Proteins of the Drosophila behavior/human splicing (DBHS) family include mammalian SFPQ (PSF), NONO (p54nrb), PSPC1, and invertebrate NONA and Hrp65. DBHS proteins are predominately nuclear, and are involved in transcriptional and posttranscriptional gene regulatory functions as well as DNA repair. DBHS proteins influence a wide gamut of biological processes, including the regulation of circadian rhythm, carcinogenesis, and progression of cancer. Additionally, mammalian DBHS proteins associate with the architectural long noncoding RNA NEAT1 (Menε/β) to form paraspeckles, subnuclear bodies that alter gene expression via the nuclear retention of RNA. Here we describe the crystal structure of the heterodimer of the multidomain conserved region of the DBHS proteins, PSPC1 and NONO. These proteins form an extensively intertwined dimer, consistent with the observation that the different DBHS proteins are typically copurified from mammalian cells, and suggesting that they act as obligate heterodimers. The PSPC1/NONO heterodimer has a right-handed antiparallel coiled-coil that positions two of four RNA recognition motif domains in an unprecedented arrangement on either side of a 20-Å channel. This configuration is supported by a protein:protein interaction involving the NONA/paraspeckle domain, which is characteristic of the DBHS family. By examining various mutants and truncations in cell culture, we find that DBHS proteins require an additional antiparallel coiled-coil emanating from either end of the dimer for paraspeckle subnuclear body formation. These results suggest that paraspeckles may potentially form through self-association of DBHS dimers into higher-order structures.gene regulation | nuclear organization | protein structure | RNA-binding proteins T he Drosophila behavior/human splicing (DBHS) proteins have been described as multifunctional nuclear proteins, implicated in subnuclear body formation; transcription initiation; coactivation and corepression; constitutive and alternative splicing; transcriptional termination; and DNA repair (1) and contributing to circadian rhythm regulation (2, 3), tumor suppression (4), and Drosophila behavior (5). Mammalian genomes encode three paralogous DBHS proteins: NONO, SFPQ, and PSPC1, whereas invertebrates encode one or two. NONO and SFPQ are highly abundant, expressed in a variety of cell lines and tissues (1). In contrast, PSPC1 is more selectively expressed, found at low levels in HeLa cells, but expressed at equal levels with NONO and SFPQ in sertoli cells of the testis, acting as a coactivator of transcription (6).Mammalian DBHS proteins are essential for the formation of subnuclear paraspeckles (7), where they interact with a longnoncoding RNA, NEAT1 (8-10), and influence its spatial arrangement (11). Paraspeckle formation is also dependent upon transcription of NEAT1, which acts as a structural scaffold, nucleating the bodies at least in part by recruiting DBHS proteins (12, 13). DBHS proteins functioning within paraspeckles bind to adenosine-to-inosine edited i...
