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dc.contributor.authorBoddu, R
dc.contributor.authorYang, CZ
dc.contributor.authorO'Connor, AK
dc.contributor.authorHendrickson, RC
dc.contributor.authorBoone, B
dc.contributor.authorCui, XQ
dc.contributor.authorGarcía González , Miguel Ángel
dc.contributor.authorIgarashi, P
dc.contributor.authorOnuchic, LF
dc.contributor.authorGermino, GG
dc.contributor.authorGuay-Woodford, LM
dc.date.accessioned2017-06-07T07:30:04Z
dc.date.available2017-06-07T07:30:04Z
dc.date.issued2014
dc.identifier.issn0946-2716
dc.identifier.urihttp://hdl.handle.net/20.500.11940/7258
dc.description.abstractAutosomal recessive polycystic kidney disease (ARPKD) results from mutations in the human PKHD1 gene. Both this gene, and its mouse ortholog, Pkhd1, are primarily expressed in renal and biliary ductal structures. The mouse protein product, fibrocystin/polyductin complex (FPC), is a 445-kDa protein encoded by a 67-exon transcript that spans >500 kb of genomic DNA. In the current study, we observed multiple alternatively spliced Pkhd1 transcripts that varied in size and exon composition in embryonic mouse kidney, liver, and placenta samples, as well as among adult mouse pancreas, brain, heart, lung, testes, liver, and kidney. Using reverse transcription PCR and RNASeq, we identified 22 novel Pkhd1 kidney transcripts with unique exon junctions. Various mechanisms of alternative splicing were observed, including exon skipping, use of alternate acceptor/donor splice sites, and inclusion of novel exons. Bioinformatic analyses identified, and exon-trapping minigene experiments validated, consensus binding sites for serine/arginine-rich proteins that modulate alternative splicing. Using site-directed mutagenesis, we examined the functional importance of selected splice enhancers. In addition, we demonstrated that many of the novel transcripts were polysome bound, thus likely translated. Finally, we determined that the human PKHD1 R760H missense variant alters a splice enhancer motif that disrupts exon splicing in vitro and is predicted to truncate the protein. Taken together, these data provide evidence of the complex transcriptional regulation of Pkhd1/PKHD1 and identified motifs that regulate its splicing. Our studies indicate that Pkhd1/PKHD1 transcription is modulated, in part by intragenic factors, suggesting that aberrant PKHD1 splicing represents an unappreciated pathogenic mechanism in ARPKD. Key messages: Multiple mRNA transcripts are generated for Pkhd1 in renal tissues Pkhd1 transcription is modulated by standard splice elements and effectors Mutations in splice motifs may alter splicing to generate nonfunctional peptides.
dc.language.isoeng
dc.subject.meshAlternative Splicing
dc.subject.meshAnimals
dc.subject.meshExons
dc.subject.meshGenetic Variation
dc.subject.meshHumans
dc.subject.meshKidney
dc.subject.meshMice, Inbred DBA
dc.subject.meshMutagenesis, Site-Directed
dc.subject.meshRNA, Messenger
dc.subject.meshReceptors, Cell Surface
dc.subject.meshReverse Transcriptase Polymerase Chain Reaction
dc.subject.meshSequence Analysis, RNA
dc.subject.meshTranscription, Genetic
dc.titleIntragenic motifs regulate the transcriptional complexity of Pkhd1/PKHD1
dc.typeArtigoes
dc.authorsophosBoddu, R
dc.authorsophosYang, CZ
dc.authorsophosO'Connor, AK
dc.authorsophosHendrickson, RC
dc.authorsophosBoone, B
dc.authorsophosCui, XQ
dc.authorsophosGarcia-Gonzalez, M
dc.authorsophosIgarashi, P
dc.authorsophosOnuchic, LF
dc.authorsophosGermino, GG
dc.authorsophosGuay-Woodford, LM
dc.identifier.doi10.1007/s00109-014-1185-7
dc.identifier.isi343821000005
dc.identifier.pmid24984783
dc.identifier.sophos16215
dc.issue.number10
dc.journal.titleJOURNAL OF MOLECULAR MEDICINE-JMM
dc.organizationServizo Galego de Saúde::Estrutura de Xestión Integrada (EOXI)::EOXI de Santiago::IDIS.- Instituto de investigaciones sanitarias de Santiago
dc.page.initial1045
dc.page.final1056
dc.rights.accessRightsopenAccess
dc.typesophosArtículo Original
dc.volume.number92


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