Abstract
Coordinated mRNA translation at the synapse is increasingly recognized as a critical mechanism for neuronal regulation. Pumilio, a translational regulator, is known to be involved in neuronal homeostasis and memory formation in Drosophila. Most recently, the mammalian Pumilio homolog Pumilio-2 (Pum2) has been found to play a role in the mammalian nervous system, in particular in regulating morphology, arborization and excitability of neuronal dendrites, in vitro. However, the role of Pum2 in vivo remains unclear. Here, we report our investigation of the functional and molecular consequences of Pum2 disruption in vivo using an array of neurophysiology, behavioral and gene expression profiling techniques. We used Pum2-deficient mice to monitor in vivo brain activity using EEG and to study behavior traits, including memory, locomotor activity and nesting capacities. Because of the suspected role of Pum2 in neuronal excitability, we also examined the susceptibility to seizure induction. Finally, we used a quantitative gene expression profiling assay to identify key molecular partners of Pum2. We found that Pum2-deficient mice have abnormal behavioral strategies in spatial and object memory test. Additionally, Pum2 deficiency is associated with increased locomotor activity and decreased body weight. We also observed environmentally-induced impairment in nesting behavior. Most importantly, Pum2-deficient mice showed spontaneous EEG abnormalities and had lower seizure thresholds using a convulsing dosage of pentylenetetrazole. Finally, some genes, including neuronal ion channels, were differentially expressed in the hippocampus of Pum2-deficient mice. These findings demonstrate that Pum2 serves key functions in the adult mammalian central nervous system encompassing neuronal excitability and behavioral response to environmental challenges.
Highlights
The mammalian Pumilio-2 (Pum2) gene is a member of the Pumilio gene family that encodes RNA-binding proteins that act as translational regulators
The transgenic Pum2XE772 line carries a gene trap mutation inserted between exon 10–11 that results in a truncated Pum2 protein lacking the Pum-HD [11]
In the hippocampus of some mice, Pum2 is expressed at higher levels, not exclusively, in the subgranular zone (SGZ) of the dentate gyrus (Fig. 1D, arrow)
Summary
The mammalian Pumilio-2 (Pum2) gene is a member of the Pumilio gene family that encodes RNA-binding proteins that act as translational regulators. In Drosophila, studies focused on the pumilio allele bemused (bem) demonstrated that pumilio is required to maintain neuronal excitability [4] and synaptic development at the neuromuscular junction where it might regulate the translation initiation factor eIF-4E [5] or other potential targets such as the voltage-gated sodium channel para [6]. Results suggested that Pumilio may repress para translation directly. Even though the repression of para required the cofactors Nanos and Brat, Pumilio was both necessary and sufficient to produce a decrease in sodium current, resulting in decreased membrane excitability. Muraro and colleagues demonstrated that Pumilio affects the fast potassium current, presumably by regulating the voltage-gated potassium channel Shal gene [6]
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