Cell division in tissues enables macrophage infiltration

Maria Akhmanova(Institute of Science and Technology Austria), Shamsi Emtenani(Institute of Science and Technology Austria), Daniel Krueger(European Molecular Biology Laboratory), Attila Gyoergy(Institute of Science and Technology Austria), Mariana Guarda(Institute of Science and Technology Austria), Mikhail Vlasov(Institute of Science and Technology Austria), Fedor Vlasov(Institute of Science and Technology Austria), Andrei Akopian(Institute of Science and Technology Austria), Aparna Ratheesh(Institute of Science and Technology Austria), Stefano De Renzis(European Molecular Biology Laboratory), Daria E. Siekhaus(Institute of Science and Technology Austria)
Science
April 21, 2022
10.1126/science.abj0425
Cited by 44Open Access
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Abstract

Cells migrate through crowded microenvironments within tissues during normal development, immune response, and cancer metastasis. Although migration through pores and tracks in the extracellular matrix (ECM) has been well studied, little is known about cellular traversal into confining cell-dense tissues. We find that embryonic tissue invasion by Drosophila macrophages requires division of an epithelial ectodermal cell at the site of entry. Dividing ectodermal cells disassemble ECM attachment formed by integrin-mediated focal adhesions next to mesodermal cells, allowing macrophages to move their nuclei ahead and invade between two immediately adjacent tissues. Invasion efficiency depends on division frequency, but reduction of adhesion strength allows macrophage entry independently of division. This work demonstrates that tissue dynamics can regulate cellular infiltration.

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