Functional plasticity of macrophages: in situ reprogramming of tumor-associated macrophages

AUTOR(ES)

Stout, Robert D.

FONTE

The Society for Leukocyte Biology

RESUMO

The extent to which the functional heterogeneity of Mϕs is dependent on the differentiation of functional sublineages remains unresolved. One alternative hypothesis proposes that Mϕs are functionally plastic cells, which are capable of altering their functional activities progressively in response to progressively changing signaling molecules generated in their microenvironment. This “functional plasticity” hypothesis predicts that the functionally polarized Mϕs in chronic pathologies do not represent Mϕ sublineages but rather, are mutable phenotypes sustained by chronic signaling from the pathological environment. Solid TAMϕs are chronically polarized to provide activities that support tumor growth and metastasis and suppress adaptive immune responses. In support of the functional plasticity hypothesis, administration of slow-release microsphere-encapsulated IL-12 successfully reprogrammed TAMϕs in situ, reducing Mϕ support of tumor growth and metastasis and enhancing Mϕ proimmunogenic activities. Increased knowledge of how Mϕ function is regulated and how polarized Mϕs can be reprogrammed in situ will increase our ability to control Mϕ function in a variety of pathological states, including cancer and chronic inflammatory disease.

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