Localization Of Thrombomodulin Research Articles

Functions of Rhomboid Family Protease RHBDL2 and Thrombomodulin in Wound Healing

The expression of thrombomodulin (TM), a membrane glycoprotein, is upregulated in neoepidermis during cutaneous wound healing. Rhomboid-like-2 (RHBDL2), an intramembrane serine protease, specifically cleaves TM at the transmembrane domain and causes the release of soluble TM (sTM). However, the physiological functions of TM and RHBDL2 in wound healing remain unclear. We demonstrated that both TM and RHBDL2 are upregulated in HaCaT cells stimulated by scratch wounds; furthermore, increased sTM was found in culture medium. Conversely, inhibition of RHBDL2 by 3,4-dichloroisocoumarin (DCI) or short hairpin RNA significantly inhibited wound-induced TM ectodomain shedding and wound healing. Both conditioned media from multiple-scratch-wounded HaCaT and recombinant sTM accelerated wound healing in HaCaT cells; such effects were abrogated by anti-TM antibodies. The RNA released from injured cells is involved in the induction of TM and RHBDL2. RHBDL2 and sTM were upregulated in ex vivo tissue culture of the injured skin. Furthermore, DCI inhibited sTM production and wound healing; this was reversed by recombinant sTM in mice. Thus, RHBDL2 and TM have important roles in wound healing via the release of sTM from keratinocytes; this may function as an autocrine/paracrine signal promoting wound healing.

Localization of thrombomodulin in pericryptal fibroblasts of the rat duodenum.

Thrombomodulin (TM) contributes to the inactivation of thrombin which activates protein C, a major anticoagulant and anti-inflammatory protein. This report describes the distribution and localization of TM in the rat duodenum by light and electron microscopic immunohistochemistry. In addition to the endothelium of the entire vasculature, TM was found on the non-vascular structures, cellular networks of pericryptal fibroblasts surrounding the bases of the glandular crypts. TM was localized on the plasma membrane of the pericryptal fibroblasts which existed in the pericryptal spaces between the basal lamina of the epithelium and the collagenous sheets around the base of the crypt. TM-immunoreactive pericryptal fibroblasts were stellate-shaped cells and contacted with each other by their cytoplasmic processes forming an anastomosing syncytium around the base of the crypt. In contrast to pericryptal fibroblasts, TM was not localized in subepithelial fibroblasts in the villi or smooth muscle cells in the lamina muscularis mucosae and the muscularis. The functional significance of TM in pericryptal fibroblasts is discussed.

Heterogeneous distribution of thrombomodulin and von Willebrand factor in endothelial cells in the human pulmonary microvessels.

Laser scanning confocal fluorescence microscopy techniques were used to study the localization of von Willebrand factor (vWf; Factor VIII-related antigen) and thrombomodulin (transmembrane receptor for thrombin) in the microvascular endothelial cells in the normal human lung. Tissues were obtained from lobectomy specimens resected for solitary nodules (7 adenocarcinomas and 4 hamartomas) from 11 patients. The plasma membranes of the capillary endothelial cells in the alveolar zones (A-zones) showed red linear fluorescence for thrombomodulin. However, their cytoplasm was mostly unreactive for vWf. The microvessels which were located in the connective tissue (C-zones), including peribronchial, and subpleural areas and large vascular walls, consistently demonstrated band-like green fluorescence for vWf in their cytoplasm, and their plasma membranes usually lacked reactivity for thrombomodulin. Only a limited number of peribronchial capillaries measuring <10 microm in diameter showed a mosaic-like appearance, in which red fluorescence along the plasma membranes was found together with green fluorescence in the subjacent cytoplasm. In the juxtaalveolar (J-zones) microvessels located along the borders between A- and C-zones, and measuring up to 40 microm in diameter, the endothelial cells showed a mosaic-like pattern of distribution of the two antigens. However, the localization of thrombomodulin in the J-zone microvessels was separate and independent from that of vWf. The thrombomodulin-reactive cells were directly connected to the alveolar capillary endothelial cells. Heterogeneous patterns of distribution of thrombomodulin and vWf suggest that topographic differences of endothelial function occur to maintain a balance of coagulation and anticoagulation in the normal human lung.

Expression and localization of thrombomodulin in preneoplastic bronchial lesions and in lung cancer.

Thrombomodulin (TM) is an endothelial surface glycoprotein that acts as a natural anticoagulant. It inhibits thrombin and accelerates the activation of the anticoagulant protein C. TM has been detected in dermal keratinocytes, where it is associated with terminal differentiation. It can also be detected in various types of squamous malignant neoplasms and in malignancies of endothelial and mesothelial origin, such as Kaposi's sarcoma or malignant mesothelioma, but is absent in pulmonary adenocarcinomas (AC). Seventy-two lung tumour specimens [33 squamous cell carcinomas (SQCC), 23 AC, 1 large cell carcinoma, 8 small cell lung cancers (SCLC) and 7 multidifferentiated tumours (MT)] were analysed immunohistochemically by staining with an anti-TM antibody in order to assess TM expression. All of the SQCC stained positively for TM. In contrast, only 9 AC and 4 MT and none of the SCLC showed positive anti-TM staining. Seven hyperplastic bronchial epithelial specimens and eight preneoplastic bronchial lesions (five cases of moderate dysplasia, two cases of severe dysplasia and one case of carcinoma in situ) were used as controls. Normal or hyperplastic areas of bronchial epithelium revealed no positive reaction. However, a distinct positive anti-TM staining pattern related to the degree of keratiniziation of dysplastic lesions was seen. The present results suggest that anti-TM immunostaining is a useful marker for squamous cell carcinoma in the differential diagnosis of pulmonary carcinoma, also indicating keratinocyte differentiation in dysplastic bronchial epithelium.

Localization of thrombomodulin in a rabbit eye.

To show the distribution of an anticoagulant factor, thrombomodulin, in a rabbit eye. Immunohistochemical staining using polyclonal anti-rabbit thrombomodulin antibody was performed with the excised eyes of pigmented adult rabbits. Streptavidin-biotin method was used to obtain intense staining. The endothelium of the chorioretinal vessels showed positive linear staining. The ciliary non-pigmented epithelium showed granular staining, while the pigmented epithelium stained negatively. The positive staining was also detected in the trabecular plexus endothelium. The vascular endothelium of the ciliary body stained weakly. It is suggested that thrombomodulin in the vessel walls and the aqueous drainage apparatus works to maintain normal blood fluidity and aqueous outflow. The role of nonvascular thrombomodulin in the ciliary non-pigmented epithelium is unclear.

Thrombomodulin activity and localization.

An overview on the properties, actions and localization of thrombomodulin (TM) in situations of tissue injury and in selected tumors is presented. The localization and activity of TM after injury to vascular endothelium shows that following balloon catheter denudation of the endothelium of the rabbit aorta, the activity and immunohistochemical staining is markedly reduced. The functional and antigenic levels approach the control levels approximately one week after the initial injury. The results suggest that the neointimal smooth muscle cells express TM. This phenotypic plasticity of the neointimal smooth muscle cells may be important in conferring thrombo-resistance to the lumenal lining cells of vessels after injury. Studies are also reviewed on the use of soluble recombinant TM to prevent thrombosis after ligature of vessels in an experimental model. Further characterization on the immunohistochemical distribution of TM in normal tissues and tumors shows that staining with a monoclonal anti TM antibody can be very useful in separating mesotheliomas from pulmonary adenocarcinomas. These studies may lead to insights concerning the role of TM in tissue-injury-repair and tissue differentiation.