Arc/Arg3.1 binds the nuclear polyadenylate-binding protein RRM and regulates neuronal activity-dependent formation of nuclear speckles

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Arc/Arg3.1 binds the nuclear polyadenylate-binding protein RRM and regulates neuronal activity-dependent formation of nuclear speckles

Authors

Kanhema, T.; Parobczak, K.; Patil, S.; Holm-Kaczmarek, D.; Hallin, E. I.; Ludwiczak, J.; Szczepankiewicz, A. A.; Pauzin, F. P.; Szum, A.; Ishizuka, Y.; dunin-horkawicz, S.; Kursula, P.; Wilczynski, G.; Magalska, A.; Bramham, C. R.

Abstract

Arc is a neuronal activity-induced protein interaction hub with critical roles in synaptic plasticity and memory. Arc localizes to synapses and the nucleus, but its nuclear functions are little known. We show that Arc accumulates in the interchromatin space of dentate granule cell nuclei and the nucleosol subcellular fraction following seizure activity and in vivo dentate gyrus LTP. Proteomic analysis of affinity-purified Arc complexes identified proteins with functions in post-transcriptional mRNA processing. During LTP, Arc undergoes enhanced complex formation with polyadenylate binding protein nuclear 1 (PABPN1) and paraspeckle splicing factor (PSF) in the nucleosol. In vitro peptide binding arrays show selective binding of Arc to the PABPN1 polyA RNA recognition motif. In hippocampal neuronal cultures, Arc knockdown increases formation of PABPN1 nuclear speckles and blocks chemical-LTP associated increases in small PABPN1 foci. These results implicate Arc in basal and neuronal activity-dependent regulation of PABPN1 speckles involved in mRNA processing and polyadenylation.

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