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Merck
  • BCL9/STAT3 regulation of transcriptional enhancer networks promote DCIS progression.

BCL9/STAT3 regulation of transcriptional enhancer networks promote DCIS progression.

NPJ breast cancer (2020-05-01)
Hanan S Elsarraj, Yan Hong, Darlene Limback, Ruonan Zhao, Jenna Berger, Stephanie C Bishop, Aria Sabbagh, Linzi Oppenheimer, Haleigh E Harper, Anna Tsimelzon, Shixia Huang, Susan G Hilsenbeck, Dean P Edwards, Joseph Fontes, Fang Fan, Rashna Madan, Ben Fangman, Ashley Ellis, Ossama Tawfik, Diane L Persons, Timothy Fields, Andrew K Godwin, Christy R Hagan, Katherine Swenson-Fields, Cristian Coarfa, Jeffrey Thompson, Fariba Behbod
초록

The molecular processes by which some human ductal carcinoma in situ (DCIS) lesions advance to the more aggressive form, while others remain indolent, are largely unknown. Experiments utilizing a patient-derived (PDX) DCIS Mouse INtraDuctal (MIND) animal model combined with ChIP-exo and RNA sequencing revealed that the formation of protein complexes between B Cell Lymphoma-9 (BCL9), phosphoserine 727 STAT3 (PS-727-STAT3) and non-STAT3 transcription factors on chromatin enhancers lead to subsequent transcription of key drivers of DCIS malignancy. Downregulation of two such targets, integrin β3 and its associated metalloproteinase, MMP16, resulted in a significant inhibition of DCIS invasive progression. Finally, in vivo targeting of BCL9, using rosemary extract, resulted in significant inhibition of DCIS malignancy in both cell line and PDX DCIS MIND animal models. As such, our studies provide compelling evidence for future testing of rosemary extract as a chemopreventive agent in breast cancer.

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Sigma-Aldrich
MISSION® esiRNA, targeting human ITGAV
Sigma-Aldrich
MISSION® esiRNA, targeting human ITGB3, RP11-290H9.2
Sigma-Aldrich
MISSION® esiRNA, targeting human MMP16