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Long Noncoding RNAs are Critical Reg...

Singer, Ruth A.

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Long Noncoding RNAs are Critical Regulators of Pancreatic Islet Development and Function.

Record Type:	Electronic resources : Monograph/item
Title/Author:	Long Noncoding RNAs are Critical Regulators of Pancreatic Islet Development and Function./
Author:	Singer, Ruth A.
Published:	Ann Arbor : ProQuest Dissertations & Theses, : 2019,
Description:	229 p.
Notes:	Source: Dissertations Abstracts International, Volume: 80-07, Section: B.
Contained By:	Dissertations Abstracts International80-07B.
Subject:	Genetics. -
Online resource:	http://pqdd.sinica.edu.tw/twdaoapp/servlet/advanced?query=13423826
ISBN:	9780438760561

Long Noncoding RNAs are Critical Regulators of Pancreatic Islet Development and Function.
Singer, Ruth A.

Long Noncoding RNAs are Critical Regulators of Pancreatic Islet Development and Function. - Ann Arbor : ProQuest Dissertations & Theses, 2019 - 229 p.

Source: Dissertations Abstracts International, Volume: 80-07, Section: B.

Thesis (Ph.D.)--Columbia University, 2019.

This item is not available from ProQuest Dissertations & Theses.

Diabetes is a complex group of metabolic disorders with genetic, immunological, and environmental etiologies. Decades of diabetes research have elucidated many genetic drivers of normal islet function and dysfunction. Furthermore, genome wide associated studies (GWAS) have discovered that most diabetes susceptibility loci fall outside of coding regions, which suggests a role for noncoding elements in the development of disease. This highlights our incomplete understanding of the islet regulome and suggests the need for detailed functional analyses of noncoding genes to precisely determine their contribution to diabetes susceptibility and disease progression. Transcriptome analyses have revealed that the eukaryotic genome is pervasively transcribed. Strikingly, only a small proportion of the transcriptome is subsequently translated into protein; the majority is made up non-protein coding RNAs (ncRNAs). The most abundant class of these ncRNAs are called long noncoding RNAs (lncRNAs), defined as transcripts longer than 200 nucleotides that lack protein-coding potential. The establishment of lncRNAs, once dismissed as genomic dark matter, as essential gene regulators in many biological processes has redefined the central role for RNA in cells. While evidence suggests a role for lncRNAs in islets and diabetes, in vivo functional characterization of islet lncRNAs is lacking. For my thesis project, I sought to understand the lncRNA regulatory mechanisms that promote pancreas development and function. We conducted comparative transcriptome analyses between embryonic mouse pancreas and adult mouse islets and identified several pancreatic lncRNAs that lie in close proximity to essential pancreatic transcription factors. One of the candidate lncRNAs, Pa x6 Upstream Antisense RNA (Paupar), mapped near Pax6, a gene encoding an essential pancreatic regulatory protein. We demonstrate Paupar is enriched in glucagon-producing alpha cells where it promotes the alternative splicing of Pax6 to an isoform required for activation of essential alpha cell genes. Consistently, deletion of Paupar in mice resulted in dysregulation of Pax6 alpha cell target genes and corresponding alpha cell dysfunction. These findings illustrate a distinct mechanism by which lncRNAs can contribute to cell-specific regulation of broadly expressed transcription factors to coordinate critical functions within a cell.

ISBN: 9780438760561Subjects--Topical Terms:

530508
Genetics.

Long Noncoding RNAs are Critical Regulators of Pancreatic Islet Development and Function.
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520 $a Diabetes is a complex group of metabolic disorders with genetic, immunological, and environmental etiologies. Decades of diabetes research have elucidated many genetic drivers of normal islet function and dysfunction. Furthermore, genome wide associated studies (GWAS) have discovered that most diabetes susceptibility loci fall outside of coding regions, which suggests a role for noncoding elements in the development of disease. This highlights our incomplete understanding of the islet regulome and suggests the need for detailed functional analyses of noncoding genes to precisely determine their contribution to diabetes susceptibility and disease progression. Transcriptome analyses have revealed that the eukaryotic genome is pervasively transcribed. Strikingly, only a small proportion of the transcriptome is subsequently translated into protein; the majority is made up non-protein coding RNAs (ncRNAs). The most abundant class of these ncRNAs are called long noncoding RNAs (lncRNAs), defined as transcripts longer than 200 nucleotides that lack protein-coding potential. The establishment of lncRNAs, once dismissed as genomic dark matter, as essential gene regulators in many biological processes has redefined the central role for RNA in cells. While evidence suggests a role for lncRNAs in islets and diabetes, in vivo functional characterization of islet lncRNAs is lacking. For my thesis project, I sought to understand the lncRNA regulatory mechanisms that promote pancreas development and function. We conducted comparative transcriptome analyses between embryonic mouse pancreas and adult mouse islets and identified several pancreatic lncRNAs that lie in close proximity to essential pancreatic transcription factors. One of the candidate lncRNAs, Pa x6 Upstream Antisense RNA (Paupar), mapped near Pax6, a gene encoding an essential pancreatic regulatory protein. We demonstrate Paupar is enriched in glucagon-producing alpha cells where it promotes the alternative splicing of Pax6 to an isoform required for activation of essential alpha cell genes. Consistently, deletion of Paupar in mice resulted in dysregulation of Pax6 alpha cell target genes and corresponding alpha cell dysfunction. These findings illustrate a distinct mechanism by which lncRNAs can contribute to cell-specific regulation of broadly expressed transcription factors to coordinate critical functions within a cell.
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