Abstract
Renpenning syndrome belongs to a group of X-linked intellectual disability disorders. The Renpenning syndrome-associated protein PQBP1 (polyglutamine-binding protein 1) is intrinsically disordered, associates with several splicing factors, and is involved in pre-mRNA splicing. PQBP1 uses its C-terminal YxxPxxVL motif for binding to the splicing factor TXNL4A (thioredoxin like 4A), but the biological function of this interaction has yet to be elucidated. In this study, using recombinant protein expression, in vitro binding assays, and immunofluorescence microscopy in HeLa cells, we found that a recently reported X-linked intellectual disability-associated missense mutation, resulting in the PQBP1-P244L variant, disrupts the interaction with TXNL4A. We further show that this interaction is critical for the subcellular location of TXNL4A. In combination with other PQBP1 variants lacking a functional nuclear localization signal required for recognition by the nuclear import receptor karyopherin β2, we demonstrate that PQBP1 facilitates the nuclear import of TXNL4A via a piggyback mechanism. These findings expand our understanding of the molecular basis of the PQBP1-TXNL4A interaction and of the etiology and pathogenesis of Renpenning syndrome and related disorders.
Highlights
Renpenning syndrome belongs to a group of X-linked intellectual disability disorders
In combination with other PQBP1 variants lacking a functional nuclear localization signal required for recognition by the nuclear import receptor karyopherin 2, we demonstrate that PQBP1 facilitates the nuclear import of TXNL4A via a piggyback mechanism
Rich domain (PRD)2 interacting with polyglutamine tracts [11, 12]; a proline–tyrosine nuclear localization signal (PY-NLS) recognized by nuclear import receptor karyopherin 2 (Kap2) [13]; and an unstructured C-terminal domain (CTD) interacting with splicing factor TXNL4A (14 –18)
Summary
The structure of the binary complex of TXNL4A and PQBP1 shows that the hydrophobic groove of TXNL4A formed by Val, Ile, Phe, Met, Tyr, Met, and Phe recognizes the 245YxxPxxVL motif of PQBP1 [17]. PQBP1 frameshift mutants that lack the C-terminal domain cannot interact with TXNL4A, which is believed to affect the function of PQBP1 in splicing [17]. Redin et al [27] identified a new missense mutation of PQBP1 (c.731CϾT, P244L) in a targeted high-throughput sequencing test in intellectual disability or autism patients. This mutation is right before the 245YxxPxxVL252 motif of PQBP1 for TXNL4A binding. In combination with other PQBP1 NLS mutants, we clearly showed that PQBP1 facilitates the nuclear import of TXNL4A in a piggyback mechanism
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