Your search keyword '"Chu, Tinyi"' showing total 2 results

1. A bi-stable feedback loop between GDNF, EGR1, and ERα contribute to endocrine resistant breast cancer.

Author

Horibata, Sachi, Rice, Edward J., Zheng, Hui, Mukai, Chinatsu, Chu, Tinyi, Marks, Brooke A., Coonrod, Scott A., and Danko, Charles G.

Subjects

HUMAN genes, BREAST cancer, ENDOCRINE glands, TRANSCRIPTION factors, GLIAL cell line-derived neurotrophic factor

Abstract

Discovering regulatory interactions between genes that specify the behavioral properties of cells remains an important challenge. We used the dynamics of transcriptional changes resolved by PRO-seq to identify a regulatory network responsible for endocrine resistance in breast cancer. We show that GDNF leads to endocrine resistance by switching the active state in a bi-stable feedback loop between GDNF, EGR1, and the master transcription factor ERα. GDNF stimulates MAP kinase, activating the transcription factors SRF and AP-1. SRF initiates an immediate transcriptional response, activating EGR1 and suppressing ERα. Newly translated EGR1 protein activates endogenous GDNF, leading to constitutive GDNF and EGR1 up-regulation, and the sustained down-regulation of ERα. Endocrine resistant MCF-7 cells are constitutively in the GDNF-high/ ERα-low state, suggesting that the state in the bi-stable feedback loop may provide a ‘memory’ of endocrine resistance. Thus, we identified a regulatory network switch that contributes to drug resistance in breast cancer. [ABSTRACT FROM AUTHOR]

Published

2018

2. Physical confinement induces malignant transformation in mammary epithelial cells.

Author

Lu, Yen-Chun, Chu, Tinyi, Hall, Matthew S., Fu, Dah-Jiun, Shi, Quanming, Chiu, Alan, An, Duo, Wang, Long-Hai, Pardo, Yehudah, Southard, Teresa, Danko, Charles G., Liphardt, Jan, Nikitin, Alexander Yu, Wu, Mingming, Fischbach, Claudia, Coonrod, Scott, and Ma, Minglin

Subjects

*EPITHELIAL cells, *MAMMARY glands, *CELL proliferation, *TUMOR microenvironment, *BREAST cancer, *CANCER invasiveness

Abstract

The physical microenvironment of tumor cells plays an important role in cancer initiation and progression. Here, we present evidence that confinement – a new physical parameter that is apart from matrix stiffness - can also induce malignant transformation in mammary epithelial cells. We discovered that MCF10A cells, a benign mammary cell line that forms growth-arrested polarized acini in Matrigel, transforms into cancer-like cells within the same Matrigel material following confinement in alginate shell hydrogel microcapsules. The confined cells exhibited a range of tumor-like behaviors, including uncontrolled cellular proliferation and invasion. Additionally, 4–6 weeks after transplantation into the mammary fad pads of immunocompromised mice, the confined cells formed large palpable masses that exhibited histological features similar to that of carcinomas. Taken together, our findings suggest that physical confinement represents a previously unrecognized mechanism for malignancy induction in mammary epithelial cells and also provide a new, microcapsule-based, high throughput model system for testing new breast cancer therapeutics. [ABSTRACT FROM AUTHOR]

Published

2019