Estrogen responsive breast cancer cell lines have been extensively studied to characterize transcriptional patterns in hormone-responsive tumors. Nevertheless, due to current technological limitations, genome-wide studies have typically been limited to population averaged data. Here we obtain, for the first time, a characterization at the single-cell level of the states and expression signatures of a hormone-starved MCF-7 cell system responding to estrogen. To do so, we employ a recently proposed model that allows for dissecting single-cell states from time-course microarray data. We show that within 32 hours following stimulation, MCF-7 cells traverse, most likely, six states, with a faster early response followed by a progressive deceleration. We also derive the genome-wide transcriptional profiles of such single-cell states and their functional characterization. Our results support a scenario where estrogen promotes cell cycle progression by controlling multiple, sequential regulatory steps, whose single-cell events are here identified.
Single-Cell States in the Estrogen Response of Breast Cancer Cell Lines / Roberto, Amendola; Francesco Paolo, Casale; Giorgio, Giurato; Giovanni, Nassa; Jonathan W., Armond; Chris J., Oates; Davide, Corá; Gamba, ANDREA ANTONIO; Sach, Mukherjee; Alessandro, Weisz; Mario, Nicodemi. - In: PLOS ONE. - ISSN 1932-6203. - STAMPA. - 9:(2014), p. e88485. [10.1371/journal.pone.0088485]
Single-Cell States in the Estrogen Response of Breast Cancer Cell Lines
GAMBA, ANDREA ANTONIO;
2014
Abstract
Estrogen responsive breast cancer cell lines have been extensively studied to characterize transcriptional patterns in hormone-responsive tumors. Nevertheless, due to current technological limitations, genome-wide studies have typically been limited to population averaged data. Here we obtain, for the first time, a characterization at the single-cell level of the states and expression signatures of a hormone-starved MCF-7 cell system responding to estrogen. To do so, we employ a recently proposed model that allows for dissecting single-cell states from time-course microarray data. We show that within 32 hours following stimulation, MCF-7 cells traverse, most likely, six states, with a faster early response followed by a progressive deceleration. We also derive the genome-wide transcriptional profiles of such single-cell states and their functional characterization. Our results support a scenario where estrogen promotes cell cycle progression by controlling multiple, sequential regulatory steps, whose single-cell events are here identified.Pubblicazioni consigliate
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https://hdl.handle.net/11583/2542306
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