Maher Al-Saif scite author profile

The RNA-binding protein, HuR, is involved in the stabilization of AU-rich element-containing mRNAs with products that are involved in cell-cycle progression, cell differentiation and inflammation. We show that there are multiple polyadenylation variants of HuR mRNA that differ in their abundance, using both bioinformatics and experimental approaches. A polyadenylation variant with distal poly(A) signal is a rare transcript that harbors functional AU-rich elements (ARE) in the 3′UTR. A minimal 60-nt region, but not a mutant form, fused to reporter-3′UTR constructs was able to downregulate the reporter activity. The most predominant and alternatively polyadenylated mature transcript does not contain the ARE. HuR itself binds HuR mRNA, and upregulated the activity of reporter from constructs fused with ARE-isoform and the HuR ARE. Wild-type tristetraprolin (TTP), but not the zinc finger mutant TTP, competes for HuR binding and upregulation of HuR mRNA. The study shows that the HuR gene codes for several polyadenylation variants differentially regulated by AU-rich elements, and demonstrates an auto-regulatory role of HuR.

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Systematic Analysis of AU-Rich Element Expression in Cancer Reveals Common Functional Clusters Regulated by Key RNA-Binding Proteins

Hitti

Bakheet

Al-Souhibani

et al. 2016

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p16INK4A Positively Regulates Cyclin D1 and E2F1 through Negative Control of AUF1

et al. 2011

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BackgroundThe cyclin-D/CDK4,6/p16INK4a/pRB/E2F pathway, a key regulator of the critical G1 to S phase transition of the cell cycle, is universally disrupted in human cancer. However, the precise function of the different members of this pathway and their functional interplay are still not well defined.Methodology/Principal FindingsWe have shown here that the tumor suppressor p16INK4a protein positively controls the expression of cyclin D1 and E2F1 in both human and mouse cells. p16INK4a stabilizes the mRNAs of the corresponding genes through negative regulation of the mRNA decay-promoting AUF1 protein. Immunoprecipitation of AUF1-associated RNAs followed by RT-PCR indicated that endogenous AUF1 binds to the cyclin D1 and E2F1 mRNAs. Furthermore, AUF1 down-regulation increased the expression levels of these genes, while concurrent silencing of AUF1 and p16INK4a, using specific siRNAs, restored normal expression of both cyclinD1 and E2F1. Besides, we have shown the presence of functional AU-rich elements in the E2F1 3′UTR, which contributed to p16/AUF1-mediated regulation of E2F1 post-transcriptional events in vivo. Importantly, genome-wide gene expression microarray analysis revealed the presence of a large number of genes differentially expressed in a p16INK4a -dependent manner, and several of these genes are also members of the AUF1 and E2F1 regulons. We also present evidence that E2F1 mediates p16-dependent regulation of several pro- and anti-apoptotic proteins, and the consequent induction of spontaneous as well as doxorubicin-induced apoptosis.Conclusion/SignificanceThese findings show that the cyclin-dependent kinase inhibitor p16 INK4a is also a modulator of transcription and apoptosis through controlling the expression of two major transcription regulators, AUF1 and E2F1.

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The AU-rich element landscape across human transcriptome reveals a large proportion in introns and regulation by ELAVL1/HuR

Bakheet

Hitti

Al-Saif

et al. 2018

Biochimica et Biophysica Acta (BBA) - Gene Regulatory Mechanism

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Adenylate-uridylate (AU)-rich elements (AREs) are sequence instability elements that are known to be located in the 3' untranslated regions (UTR) in thousands of human transcripts. AREs regulate the expression of many genes at the post-transcriptional level, and they are essential for many normal cellular functions. We conducted a transcriptome-wide screen for AREs and found that they are most abundant in introns, with up to 25% of introns containing AREs corresponding to 58% of human genes. Clustering studies of ARE size, complexity, and distribution revealed that, in introns, longer AREs with two or more overlapping repeats are more abundant than in the 3'UTR, and only introns can contain very long AREs with 6-14 overlapping AUUUA pentamers. We found that intronic sites of the ARE binding proteins HuR/ELAVL1, ZFP36/TTP, AUF1, and BRF1/ZFP36L1 overlap with the intronic AREs with HuR being most abundant. Accordingly, RNA-IP experiments demonstrated a specific association of HuR with reporter and endogenous pre-mRNAs that contain intronic AREs. Moreover, HuR knockdown led to a significant general reduction in the mRNA levels of genes that contain intronic AREs and to a specific reduction in the expression of ARE-intronic reporters. The data represent bioinformatics analysis for key RNA-binding proteins interactions with intronic AREs and provide experimental evidence for HuR binding to AREs. The widespread distribution of intronic AREs and their particular association with HuR and HuR binding sites indicates that more than half of human genes can be regulated post-transcriptionally by AREs.

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UU/UA Dinucleotide Frequency Reduction in Coding Regions Results in Increased mRNA Stability and Protein Expression

Al-Saif

Khabar

2012

Molecular Therapy

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UU and UA dinucleotides are rare in mammalian genes and may offer natural selection against endoribonuclease-mediated mRNA decay. This study hypothesized that reducing UU and UA (UW) dinucleotides in the mRNA-coding sequence, including the codons and the dicodon boundaries, may promote resistance to mRNA decay, thereby increasing protein production. Indeed, protein expression from UW-reduced coding regions of enhanced green fluorescent protein (EGFP), luciferase, interferon-α, and hepatitis B surface antigen (HBsAg) was higher when compared to the wild-type protein expression. The steady-state level of UW-reduced EGFP mRNA was higher and the mRNA half-life was also longer. Ectopic expression of the endoribonuclease, RNase L, did not reduce the wild type or UW-reduced mRNA. A mutant form of the mRNA decay-promoting protein, tristetraprolin (TTP/ZFP36), which has a point mutation in the zinc-finger domain (C124R), was used. The wild-type EGFP mRNA but not the UW-reduced mRNA responded to the dominant negative action of the C124R ZFP36/TTP mutant. The results indicate the efficacy of the described rational approach to formulate a general scheme for boosting recombinant protein production in mammalian cells.

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Maher Al-Saif

Alternative polyadenylation variants of the RNA binding protein, HuR: abundance, role of AU-rich elements and auto-Regulation

Systematic Analysis of AU-Rich Element Expression in Cancer Reveals Common Functional Clusters Regulated by Key RNA-Binding Proteins

p16INK4A Positively Regulates Cyclin D1 and E2F1 through Negative Control of AUF1

The AU-rich element landscape across human transcriptome reveals a large proportion in introns and regulation by ELAVL1/HuR

UU/UA Dinucleotide Frequency Reduction in Coding Regions Results in Increased mRNA Stability and Protein Expression

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