Attention-deficit/hyperactivity disorder (ADHD) is the most frequent psychiatric disorder in children, where it displays a global prevalence of 5 %. In up to 50 % of the cases, ADHD may persist into adulthood (aADHD), where it is often comorbid with personality disorders. Due to a potentially heritable nature of this comorbidity, we hypothesized that their genetic framework may contain common risk-modifying genes. SPOCK3, a poorly characterized, putatively Ca(2+)-binding extracellular heparan/chondroitin sulfate proteoglycan gene encoded by the human chromosomal region 4q32.3, was found to be associated with polymorphisms among the top ranks in a genome-wide association study (GWAS) on ADHD and a pooled GWAS on personality disorder (PD). We therefore genotyped 48 single nucleotide polymorphisms (SNPs) representative of the SPOCK3 gene region in 1,790 individuals (n aADHD = 624, n PD = 630, n controls = 536). In this analysis, we found two SNPs to be nominally associated with aADHD (rs7689440, rs897511) and four PD-associated SNPs (rs7689440, rs897511, rs17052671 and rs1485318); the latter even reached marginal significance after rigorous Bonferroni correction. Bioinformatics tools predicted a possible influence of rs1485318 on transcription factor binding, whereas the other candidate SNPs may have effects on alternative splicing. Our results suggest that SPOCK3 may modify the genetic risk for ADHD and PD; further studies are, however, needed to identify the underlying mechanisms.
† These authors contributed equally to this work.Trafficking of proteins between the cytoplasm and nucleus occurs exclusively across the nuclear pore complex of eucaryotic cells. Fundamental aspects of this process affect temporal and spatial parameters, the latter carried out by specific import [nuclear localization sequence (NLS)] and export [nuclear export sequence (NES)] sequences. In this study, we focused on the adaptation of a protein heterodimerization assay to kinetically measure Crm1-mediated nuclear export in living cells using the rapalog AP21967, a heterodimerizing agent and NLS-and NES-containing fusion proteins equipped with distinct AP21967-specific binding motifs. In HeLa cells, we observed rapid nuclear export of the NLS-containing fusion protein in the presence of AP21967, with the extent of this process being a function of the number of AP21967-binding motifs. AP21967-induced nuclear export was specifically inhibited by the Crm1-binding molecule leptomycin B. Half maximal export was achieved after ∼10 min. We further applied protein heterodimerization in HeLa cells to study induced NLS-mediated nuclear import. Only in the presence of heterodimerizer AP21967 nuclear import of a cytoplasmically localizing fusion protein was observed. Induced protein heterodimerization is thus a valuable tool to quantitatively study nucleocytoplasmic protein trafficking in cultured cells, in a non-invasive, time-saving manner.
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