Protein Signaling Networks from Single Cell Fluctuations and Information Theory Profiling

Citation:

Shin YS, Remacle F, Fan R, Hwang K, Wei W, Ahmad H, LEVINE RD, Heath JR. Protein Signaling Networks from Single Cell Fluctuations and Information Theory Profiling. BIOPHYSICAL JOURNAL. 2011;100 :2378-2386.

Date Published:

MAY 18

Abstract:

Protein signaling networks among cells play critical roles in a host of pathophysiological processes, from inflammation to tumorigenesis. We report on an approach that integrates microfluidic cell handling, in situ protein secretion profiling, and information theory to determine an extracellular protein-signaling network and the role of perturbations. We assayed 12 proteins secreted from human macrophages that were subjected to lipopolysaccharide challenge, which emulates the macrophage-based innate immune responses against Gram-negative bacteria. We characterize the fluctuations in protein secretion of single cells, and of small cell colonies (n = 2, 3, ... ), as a function of colony size. Measuring the fluctuations permits a validation of the conditions required for the application of a quantitative version of the Le Chatelier's principle, as derived using information theory. This principle provides a quantitative prediction of the role of perturbations and allows a characterization of a protein-protein interaction network.