Genetic interplay between HLA-C and MIR148A in HIV control and Crohn disease

Variation in the 3' untranslated region (3'UTR) of the HLA-C locus determines binding of the microRNA Hsa-miR-148a, resulting in lower cell surface expression of alleles that bind miR-148a relative to those alleles that escape its binding. The HLA-C 3'UTR variant was shown to associate with HIV control, but like the vast majority of disease associations in a region dense with causal candidates, a direct effect of HLA-C expression level on HIV control was not proven. We demonstrate that a MIR148A insertion/deletion polymorphism associates with its own expression levels, affecting the extent to which HLA-C is down-regulated, the level of HIV control, and the risk of Crohn disease only among those carrying an intact miR-148a binding site in the HLA-C 3'UTR. These data illustrate a direct effect of HLA-C expression level on HIV control that cannot be attributed to other HLA loci in linkage disequilibrium with HLA-C and highlight the rich complexity of genetic interactions in human disease.

Genetic interplay between HLA-C and MIR148A in HIV control and Crohn disease

Graph Chatbot

The dynamic genetic determinants of increased transcriptional divergence in spermatids

Meeting our Makers: Uncovering the cis-regulatory activity of transposable elements using statistical learning

Toward universal cell embeddings: integrating single-cell RNA-seq datasets across species with SATURN

The dynamic genetic determinants of increased transcriptional divergence in spermatids

Meeting our Makers: Uncovering the cis-regulatory activity of transposable elements using statistical learning

Toward universal cell embeddings: integrating single-cell RNA-seq datasets across species with SATURN