Direct Regulation of Estrogen Receptor Transcriptional Activity by NF1

Abstract

The key objective of this project is to define a resistance mechanism for treating ER+ breast cancer by endocrine therapy, such as tamoxifen. This project was guided by a clinical study searching for driver mutations that promote resistance to tamoxifen, leading to the discovery that inactivating NF1 (neurofibromin) is a key factor driving resistance. This project investigates the hypothesis that inactivating NF1, previously best known as a negative regulator for Ras by acting as a GAP (GTPase Activating Protein), can not only activate Ras, but also ER by interacting with ERs co-regulators. This is a collaboration between two PIs with complementary expertise. Dr. Chang is a molecular biologist and responsible for Aim 1, which is to investigate NF1s interaction with known ER co-regulator. Dr. Ellis is a physician scientist who is responsible for Aim 2 to establish a treatment strategy to treat NF1-deficient ER+ breast cancer. We have made great stride in this project period from both aims. Briefly, we have uncovered a surprising GAP-independent activity of NF1 that it is also a co-repressor for ER. This is backed by technologically sophisticated RNA-seq and ChIP-seq experiments. As such, inactivating a single tumor suppressor NF1 can activate two powerful oncogenic pathways, which must be co-targeted for effective treatment. To this end, we demonstrate that using patient-derived xenograft model that this can be achieved by FDA-approved fulvestrant in combination with dabrafenib and trametinib.

Document Details

Document Type

Technical Report

Publication Date

Oct 01, 2019

Accession Number

AD1097576

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