Zahra Mamdouh scite author profile

CD99 is a heavily O-glycosylated 32-kD type I transmembrane protein that is expressed on most hematopoietic cells. We show here that CD99 is expressed on endothelial cells and is concentrated at the borders between confluent cells. We found that a monoclonal antibody to CD99, hec2, selectively inhibited diapedesis of monocytes across endothelial cells by >90%. Diapedesis involved the homophilic interaction of CD99 on monocytes with CD99 on endothelial junctions. CD99 functioned distally to the point at which platelet-endothelial cell adhesion molecule 1 (PECAM-1, also known as CD31), another adhesion molecule involved in transmigration, played its critical role. Confocal microscopy showed that anti-PECAM-1 arrested leukocytes on the apical surface of endothelium, whereas blocking CD99 arrested monocytes at a point where they were partially through the junction. Therefore, diapedesis, the forward migration of leukocytes through endothelial junctions, is regulated sequentially by two distinct molecules, PECAM-1 and CD99.

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Targeted recycling of PECAM from endothelial surface-connected compartments during diapedesis

Mamdouh

Chen

Pierini

et al. 2003

Nature

282

400

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Leukocytes enter sites of inflammation by squeezing through the borders between endothelial cells that line postcapillary venules at that site. This rapid process, called transendothelial migration (TEM) or diapedesis, is completed within 90 s after a leukocyte arrests on the endothelial surface. In this time, the leukocyte moves in ameboid fashion across the endothelial borders, which remain tightly apposed to it during transit. It is not known how the endothelial cell changes its borders rapidly and reversibly to accommodate the migrating leukocyte. Here we show that there is a membrane network just below the plasmalemma at the cell borders that is connected at intervals to the junctional surface. PECAM-1, an integral membrane protein with an essential role in TEM, is found in this compartment and constitutively recycles evenly along endothelial cell borders. During TEM, however, recycling PECAM is targeted to segments of the junction across which monocytes are in the act of migration. In addition, blockade of TEM with antibodies against PECAM specifically blocks the recruitment of this membrane to the zones of leukocyte migration, without affecting the constitutive membrane trafficking.

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Locomotion of monocytes on endothelium is a critical step during extravasation

2004

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Monocytes, like all leukocytes, undergo a series of sequential steps during extravasation from blood into tissues: tethering, rolling, adhesion and diapedesis. We have discovered an essential step, which we call locomotion, in which the monocyte moves from a site of firm adhesion to the nearest junction to begin diapedesis. Blocking CD11a-CD18 and CD11b-CD18 on human monocytes or adhesion molecules ICAM-1 and ICAM-2 on endothelial cells prevented the monocytes from reaching junctions. The blocked monocytes spun in circles as if they were unable to direct their movement despite being able to adhere and polarize normally. This step fills a gap in the paradigm of extravasation as a multistep process.

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Transcellular migration of leukocytes is mediated by the endothelial lateral border recycling compartment

2009

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Leukocyte migration across endothelial cell borders (paracellular) and through endothelial cells (transcellular) appear to be distinct processes. During paracellular migration, membrane from a parajunctional reticulum of interconnected vesicles, the endothelial lateral border recycling compartment (LBRC), moves to surround the leukocyte in a kinesin-mediated, microtubule-dependent manner. We show that transcellular migration likewise requires targeted trafficking of LBRC membrane. We show that in addition to platelet/endothelial cell adhesion molecule (PECAM; CD31), CD99 and junctional adhesion molecule A (JAM-A), but apparently not vascular endothelial cell–specific cadherin (cadherin 5, CD144), are components of the LBRC. During transcellular migration, LBRC membrane invests the transmigrating leukocyte. Intracellular adhesion molecule 1 (ICAM-1) on the apical endothelial surface is enriched around adherent leukocytes. Depolymerization of microtubules has no effect on ICAM-1 enrichment but blocks targeted trafficking of LBRC membrane and transcellular migration by >90%. Similar to their effects on paracellular transmigration, antibodies against PECAM or CD99, but not JAM-A, block transcellular migration. We conclude that similar molecular mechanisms promote both para- and transcellular migration.

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Zahra Mamdouh

CD99 plays a major role in the migration of monocytes through endothelial junctions

Targeted recycling of PECAM from endothelial surface-connected compartments during diapedesis

Locomotion of monocytes on endothelium is a critical step during extravasation

Transcellular migration of leukocytes is mediated by the endothelial lateral border recycling compartment

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