Epigenetic regulation of differential<i>HLA-A</i>allelic expression levels

Ramsuran, Veron; Kulkarni, S. R.; Ó'hUigín, Colm; Yuki, Yuko; Augusto, Danillo G.; Gao, Xiaojiang; Carrington, Mary

doi:10.1093/hmg/ddv158

Cited by 73 publications

(99 citation statements)

References 40 publications

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“…Briefly, reverse transcription was performed with 900ng of total RNA using the high capacity RNA to cDNA kit (Applied Bioscience) in a volume of 10µl. HLA-A coding region [amplified using previously published primers (3)], HLA-A 3’UTR and GAPDH transcripts were amplified (Primer sequences in Table S1) by SYBR green qPCR using the threshold cycle (C T ) method(5) in a Viia7 machine (Applied Bioscience). Each qPCR reaction included 6µl of power SYBR green PCR mastermix (Applied Biosystems), 200nM primers that specifically amplified the gene of interest ( HLA-A ) or the housekeeping gene ( GAPDH ), and 2 µl of cDNA (1:20 dilution) in a total volume of 12 µl.…”

Section: Methodsmentioning

confidence: 99%

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Posttranscriptional Regulation of HLA-A Protein Expression by Alternative Polyadenylation Signals Involving the RNA-Binding Protein Syncrip

Kulkarni

Ramsuran

Ručević

et al. 2017

The Journal of Immunology

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Genomic variation in the untranslated region (UTR) has been shown to influence human leukocyte antigen (HLA) class I expression level, and associate with disease outcomes. Sequencing of the 3’UTR of common HLA-A alleles indicated the presence of two polyadenylation signals (PAS). The proximal PAS is conserved, whereas the distal PAS is disrupted within certain alleles by sequence variants. Using 3’ rapid amplification of cDNA ends (3’RACE), we confirmed expression of two distinct forms of the HLA-A 3’UTR based on use of either the proximal or the distal PAS, which differ in length by 100 base pairs. Specific HLA-A alleles varied in the usage of the proximal vs. distal PAS, with some alleles using only the proximal, and others using both the proximal and distal PAS to differing degrees. We show that the short and the long 3’UTR produced similar mRNA expression levels. However, the long 3’UTR conferred lower luciferase activity as compared to the short form, indicating translation inhibition of the long 3’UTR. RNA affinity pull down followed by mass spectrometry (MS) analysis as well as RNA co-immunoprecipitation indicated differential binding of Syncrip to the long vs. short 3’UTR. Depletion of Syncrip by siRNA increased surface expression of an HLA-A allotype that uses primarily the long 3’UTR, whereas an allotype expressing only the short form was unaffected. Further, specific blocking of the proximal 3’UTR reduced surface expression without decreasing mRNA expression. These data demonstrate HLA-A allele-specific variation in PAS usage, which modulates their cell surface expression post-transcriptionally.

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Section: Methodsmentioning

confidence: 99%

“…The mRNA expression levels of HLA-A alleles were recently shown to vary in an allele-dependent manner as a function of the degree of methylation in the promoter region of each allele (3). Thus, epigenetic mechanisms account for a portion of the differential mRNA expression patterns across HLA-A alleles.…”

Section: Introductionmentioning

confidence: 99%

Posttranscriptional Regulation of HLA-A Protein Expression by Alternative Polyadenylation Signals Involving the RNA-Binding Protein Syncrip

Kulkarni

Ramsuran

Ručević

et al. 2017

The Journal of Immunology

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“…Binding sites for regulatory proteins further upstream from the core promoter have also been identified (26, 27) and it is likely that others exist, some of which may be polymorphic. Indeed, genetic variants and epigenetic modifications located within the 3´ and 5´ untranslated regions (UTR) (6, 13,25, 28, 29), as well as the coding region (14), have been shown to alter HLA allele expression levels, but so far, these mechanisms account for only a small percentage of the expression variation found within the respective genes.…”

Section: Introductionmentioning

confidence: 99%

Sequence and Phylogenetic Analysis of the Untranslated Promoter Regions for HLA Class I Genes

Ramsuran

Hernandez-Sanchez

Ó'hUigín

et al. 2017

The Journal of Immunology

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Polymorphisms located within the MHC have been linked to many disease outcomes by mechanisms not yet fully understood in most cases. Variants located within untranslated regions of HLA genes are involved in allele specific expression and may therefore underlie some of these disease associations. We determined sequences extending nearly 2kb upstream of the transcription start site for 68 alleles from 57 major lineages of classical HLA class I genes. The nucleotide diversity within this promoter segment roughly follows that seen within the coding regions, with HLA-B showing the highest (~1.9%), followed by HLA–A (~1.8%), and HLA–C showing the lowest diversity (~0.9%). In spite of its greater diversity, HLA-B mRNA expression levels determined in 178 European Americans do not vary in an allele- or lineage-specific manner, unlike the differential expression levels of HLA-A or HLA-C reported previously. Close proximity of promoter sequences in phylogenetic trees is roughly reflected by similarity of expression pattern for most HLA-A and -C loci. While promoter sequence divergence might impact promoter activity, we observed no clear link between the phylogenetic structure as represented by pairwise nucleotide differences in the promoter regions with estimated differences in mRNA expression levels for the classical class I loci. Further, no pair of class I loci showed coordinated expression levels, suggesting that distinct mechanisms across loci determine their expression level under non-stimulated conditions. These data serve as a foundation for more in depth analysis of the functional consequences of promoter region variation within the classical HLA class I loci.

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“…In healthy individuals, the expression levels of HLA-I and -II are allele dependent. This differential expression of HLA antigens is of great relevance in clinical setting47484950. Thus, beside DSA-HLA-I binding strength, their risk to hCPC should probably be viewed in the context of the HLA alleles of therapeutic cells.…”

Section: Discussionmentioning

confidence: 99%

Minimizing the risk of allo-sensitization to optimize the benefit of allogeneic cardiac-derived stem/progenitor cells

Hocine¹,

Costa²,

Dam³

et al. 2017

Sci Rep

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Allogeneic human cardiac-derived stem/progenitor cells (hCPC) are currently under clinical investigation for cardiac repair. While cellular immune response against allogeneic hCPC could be part of their beneficial-paracrine effects, their humoral immune response remains largely unexplored. Donor-specific HLA antibodies (DSA-HLA-I/DSA-HLA-II), primary elements of antibody-mediated allograft injury, might present an unidentified risk to allogeneic hCPC therapy. Here we established that the binding strength of anti-HLA monoclonal antibodies delineates hCPC proneness to antibody-mediated injury. In vitro modeling of clinical setting demonstrated that specific DSA-HLA-I of high/intermediate binding strength are harmful for hCPC whereas DSA-HLA-II are benign. Furthermore, the Luminex-based solid-phase assays are suitable to predict the DSA-HLA risk to therapeutic hCPC. Our data indicate that screening patient sera for the presence of HLA antibodies is important to provide an immune-educated choice of allogeneic therapeutic cells, minimize the risk of precipitous elimination and promote the allogeneic reparative effects.

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Epigenetic regulation of differentialHLA-Aallelic expression levels

Cited by 73 publications

References 40 publications

Posttranscriptional Regulation of HLA-A Protein Expression by Alternative Polyadenylation Signals Involving the RNA-Binding Protein Syncrip

Posttranscriptional Regulation of HLA-A Protein Expression by Alternative Polyadenylation Signals Involving the RNA-Binding Protein Syncrip

Sequence and Phylogenetic Analysis of the Untranslated Promoter Regions for HLA Class I Genes

Minimizing the risk of allo-sensitization to optimize the benefit of allogeneic cardiac-derived stem/progenitor cells

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