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2: Importance of CD49d-VCAM interactions in human monocyte adhesion to porcine endothelium. Kwiatkowski P, Artrip JH, Ankersmit J, Schuster M, John R, Wang SF, Ma N, Michler RE, Itescu S; Xenotransplantation 1998 Feb;5(1):67-74. Pubmed Link By using a primate model of natural
antibody depletion, we have previously shown that delayed rejection of
porcine cardiac xenografts in unmodified primate recipients resulted from
xenograft infiltration with monocyte/macrophage lineage cells. In the
present study, we initially showed that human monocytes/macrophages
demonstrated significantly greater adherence to unstimulated pig aortic
endothelial cells (PAEC) than to human umbilical vein endothelial cells (HUVEC).
Human TNF-alpha augmented monocyte adhesion to HUVEC by 5-fold higher
levels than to PAEC. This effect could not be explained on the basis of
incompatibility between human TNF-alpha and its receptor on PAEC since
porcine VCAM expression increased by 75-85% after stimulation with
TNF-alpha. TNF-augmented monocyte adherence was abrogated by either
treatment of PAEC with an anti-VCAM Mab or monocytes with an anti-CD49d
Mab. These results suggest that VCAM-CD49d interactions are important in
adhesion of human monocytes to PAEC but may not be as effective as those
between human monocytes and allogeneic endothelium, perhaps because of
structural differences across species. Other interactions, as yet
undefined, must explain the relative increase in adhesiveness of human
monocytes for unstimulated PAEC versus HUVEC. In experiments investigating
the functional consequences of this enhanced monocyte adherence, PAEC
stimulation induced 10-fold higher levels of macrophage-derived IL-1 beta
and 3-fold higher levels of T cell proliferation compared with HUVEC.
Using an anti-DR Mab to interrupt antigen presentation by autologous
macrophages markedly reduced the T cell proliferative response to PAEC.
Together, these results indicate that the enhanced adherence of human
monocytes to PAEC contributes to xenograft rejection beyond the hyperacute
period by leading to tissue infiltration, elaboration of cytokines, and an
augmented indirect pathway of T cell xenoantigen
recognition. a PDF of this paper can be provided upon request |
