H19 and IGF2 imprinting from embryogenesis to oncogenesis
Bella Ortega, Rida Saeed, Sloan White, Patrick Tajanlangit, G. Ian Gallicano

TL;DR
The H19 and IGF2 genes, which are normally imprinted, play key roles in fetal development and can contribute to cancer when their regulation is disrupted.
Contribution
This paper reviews the shared mechanisms and signaling pathways that regulate H19 and IGF2 during development and cancer.
Findings
H19 prevents fetal overgrowth and regulates trophoblast invasion, while IGF2 promotes organogenesis and placental angiogenesis.
Loss of imprinting at the H19/IGF2 locus disrupts gene expression and contributes to cancer and imprinting disorders.
H19 activates the PI3K/AKT pathway and induces EMT by silencing tumor suppressor genes like let-7b.
Abstract
The imprinted H19/IGF2 locus is critical for fetal development and, when dysregulated, contributes to tumorigenesis. This review examines the mechanisms regulating imprinting through DNA methyltransferases, alongside shared signaling pathways, such as PI3K/AKT, that operate across both embryonic development and tumorigenesis. Parent-of-origin methylation at this locus coordinates differential gene activity: IGF2 promotes organogenesis and placental angiogenesis through mitogenic signaling, while H19, a long non-coding RNA that serves as a precursor for miR-675-5p, prevents fetal overgrowth, regulates trophoblast invasion, and modulates epithelial-to-mesenchymal transitions (EMT). Loss of imprinting (LOI) at this locus disrupts normal gene expression, contributing to the development of cancer and imprinting disorders. Overexpression of H19 activates the PI3K/AKT pathway and silences…
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Taxonomy
TopicsGenetic Syndromes and Imprinting · Epigenetics and DNA Methylation · RNA modifications and cancer
