3D Micro-environment Regulates NF-κβ Dependent Adhesion to Induce Monocyte Differentiation

Overview

Journal Cell Death Dis

Specialties Cell Biology
General Medicine

Date 2018 Sep 13

PMID 30206232

Citations 13

Authors

Anindita Bhattacharya

Mahesh Agarwal

Rachita Mukherjee

Prosenjit Sen

Deepak Kumar Sinha

Affiliations

Soon will be listed here.

Abstract

Differentiation of monocytes entails their relocation from blood to the tissue, hence accompanied by an altered physicochemical micro-environment. While the mechanism by which the biochemical make-up of the micro-environment induces differentiation is known, the fluid-like to gel-like transition in the physical micro-environment is not well understood. Monocytes maintain non-adherent state to prevent differentiation. We establish that irrespective of the chemical makeup, a 3D gel-like micro-environment induces a positive-feedback loop of adhesion-MAPK-NF-κβ activation to facilitate differentiation. In 2D fluid-like micro-environment, adhesion alone is capable of inducing differentiation via the same positive-feedback signaling. Chemical inducer treatment in fluid-like micro-environment, increases the propensity of monocyte adhesion via a brief pulse of p-MAPK. The adhesion subsequently elicit differentiation, establishing that adhesion is both necessary and sufficient to induce differentiation in 2D/3D micro-environment. MAPK, and NF-κβ being key molecules of multiple signaling pathways, we hypothesize that biochemically inert 3D gel-like micro-environment would also influence other cellular functions.

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