The intestinal epithelium is in a dynamic equilibrium of proliferation, differentiation and apoptosis along the crypt-villus gradient. Normal intestinal homeostasis is disturbed during states of infection, inflammation and malignant transformation (adenomatous polyps, colorectal cancer). The pathogenesis of sporadic colorectal cancer involves distinct pathways with characteristic genomic and genetic alterations. Despite significant advances in leveraging our understanding of these pathways for diagnostic, prognostic, and therapeutic strategies, colorectal cancer (CRC) remains a leading cause of cancer-related mortality. This underscores a specific need to identify and understand novel, therapeutically tractable pathways in intestinal homeostasis that may drive CRC. Our work has introduced and elucidated the novel role of mRNA binding proteins in intestinal/colonic epithelial homeostasis, as well as aberrations including hyperproliferation, altered metabolism and transformation. LIN28B, an mRNA binding protein, also critical in embryonic stem cells, post- transcriptionally regulates the let-7 microRNA family and results in suppression of differentiation. In turn, Let-7 microRNAs have diverse mRNA targets, including IMP1 (Igf2 mRNA binding protein-1), another mRNA binding protein. We have demonstrated that LIN28B and IMP1 separately drive tumor-initiating cell phenotypes associated with their roles in regulating proliferation and differentiation during normal homeostasis; however, it remains unclear if LIN28B-mediated hyperproliferation, altered differentiation, and associated tumorigenesis requires IMP1. In addition, it remains unknown if the tumor promoting or metastatic roles of IMP1 depend entirely on its regulation by Let-7 downstream of LIN28B. Our overarching hypothesis of this proposal is that LIN28B and IMP1 comprise cooperative roles in controlling post-transcriptionally the pathways (some known) associated with epithelial cell fate, which may favor malignant transformation. We will pursue this hypothesis through the following interrelated Specific Aims:
Aim 1 : To evaluate the interdependence of LIN28B and IMP1 in proliferation, differentiation, and malignant transformation in vivo.
Aim 2 : To determine and validate common and divergent pathways mediated by LIN28B and IMP1 via RNA-Sequencing (?transcriptome?) and ribosome profiling (?translatome?) in vivo.
Aim 3 : To evaluate Let-7 dependent regulation of IMP1 to promote hyperproliferation and metastasis.
There is a compelling need to understand how the normal functions resident within intestinal/colonic epithelial cells go awry to cause excessive proliferation and transformation. The manner in which mRNA binding proteins regulate such functions opens up new opportunities to unravel new approaches to risk stratification, diagnosis and therapy.
Chatterji, Priya; Hamilton, Kathryn E; Liang, Shun et al. (2018) The LIN28B-IMP1 post-transcriptional regulon has opposing effects on oncogenic signaling in the intestine. Genes Dev 32:1020-1034 |
Mizuno, Rei; Chatterji, Priya; Andres, Sarah et al. (2018) Differential Regulation of LET-7 by LIN28B Isoform-Specific Functions. Mol Cancer Res 16:403-416 |
Chatterji, Priya; Rustgi, Anil K (2018) RNA Binding Proteins in Intestinal Epithelial Biology and Colorectal Cancer. Trends Mol Med 24:490-506 |
Giroux, VĂ©ronique; Stephan, Julien; Chatterji, Priya et al. (2018) Mouse Intestinal Krt15+ Crypt Cells Are Radio-Resistant and Tumor Initiating. Stem Cell Reports 10:1947-1958 |
Andres, Sarah F; Williams, Kathy N; Rustgi, Anil K (2018) The Molecular Basis of Metastatic Colorectal Cancer. Curr Colorectal Cancer Rep 14:69-79 |
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Hamilton, Kathryn E; Chatterji, Priya; Lundsmith, Emma T et al. (2015) Loss of Stromal IMP1 Promotes a Tumorigenic Microenvironment in the Colon. Mol Cancer Res 13:1478-86 |
Madison, Blair B; Jeganathan, Arjun N; Mizuno, Rei et al. (2015) Let-7 Represses Carcinogenesis and a Stem Cell Phenotype in the Intestine via Regulation of Hmga2. PLoS Genet 11:e1005408 |
Schnepp, Robert W; Khurana, Priya; Attiyeh, Edward F et al. (2015) A LIN28B-RAN-AURKA Signaling Network Promotes Neuroblastoma Tumorigenesis. Cancer Cell 28:599-609 |
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