Human selenoprotein P and S variant mRNAs with different numbers of SECIS elements and inferences from mutant mice of the roles of multiple SECIS elements

Dynamic redefinition of the 10 UGAs in human and mouse selenoprotein P (Sepp1) mRNAs to specify selenocysteine instead of termination involves two 3′ UTR structural elements (SECIS) and is regulated by selenium availability. In addition to the previously known human Sepp1 mRNA poly(A) addition site...

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Bibliographic Details
Published in:Open biology 2016-11, Vol.6 (11), p.160241
Main Authors: Wu, Sen, Mariotti, Marco, Santesmasses, Didac, Hill, Kristina E., Baclaocos, Janinah, Aparicio-Prat, Estel, Li, Shuping, Mackrill, John, Wu, Yuanyuan, Howard, Michael T., Capecchi, Mario, Guigó, Roderic, Burk, Raymond F., Atkins, John F.
Format: Article
Language:English
Subjects:
3' Untranslated Regions
Alternative Splicing
Animals
Codon Redefinition
Codon, Terminator
Hep G2 Cells
Humans
Mice
Mutation
Protein Isoforms - genetics
Ribosome Specialization
RNA, Messenger - metabolism
Selenium - metabolism
Selenocysteine
Selenocysteine - genetics
Selenoprotein P
Selenoprotein P - genetics
Selenoprotein S
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Summary:Dynamic redefinition of the 10 UGAs in human and mouse selenoprotein P (Sepp1) mRNAs to specify selenocysteine instead of termination involves two 3′ UTR structural elements (SECIS) and is regulated by selenium availability. In addition to the previously known human Sepp1 mRNA poly(A) addition site just 3′ of SECIS 2, two further sites were identified with one resulting in 10–25% of the mRNA lacking SECIS 2. To address function, mutant mice were generated with either SECIS 1 or SECIS 2 deleted or with the first UGA substituted with a serine codon. They were fed on either high or selenium-deficient diets. The mutants had very different effects on the proportions of shorter and longer product Sepp1 protein isoforms isolated from plasma, and on viability. Spatially and functionally distinctive effects of the two SECIS elements on UGA decoding were inferred. We also bioinformatically identify two selenoprotein S mRNAs with different 5′ sequences predicted to yield products with different N-termini. These results provide insights into SECIS function and mRNA processing in selenoprotein isoform diversity.
ISSN:2046-2441
2046-2441
DOI:10.1098/rsob.160241