A novel mouse model of diverse tumors derived from epithelial cells

Bin Wang; Lingxiang Wang; Yang Liu; Yasmin Jahan-mihan; Gordon He; Yuxi Wang; Jie Hu; Jiale Wang; Yan Bi; Baoan Ji

doi:10.14814/phy2.70289

A novel mouse model of diverse tumors derived from epithelial cells

Bin Wang
, Lingxiang Wang
, Yang Liu
, Yasmin Jahan-mihan
, Gordon He
, Yuxi Wang
, Jie Hu
, Jiale Wang
, Yan Bi
, Baoan Ji

Research output: Contribution to journal › Article › peer-review

Abstract

A deeper understanding of pathophysiology, from the initiation of tumors of epithelial cells to the outcomes associated with it, is imperative to test potential interventions for these diseases. However, few models can accomplish this because of the complexity of origin cells and their transformation. We established an epithelial cell original tumor mouse model by conditional Kras^G12D activation and tumor suppressor gene p53 deletion specifically in epithelial cells of the whole body using Cytokeratin 19 (CK19) promoter via Cre-ERT mediation. Multiple tumors derived from epithelial cells developed in this novel model. This model can recapitulate the progress of intestinal, pancreatic, liver, lung, and subcutaneous tumors which derive from epithelial cells. This model is suitable for studying the pathophysiology of tumors derived from epithelial cells and may have the potential to test interventions.

Original language	English (US)
Article number	e70289
Journal	Physiological reports
Volume	13
Issue number	7
DOIs	https://doi.org/10.14814/phy2.70289
State	Published - Apr 2025

Keywords

CRISPR
Cytokeratin 19
Kras
p53
tumors

ASJC Scopus subject areas

Physiology
Physiology (medical)

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10.14814/phy2.70289

Cite this

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title = "A novel mouse model of diverse tumors derived from epithelial cells",

abstract = "A deeper understanding of pathophysiology, from the initiation of tumors of epithelial cells to the outcomes associated with it, is imperative to test potential interventions for these diseases. However, few models can accomplish this because of the complexity of origin cells and their transformation. We established an epithelial cell original tumor mouse model by conditional KrasG12D activation and tumor suppressor gene p53 deletion specifically in epithelial cells of the whole body using Cytokeratin 19 (CK19) promoter via Cre-ERT mediation. Multiple tumors derived from epithelial cells developed in this novel model. This model can recapitulate the progress of intestinal, pancreatic, liver, lung, and subcutaneous tumors which derive from epithelial cells. This model is suitable for studying the pathophysiology of tumors derived from epithelial cells and may have the potential to test interventions.",

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author = "Bin Wang and Lingxiang Wang and Yang Liu and Yasmin Jahan-mihan and Gordon He and Yuxi Wang and Jie Hu and Jiale Wang and Yan Bi and Baoan Ji",

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AU - Wang, Bin

AU - Wang, Lingxiang

AU - Liu, Yang

AU - Jahan-mihan, Yasmin

AU - He, Gordon

AU - Wang, Yuxi

AU - Hu, Jie

AU - Wang, Jiale

AU - Bi, Yan

AU - Ji, Baoan

PY - 2025/4

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AB - A deeper understanding of pathophysiology, from the initiation of tumors of epithelial cells to the outcomes associated with it, is imperative to test potential interventions for these diseases. However, few models can accomplish this because of the complexity of origin cells and their transformation. We established an epithelial cell original tumor mouse model by conditional KrasG12D activation and tumor suppressor gene p53 deletion specifically in epithelial cells of the whole body using Cytokeratin 19 (CK19) promoter via Cre-ERT mediation. Multiple tumors derived from epithelial cells developed in this novel model. This model can recapitulate the progress of intestinal, pancreatic, liver, lung, and subcutaneous tumors which derive from epithelial cells. This model is suitable for studying the pathophysiology of tumors derived from epithelial cells and may have the potential to test interventions.

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KW - Cytokeratin 19

KW - Kras

KW - p53

KW - tumors

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A novel mouse model of diverse tumors derived from epithelial cells

Abstract

Keywords

ASJC Scopus subject areas

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