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Matrix stiffness exerts biphasic control over monocyte-endothelial adhesion via Rho-mediated ICAM-1 clustering. | LitMetric

AI Article Synopsis

  • Leukocyte-endothelial adhesion is a key process in chronic vascular inflammation linked to conditions like diabetes and aging, with abnormal matrix stiffness playing a potential role.
  • Research shows that both softer and stiffer matrices significantly increase monocyte-endothelial cell adhesion through enhanced clustering of ICAM-1, a protein essential for this interaction.
  • The study highlights that controlling the pathways related to matrix stiffness and ICAM-1 clustering could be vital for developing new anti-inflammatory treatments.

Article Abstract

Leukocyte-endothelial adhesion is a critical early step in chronic vascular inflammation associated with diabetes, emphysema, and aging. Importantly, these conditions are also marked by abnormal subendothelial matrix crosslinking (stiffness). Yet, whether and how abnormal matrix stiffness contributes to leukocyte-endothelial adhesion remains poorly understood. Using a co-culture of human monocytic cells and human microvascular endothelial cells (ECs) grown on matrices of tunable stiffness, we demonstrate that matrix stiffness exerts biphasic control over monocyte-EC adhesion, with both matrix softening and stiffening eliciting a two-fold increase in this adhesive interaction. This preferential endothelial adhesivity on softer and stiffer matrices was consistent with a significant increase in α-actinin-4-associated endothelial ICAM-1 clustering, a key determinant of monocyte-EC adhesion. Further, the enhanced ICAM-1 clustering on soft and stiff matrices correlated strongly with an increase in Rho activity and ROCK2 expression. Importantly, inhibition of Rho/ROCK activity blocked the effects of abnormal matrix stiffness on ICAM-1 clustering and monocyte-EC adhesion. Thus, these findings implicate matrix stiffness-dependent ICAM-1 clustering as an important regulator of vascular inflammation and provide the rationale for closely examining mechanotransduction pathways as new molecular targets for anti-inflammatory therapy.

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Source
http://dx.doi.org/10.1039/c6ib00084cDOI Listing

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