词条 | AU-rich element |
释义 |
AREs are defined as a region with frequent adenine and uridine bases in a mRNA. They usually target the mRNA for rapid degradation.[2][3] ARE-directed mRNA degradation is influenced by many exogenous factors, including phorbol esters, calcium ionophores, cytokines, and transcription inhibitors. These observations suggest that AREs play a critical role in the regulation of gene transcription during cell growth and differentiation, and the immune response.[1] AREs have been divided into three classes with different sequences. The best characterised adenylate uridylate (AU)-rich Elements have a core sequence of AUUUA within U-rich sequences (for example WWWU(AUUUA)UUUW where W is A or U). This lies within a 50-150 base sequence, repeats of the core AUUUA element are often required for function. A number of different proteins (e.g. HuA, HuB, HuC, HuD, HuR) bind to these elements and stabilise the mRNA while others (AUF1, TTP, BRF1, TIA-1, TIAR, and KSRP) destabilise the mRNA, miRNAs may also bind to some of them.[4] HuD (also called ELAVL4) binds to AREs and increases the half-life of ARE-bearing mRNAs in neurons during brain development and plasticity.[5] AREsite—a database for ARE containing genes—has recently been developed with the aim to provide detailed bioinformatic characterization of AU-rich elements.[6]Classifications
No real ARE consensus sequence has been determined yet, and these categories are based neither on the same biological functions, nor on the homologous proteins.[2] Mechanism of ARE-mediated decayAREs are recognized by RNA binding proteins such as tristetraprolin (TTP), AUF1, and Hu Antigen R (HuR).[7] Although the exact mechanism is not very well understood, recent publications have attempted to propose the action of some of these proteins. AUF1, also known as hnRNP D, binds AREs through RNA recognition motifs (RRMs). AUF1 is also known to interact with the translation initiation factor eIF4G and with poly(A)-binding protein, indicating that AUF1 senses the translational status of mRNA and decays accordingly through the excision of the poly(A) tail.[7] TTP's expression is rapidly induced by insulin.[8] Immunoprecipitation experiments have shown that TTP co-precipitates with an exosome, suggesting that it helps recruit exosomes to the mRNA containing AREs.[9] Alternatively, HuR proteins have a stabilizing effect—their binding to AREs increases the half-life of mRNAs. Similar to other RNA-binding proteins, this class of proteins contain three RRMs, two of which are specific to ARE elements.[10] A likely mechanism for HuR action relies on the idea that these proteins compete with other proteins that normally have a destabilizing effect on mRNAs.[11] HuRs are involved in genotoxic response—they accumulate in the cytoplasm in response to UV exposure and stabilize mRNAs that encode proteins involved in DNA repair. DiseaseProblems with mRNA stability have been identified in viral genomes, cancer cells, and various diseases. Research shows that many of these problems arise because of faulty ARE function. Some of these problems have been listed below:[7]
References1. ^1 {{cite journal|last=Chen|first=Chyi-Ying A.|author2=Shyu, Ann-Bin|title=AU-rich elements: characterization and importance in mRNA degradation|journal=Trends in Biochemical Sciences|date=November 1995|volume=20|issue=11|pages=465–470|pmid=8578590|doi=10.1016/S0968-0004(00)89102-1}} 2. ^1 {{cite journal |author1=C Barreau, L Paillard |author2=H B Osborne |lastauthoramp=yes |title=AU-rich elements and associated factors: are there unifying principles? |journal=Nucleic Acids Res |volume=33 |pages=7138–7150 |year=2006 |pmid=16391004 |doi=10.1093/nar/gki1012 |issue=22 |pmc=1325018}} 3. ^{{cite journal |vauthors=Shaw G, Kamen R |title=A conserved AU sequence from the 3' untranslated region of GM-CSF mRNA mediates selective mRNA degradation |journal=Cell |volume=46 |issue=5 |pages=659–67 |date=August 1986 |pmid=3488815 |doi=10.1016/0092-8674(86)90341-7}} 4. ^{{cite journal |author1=Federico Bolognani |author2=Nora Perrone-Bizzozero |lastauthoramp=yes |title=RNA-protein interactions and control of mRNA stability in neurons |journal=J Neurosci Res |volume=86 |pages=481–489 |year=2008 |pmid=17853436 |doi=10.1002/jnr.21473 |issue= 3}} 5. ^{{cite journal |author1=Nora Perrone-Bizzozero |author2=Federico Bolognani |lastauthoramp=yes |title=Role of HuD and other RNA-binding proteins in neural development and plasticity |journal=J Neurosci Res |volume=68 |pages=121–126 |year=2002 |pmid=11948657 |doi=10.1002/jnr.10175 |issue=2|title-link=HuD }} 6. ^{{cite journal |vauthors=Gruber AR, Fallmann J, Kratochvill F, Kovarik P, Hofacker IL |title=AREsite: a database for the comprehensive investigation of AU-rich elements |journal=Nucleic Acids Res |volume=39 |pages=D66–9 |year=2011 |pmid=21071424 |doi=10.1093/nar/gkq990 |issue=Database issue |pmc=3013810}} 7. ^1 2 {{cite book|last1=Elliott|first1=David|last2=Ladomery|first2=Michael|title=Stability and Degradation of mRNA|date=2011|publisher=Oxford UP|location=Oxford|page=312}} 8. ^{{cite journal|last1=Cao|first1=H|last2=JF Jr|first2=Urban|last3=RA|first3=Anderson|title=Insulin Increases Tristetraprolin and Decreases VEGF Gene Expression in Mouse 3T3-L1 Adipocytes|journal=Obesity|date=Apr 2008|volume=16|issue=6|pages=1208–1218|doi=10.1038/oby.2008.65|pmid=18388887}} 9. ^{{cite journal|last1=Tiedje|first1=Christopher|last2=Kotlyarov|first2=Alexey|last3=Gaestel|first3=Matthias|title=Molecular Mechanisms of Phosphorylation-regulated TTP (tristetraprolin) Action and Screening for Further TTP-interacting Proteins|journal=Biochemical Society Transactions|date=2010|volume=38|issue=6|pages=1632–1637|url=http://www.mh-hannover.de/fileadmin/institute/physiologische_chemie/2010_Biochem_Soc_Transact_38-1632_Tietje_et_al.pdf|doi=10.1042/bst0381632|pmid=21118139}} 10. ^{{cite journal|last1=Dai|first1=Weijun|last2=Zhang|first2=Gen|last3=Makeyev|first3=Eugene V.|title=RNA-binding Protein HuR Autoregulates Its Expression by Promoting Alternative Polyadenylation Site Usage|journal=Nucleic Acids Research|date=24 Sep 2011|volume=40|issue=2|pages=787–800|doi=10.1093/nar/gkr783|pmc=3258158|pmid=21948791}} 11. ^{{cite journal|last1=Brennan|first1=C. M.|last2=Steinz|first2=J. A.|title=HuR and MRNA Stability|journal=Cellular and Molecular Life Sciences CMLS|date=Feb 2001|volume=58|issue=2|pages=266–277|doi=10.1007/pl00000854|pmid=11289308}} External links
3 : RNA|Gene expression|Cis-regulatory RNA elements |
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