Controls that act at both transcriptional and posttranscriptional levels assure that globin genes are highly expressed in developing erythroid cells. The extraordinary stabilities of alpha- and beta- globin mRNAs permit globin proteins to accumulate to substantial levels in these cells, even in the face of physiologic transcriptional silencing. Structural features that determine alpha-globin mRNA stability have recently been identified within its 3′UTR; in contrast, the structural features that determine beta-globin mRNA stability remain obscure. The current study begins to define the structural basis for beta-globin mRNA stability. Two tandem antitermination mutations are introduced into the wild-type human beta-globin gene that permit ribosomes to read into the 3′UTR of the encoded beta-globin mRNA. The readthrough beta-globin mRNA is destabilized in cultured erythroid cells, indicating that, as in human alpha-globin mRNA, an unperturbed 3′UTR is crucial to maintaining mRNA stability. Additional experiments show that the beta-globin and alpha-globin mRNA 3′UTRs provide equivalent levels of stability to a linked beta-globin mRNA coding region, suggesting a parallel in their functions. However, destabilization of the antiterminated beta-globin mRNA is independent of active translation into the 3′UTR, whereas translation into the alpha-globin mRNA 3′UTR destabilizes a linked beta-globin coding region in a translationally dependent manner. This indicates that the alpha- and beta-globin 3′UTRs may stabilize linked mRNAs through distinct mechanisms. Finally, it is shown that neither of the two mutations that, in combination, destabilize the beta-globin mRNA have any effect on beta-globin mRNA stability when present singly, suggesting potential redundancy of stabilizing elements. In sum, the current study shows that a functionally intact beta-globin mRNA 3′UTR is crucial to maintaining beta-globin mRNA stability and provides a level of stability that is functionally equivalent to, although potentially mechanistically distinct from, the previously characterized alpha- globin mRNA 3′UTR stability element.
ARTICLES|
June 15, 1996
The stability of human beta-globin mRNA is dependent on structural determinants positioned within its 3' untranslated region
JE Russell,
JE Russell
Howard Hughes Medical Institute, University of Pennsylvania, Philadelphia, PA, USA.
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SA Liebhaber
SA Liebhaber
Howard Hughes Medical Institute, University of Pennsylvania, Philadelphia, PA, USA.
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Blood (1996) 87 (12): 5314–5323.
Citation
JE Russell, SA Liebhaber; The stability of human beta-globin mRNA is dependent on structural determinants positioned within its 3' untranslated region. Blood 1996; 87 (12): 5314–5323. doi: https://doi.org/10.1182/blood.V87.12.5314.bloodjournal87125314
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