Recycling of ESCRTs by the AAA-ATPase Vps4 is regulated by a conserved VSL region in Vta1.

In eukaryotes, the multivesicular body (MVB) sorting pathway plays an essential role in regulating cell surface protein composition, thereby impacting numerous cellular functions. Vps4, an ATPase associated with a variety of cellular activities, is required late in the MVB sorting reaction to dissociate the endosomal sorting complex required for transport (ESCRT), a requisite for proper function of this pathway. However, regulation of Vps4 function is not understood. We characterize Vta1 as a positive regulator of Vps4 both in vivo and in vitro. Vta1 promotes proper assembly of Vps4 and stimulates its ATPase activity through the conserved Vta1/SBP1/LIP5 region present in Vta1 homologues across evolution, including human SBP1 and Arabidopsis thaliana LIP5. These results suggest an evolutionarily conserved mechanism through which the disassembly of the ESCRT proteins, and thereby MVB sorting, is regulated by the Vta1/SBP1/LIP5 proteins.

Perceptions of colorectal cancer screening in the Arab American community: a pilot study.

OBJECTIVE: Multiple factors such as socioeconomic status (SES), education, race, and ethnicity can affect colorectal cancer screening (CRCS) rates. However, few studies have addressed CRCS disparities among Arab Americans. Our aim was to understand how Arab Americans view CRCS. METHOD: Employing thematic analysis, we collected and analyzed the dialogue of Arab American focus groups and interviews to better understand participants' perceptions of CRCS. Themes were generated and categorized into barriers and facilitators. RESULTS: Eleven Arab American males participated in two focus groups and two interviews. Three barriers included disbelief in modern medicine, concerns about the procedure, and lack of communication with the physician. Three facilitators were also identified: compliance and priority of health, access to healthcare, and awareness. CONCLUSION: Disparities in CRCS cannot solely be explained by SES and access but cultural differences also contribute. Specific interventions accounting for these cultural differences are needed to reduce disparities in CRCS among Arab Americans.

Distinct functional domains within nucleoporins Nup153 and Nup98 mediate transcription-dependent mobility.

Despite the apparent overall structural stability of the nuclear pore complex during interphase, at least two nucleoporins have been shown to move dynamically on and off the pore. It is not yet certain what contribution nucleoporin mobility makes to the process of nuclear transport or how such mobility is regulated. Previously, we showed that Nup98 dynamically interacts with the NPC as well as bodies within the nucleus in a transcription-dependent manner. We have extended our studies of dynamics to include Nup153, another mobile nucleoporin implicated in RNA export. In both cases, we found that although only one domain is essential for NPC localization, other regions of the protein significantly affect the stability of association with the pore. Interestingly, like Nup98, the exchange of Nup153 on and off the pore is inhibited when transcription by Pol I and Pol II is blocked. We have mapped the regions required to link Nup98 and Nup153 mobility to transcription and found that the requirements differ depending on which polymerases are inhibited. Our data support a model whereby transcription of RNA is coupled to nucleoporin mobility, perhaps ultimately linking transport of RNAs to a cycle of remodeling at the nuclear pore basket.

Ist1 regulates Vps4 localization and assembly.

The ESCRT protein complexes are recruited from the cytoplasm and assemble on the endosomal membrane into a protein network that functions in sorting of ubiquitinated transmembrane proteins into the multivesicular body (MVB) pathway. This transport pathway packages cargo proteins into vesicles that bud from the MVB limiting membrane into the lumen of the compartment and delivers these vesicles to the lysosome/vacuole for degradation. The dissociation of ESCRT machinery by the AAA-type ATPase Vps4 is a necessary late step in the formation of MVB vesicles. This ATP-consuming step is regulated by several Vps4-interacting proteins, including the newly identified regulator Ist1. Our data suggest that Ist1 has a dual role in the regulation of Vps4 activity: it localizes to the ESCRT machinery via Did2 where it positively regulates recruitment of Vps4 and it negatively regulates Vps4 by forming an Ist1-Vps4 heterodimer, in which Vps4 cannot bind to the ESCRT machinery. The activity of the MVB pathway might be in part determined by outcome of these two competing activities.

Sequence preference in RNA recognition by the nucleoporin Nup153.

The vertebrate nuclear pore protein Nup153 contains a novel RNA binding domain. This 150-amino acid region was previously found to bind preferentially to a panel of mRNAs when compared with structured RNAs, such as tRNA, U snRNA, and double-stranded RNA. The ability to broadly recognize mRNA led to the conclusion that the Nup153 RNA binding domain confers a general affinity for single-stranded RNA. Here, we have probed Nup153 RNA recognition to decipher how this unique RNA binding domain discriminates between potential targets. We first mapped the binding determinant within an RNA fragment that associates relatively robustly with the Nup153 RNA binding domain. We next designed synthetic RNA oligonucleotides to systematically delineate the features within this minimal RNA fragment that are key to Nup153 RNA-binding domain binding and demonstrated that the binding preferences of Nup153 do not reflect general preferences of an mRNA/single-stranded RNA-binding protein. We further found that the association between Nup153 and a cellular mRNA can be attributed to an interaction with specific subregions of the RNA. These results indicate that Nup153 can discriminate between mRNA and other classes of RNA transcripts due in part to direct recognition of a loose sequence motif. This information adds a new dimension to the interfaces that can contribute to recognition in mRNA export cargo selection and fate.

The RNA binding domain within the nucleoporin Nup153 associates preferentially with single-stranded RNA.

The nuclear pore protein Nup153 is important for the transport of protein and RNA between the nucleus and cytoplasm. Recently, a novel RNA binding domain (RBD) was mapped within the N-terminal region of Nup153; however, the determinants of RNA association were not characterized. Here we have tested a range of RNAs with different general features to better understand targets recognized by this domain. We have found that the RBD associates with single-stranded RNA with little sequence preference. These results provide new information about a novel RNA binding domain and suggest new models to consider for the contribution of Nup153 to nucleocytoplasmic transport.