Probing the biomechanical contribution of the endothelium to lymphocyte migration: diapedesis by the path of least resistance

Probing the biomechanical contribution of the endothelium to lymphocyte migration: diapedesis by the path of least resistance

Immune cell trafficking requires the frequent breaching of the endothelial barrier either directly through individual cells ('transcellular' route) or through the inter-endothelial junctions ('paracellular' route). What determines the loci or route of breaching events is an open...

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Bibliographic Details
Published in:Journal of cell science Vol. 127; no. Pt 17; pp. 3720 - 3734
Main Authors: Martinelli, Roberta, Zeiger, Adam S, Whitfield, Matthew, Sciuto, Tracey E, Dvorak, Ann, Van Vliet, Krystyn J, Greenwood, John, Carman, Christopher V
Format: Journal Article
Language:English
Published: England The Company of Biologists 01-09-2014
Subjects:
Actins - metabolism
Animals
Biomechanical Phenomena
Cell Movement - physiology
Endothelial Cells - cytology
Endothelial Cells - metabolism
Endothelium, Vascular - cytology
Endothelium, Vascular - metabolism
Leukocytes - metabolism
Lymphocytes - cytology
Lymphocytes - metabolism
Rats
Barrier
Stiffness
Actin
Leukocyte
Migration
Endothelium
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Summary:Immune cell trafficking requires the frequent breaching of the endothelial barrier either directly through individual cells ('transcellular' route) or through the inter-endothelial junctions ('paracellular' route). What determines the loci or route of breaching events is an open question with important implications for overall barrier regulation. We hypothesized that basic biomechanical properties of the endothelium might serve as crucial determinants of this process. By altering junctional integrity, cytoskeletal morphology and, consequently, local endothelial cell stiffness of different vascular beds, we could modify the preferred route of diapedesis. In particular, high barrier function was associated with predominantly transcellular migration, whereas negative modulation of junctional integrity resulted in a switch to paracellular diapedesis. Furthermore, we showed that lymphocytes dynamically probe the underlying endothelium by extending invadosome-like protrusions (ILPs) into its surface that deform the nuclear lamina, distort actin filaments and ultimately breach the barrier. Fluorescence imaging and pharmacologic depletion of F-actin demonstrated that lymphocyte barrier breaching efficiency was inversely correlated with local endothelial F-actin density and stiffness. Taken together, these data support the hypothesis that lymphocytes are guided by the mechanical 'path of least resistance' as they transverse the endothelium, a process we term 'tenertaxis'.
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ISSN:0021-9533
1477-9137
DOI:10.1242/jcs.148619