Discovery of Novel miRNAs and isomiRs and Use in Sub-typing TCGA Cancers
Thomas Jefferson University, Philadelphia PA
Investigators
Linked publications & trials
Abstract
? DESCRIPTION (provided by applicant): MicroRNAs (miRNAs) are critical players in development and homeostasis and potent post-transcriptional regulators of numerous transcripts. Despite tremendous progress during the last two decades, key questions such as how many miRNAs are encoded in the human genome, how many distinct miRNA products arise from a single miRNA locus, and how many transcripts are targeted by each mature miRNA product remain largely open. Their answers directly bear upon the community's attempts to unravel and understand the complexity of post-transcriptional regulation in disease. We recently reported our analyses of deep-sequencing transcriptomic data (short RNA-seq) from 1,323 individuals and the discovery of 3,707 novel human miRNAs that are tissue-specific and pri-mate-specific, effectively tripling the number of human miRNA precursors currently in the miRBase repository. We also reported results from a parallel study of short RNA-seq data from 452 healthy in-dividuals where we found that miRNA precursor arms produce multiple isoforms, the isomiRs, and that the isomiRs' abundance profiles have an unexpected dependency on an individual's gender, population, and race. For many of the novel miRNAs and the isomiRs we showed that they are loaded on Argonaute, thus they function in the RNA interference pathway. Lastly, we analyzed breast cancer (BRCA) datasets from The Cancer Genome Atlas (TCGA) and showed that these observations ex-tend to and hold true in the disease context as well. These results indicate that many molecules that are active in the post-transcriptional regulatory layer have eluded us, as has their unexpected dependency on disease subtype, gender, population, and race. These molecules and the interactions that they mediate await discovery and characterization. Notably, due to their human-/primate-specific nature, many of the newly discovered novel miRNAs and their targeted effectors are absent from and thus cannot be captured by mouse models of cancer. In this project, we will be expanding our TCGA BRCA analyses to four more TCGA cancers. In each of the four cases, we will seek novel miRNAs, establish isomiR profiles for known and novel miRNAs, and characterize their dependencies on cancer sub-type, gender, and race. Based on our preliminary findings we expect that some of the novel miRNAs to be discovered in these cancers will be tissue-specific and human-specific. This will help generate novel highly specific signatures for these cancers and their sub-types. By including in our analyses long RNA-seq datasets we will model the regulatory effects of miRNAs/isomiRs on their messenger-RNA/lncRNA targets. The project will generate a wealth of knowledge that does not currently exist and which will help pave new avenues of exploration for the community and generate insights that can eventually lead to new therapeutic approaches.
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