Nodes-and-connections RNAi knockdown screening: identification of a signaling molecule network involved in fulvestrant action and breast cancer prognosis
N Miyoshi, B S Wittner, K Shioda, T Hitora, T Ito, S Ramaswamy, K J Isselbacher, D C Sgroi, T Shioda

TL;DR
A new RNAi screening method identifies a network of signaling molecules involved in breast cancer treatment and prognosis.
Contribution
The nodes-and-connections RNAi screening approach systematically maps target interactions to reveal signaling networks relevant to drug action and prognosis.
Findings
A 19-node interaction map was generated, involving death-associated protein kinases (DAPKs) and related signaling molecules.
Five experimentally validated nodes and three predicted nodes showed significant prognostic value in breast cancer.
Synchronized expression of 10 nodal proteins in breast cancer tissues supports their functional interactions.
Abstract
Although RNA interference (RNAi) knockdown screening of cancer cell cultures is an effective approach to predict drug targets or therapeutic/prognostic biomarkers, interactions among identified targets often remain obscure. Here, we introduce the nodes-and-connections RNAi knockdown screening that generates a map of target interactions through systematic iterations of in silico prediction of targets and their experimental validation. An initial RNAi knockdown screening of MCF-7 human breast cancer cells targeting 6560 proteins identified four signaling molecules required for their fulvestrant-induced apoptosis. Signaling molecules physically or functionally interacting with these four primary node targets were computationally predicted and experimentally validated, resulting in identification of four second-generation nodes. Three rounds of further iterations of the…
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Taxonomy
TopicsComputational Drug Discovery Methods · RNA Research and Splicing · Bioinformatics and Genomic Networks
