient in vivo transfer of a plasmid formulated with poly-(L-glutamate) (PLG) into murine, canine and porcine muscle fibers using electric pulses of low field intensity. In mice and pigs, the use of secreted embryonic alkaline phosphatase (SEAP) as the indicator gene caused increased PLG expression by 2-3 fold compared to naked plasmid; while delivery of a PLG-plasmid formulation to dogs showed a 10-fold increase in serum SEAP levels compared to plasmid alone.

Nonhereditary enhancement of progeny growth.

The im electroporated injection of a protease-resistant GH-releasing hormone cDNA into rat dams at 16 d gestation resulted in enhanced long-term growth of the F(1) offspring. The offspring were significantly heavier by 2 wk of age, and the difference was sustained to 10 wk of age. Consistent with their augmented growth, the plasma IGF-I concentration of the F(1) progeny was increased significantly.