Selective cellular expression of tissue factor in human tissues. Implications for disorders of hemostasis and thrombosis.

TA Drake, JH Morrissey… - The American journal of …, 1989 - ncbi.nlm.nih.gov
TA Drake, JH Morrissey, TS Edgington
The American journal of pathology, 1989ncbi.nlm.nih.gov
Tissue factor (TF), the primary cellular initiator of the coagulation protease cascade, is
implicated in having important roles in hemostasis, thrombogenesis, inflammation, and the
cellular immune response, although the cytologic distribution of TF in tissues has yet to be
described. This study used epitope-defined monoclonal antibodies to human tissue factor for
immunohistochemical localization of TF in normal human tissues. TF was selectively
expressed in tissues and was associated with cells rather than extracellular matrix. It was …
Abstract
Tissue factor (TF), the primary cellular initiator of the coagulation protease cascade, is implicated in having important roles in hemostasis, thrombogenesis, inflammation, and the cellular immune response, although the cytologic distribution of TF in tissues has yet to be described. This study used epitope-defined monoclonal antibodies to human tissue factor for immunohistochemical localization of TF in normal human tissues. TF was selectively expressed in tissues and was associated with cells rather than extracellular matrix. It was anatomically sequestered from blood, being undetectable in endothelium and peripheral blood cells. TF was present in vascular adventitia, organ capsules, epidermis, and mucosal epithelium. Most dermal and submucosal fibroblasts were negative. Except for alveolar macrophages and possibly dendritic cells of some lymphoid follicles, tissue macrophages did not express TF;(expression was demonstrable in LPS stimulated monocytes). Cerebral cortex, renal glomeruli, and cardiac myocytes were additional sites of prominent TF expression. Based on the cellular distribution of TF, it is hypothesized that intravascular initiation of coagulation requires induced expression by intravascular cells, and that the normal distribution of TF represents a hemostatic" envelope" ready to activate coagulation when vascular integrity is disrupted.
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