Abdalla Akef scite author profile

In higher eukaryotes, messenger RNAs (mRNAs) are exported from the nucleus to the cytoplasm via factors deposited near the 5′ end of the transcript during splicing. The signal sequence coding region (SSCR) can support an alternative mRNA export (ALREX) pathway that does not require splicing. However, most SSCR–containing genes also have introns, so the interplay between these export mechanisms remains unclear. Here we support a model in which the furthest upstream element in a given transcript, be it an intron or an ALREX–promoting SSCR, dictates the mRNA export pathway used. We also experimentally demonstrate that nuclear-encoded mitochondrial genes can use the ALREX pathway. Thus, ALREX can also be supported by nucleotide signals within mitochondrial-targeting sequence coding regions (MSCRs). Finally, we identified and experimentally verified novel motifs associated with the ALREX pathway that are shared by both SSCRs and MSCRs. Our results show strong correlation between 5′ untranslated region (5′UTR) intron presence/absence and sequence features at the beginning of the coding region. They also suggest that genes encoding secretory and mitochondrial proteins share a common regulatory mechanism at the level of mRNA export.

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Trafficking of mRNAs containing ALREX-promoting elements through nuclear speckles

Akef

Zhang

Masuda

et al. 2013

Nucleus

109

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In vertebrates, the majority of mRNAs that encode secreted, membrane-bound or mitochondrial proteins contain RNA elements that activate an alternative mRNA nuclear export (ALREX) pathway. Here we demonstrate that mRNAs containing ALREX-promoting elements are trafficked through nuclear speckles. Although ALREX-promoting elements enhance nuclear speckle localization, additional features within the mRNA largely drive this process. Depletion of two TREX-associated RNA helicases, UAP56 and its paralog URH49, or inhibition of the TREX-associated nuclear transport factor, TAP, not only inhibits ALREX, but also appears to trap these mRNAs in nuclear speckles. mRNAs that contain ALREX-promoting elements associate with UAP56 in vivo. Finally, we demonstrate that mRNAs lacking a poly(A)-tail are not efficiently exported by the ALREX pathway and show enhanced association with nuclear speckles. Our data suggest that within the speckle, ALREX-promoting elements, in conjunction with the poly(A)-tail, likely stimulate UAP56/URH49 and TAP dependent steps that lead to the eventual egress of the export-competent mRNP from these structures.

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The Consensus 5' Splice Site Motif Inhibits mRNA Nuclear Export

et al. 2015

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In eukaryotes, mRNAs are synthesized in the nucleus and then exported to the cytoplasm where they are translated into proteins. We have mapped an element, which when present in the 3’terminal exon or in an unspliced mRNA, inhibits mRNA nuclear export. This element has the same sequence as the consensus 5’splice site motif that is used to define the start of introns. Previously it was shown that when this motif is retained in the mRNA, it causes defects in 3’cleavage and polyadenylation and promotes mRNA decay. Our new data indicates that this motif also inhibits nuclear export and promotes the targeting of transcripts to nuclear speckles, foci within the nucleus which have been linked to splicing. The motif, however, does not disrupt splicing or the recruitment of UAP56 or TAP/Nxf1 to the RNA, which are normally required for nuclear export. Genome wide analysis of human mRNAs, lncRNA and eRNAs indicates that this motif is depleted from naturally intronless mRNAs and eRNAs, but less so in lncRNAs. This motif is also depleted from the beginning and ends of the 3’terminal exons of spliced mRNAs, but less so for lncRNAs. Our data suggests that the presence of the 5’splice site motif in mature RNAs promotes their nuclear retention and may help to distinguish mRNAs from misprocessed transcripts and transcriptional noise.

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RanBP2/Nup358 Potentiates the Translation of a Subset of mRNAs Encoding Secretory Proteins

et al. 2013

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Nuclear export as a key arbiter of “mRNA identity” in eukaryotes

Palazzo¹,

Akef²

2012

Biochimica et Biophysica Acta (BBA) - Gene Regulatory Mechanism

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Splicing promotes the nuclear export of β-globin mRNA by overcoming nuclear retention elements

Akef

Lee

Palazzo

2015

RNA

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Most current models of mRNA nuclear export in vertebrate cells assume that an mRNA must have specialized signals in order to be exported from the nucleus. Under such a scenario, mRNAs that lack these specialized signals would be shunted into a default pathway where they are retained in the nucleus and eventually degraded. These ideas were based on the selective use of model mRNA reporters. For example, it has been shown that splicing promotes the nuclear export of certain model mRNAs, such as human β-globin, and that in the absence of splicing, the cDNA-derived mRNA is retained in the nucleus and degraded. Here we provide evidence that β-globin mRNA contains an element that actively retains it in the nucleus and degrades it. Interestingly, this nuclear retention activity can be overcome by increasing the length of the mRNA or by splicing. Our results suggest that contrary to many current models, the default pathway for most intronless RNAs is to be exported from the nucleus, unless the RNA contains elements that actively promote its nuclear retention.

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A role for Gle1, a regulator of DEAD-box RNA helicases, at centrosomes and basal bodies

Jao

Akef

Wente

2017

MBoC

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A Common Class of Transcripts with 5′-Intron Depletion, Distinct Early Coding Sequence Features, and N¹-Methyladenosine Modification

Cenik

Chua

Singh

et al. 2016

Preprint

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Introns are found in 5′ untranslated regions (5 ′ UTRs) for 35% of all human transcripts. These 5 ′ UTR introns are not randomly distributed: Genes that encode secreted, membrane-bound and mitochondrial proteins are less likely to have them. Curiously, transcripts lacking 5 ′ UTR introns tend to harbor specific RNA sequence elements in their early coding regions. To model and understand the connection between coding-region sequence and 5′ UTR intron status, we developed a classifier that can predict 5′ UTR intron status with >80% accuracy using only sequence features in the early coding region. Thus, the classifier identifies transcripts with 5 ′ proximal-intron-minus-like-coding regions ("5IM" transcripts). Unexpectedly, we found that the early coding sequence features defining 5IM transcripts are widespread, appearing in 21% of all human RefSeq transcripts. The 5IM class of transcripts is enriched for non-AUG start codons, more extensive secondary structure both preceding the start codon and near the 5 ′ cap, greater dependence on eIF4E for translation, and association with ER-proximal ribosomes. 5IM transcripts are bound by the exon junction complex (EJC) at noncanonical 5 ′ proximal positions. Finally, N 1 -methyladenosines are specifically enriched in the early coding regions of 5IM transcripts. Taken together, our analyses point to the existence of a distinct 5IM class comprising ∼20% of human transcripts. This class is defined by depletion of 5 ′ proximal introns, presence of specific RNA sequence features associated with low translation efficiency, N 1 -methyladenosines in the early coding region, and enrichment for noncanonical binding by the EJC.

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Abdalla Akef

Genome Analysis Reveals Interplay between 5′UTR Introns and Nuclear mRNA Export for Secretory and Mitochondrial Genes

Trafficking of mRNAs containing ALREX-promoting elements through nuclear speckles

The Consensus 5' Splice Site Motif Inhibits mRNA Nuclear Export

RanBP2/Nup358 Potentiates the Translation of a Subset of mRNAs Encoding Secretory Proteins

Nuclear export as a key arbiter of “mRNA identity” in eukaryotes

Splicing promotes the nuclear export of β-globin mRNA by overcoming nuclear retention elements

A role for Gle1, a regulator of DEAD-box RNA helicases, at centrosomes and basal bodies

A Common Class of Transcripts with 5′-Intron Depletion, Distinct Early Coding Sequence Features, and N¹-Methyladenosine Modification

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Abdalla Akef

Genome Analysis Reveals Interplay between 5′UTR Introns and Nuclear mRNA Export for Secretory and Mitochondrial Genes

Trafficking of mRNAs containing ALREX-promoting elements through nuclear speckles

The Consensus 5' Splice Site Motif Inhibits mRNA Nuclear Export

RanBP2/Nup358 Potentiates the Translation of a Subset of mRNAs Encoding Secretory Proteins

Nuclear export as a key arbiter of “mRNA identity” in eukaryotes

Splicing promotes the nuclear export of β-globin mRNA by overcoming nuclear retention elements

A role for Gle1, a regulator of DEAD-box RNA helicases, at centrosomes and basal bodies

A Common Class of Transcripts with 5′-Intron Depletion, Distinct Early Coding Sequence Features, and N1-Methyladenosine Modification

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Product

Resources

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A Common Class of Transcripts with 5′-Intron Depletion, Distinct Early Coding Sequence Features, and N¹-Methyladenosine Modification