Endothelial Cells ; Fibrosis ; Humans ; Mesenchymal Stromal Cells ; Myocardium ; pathology

OBJECTIVETo evaluate the feasibility of using cultured corneal endothelial cell (CECs) transplantation for cornea endothelium cell destruction with Gelatin membrane as the carrier in rabbits.

METHODSThe cultured CECs were labeled by Brdu and subcultured in vitro on glutaraldehyde-fixed Gelatin membranes and then the membranes were glued by alpha-cyanoacrylate alkyl to 7.00 mm autologous rabbit corneal bottons whose endothelium were mechanically removed previously. The buttons were sutured in place. With this method the right eyes of 21 rabbits were transplanted with CECs, and the right eyes of another 17 rabbits were transplanted with non-cells carrier as controls. The rabbits were bred and observed by slit microscopy and confocal microscopy at 1, 2, 4, 8, and 12 weeks after surgeries. Also, introcular pressure and corneal thickness were measured by Perkin's tonometer and ultrasonic pachymeter. After 12 weeks, all the animals were sacrificed and the grafts were examined by light microscopy and electronic microscopy.

RESULTSCECs grew well on the gelatine memberane, and formed confluent monolayers in 3-5 days; the cell density reached as high as 2700 cells/mm2. After 2 weeks of operation, all corneal buttons were edema and began to be opaque. The control eyes remained opaque throughout the observation period. In eyes with CECs transplanted, the grafts began to be clear and thin 4 weeks after operation. The cell density of grafts decreased along with time, and the mean cell density of CECs transplantation buttons was (2023.3 +/- 330.3) cells/mm2 12 weeks after operation. The transplanted cells were stained with the anti-Brdu monoclonal antibody.

CONCLUSIONIt is feasible to culture and translate CECs with the Gelatin membrane.

Animals ; Cells, Cultured ; Corneal Endothelial Cell Loss ; pathology ; therapy ; Endothelial Cells ; transplantation ; Endothelium, Corneal ; cytology ; Rabbits

This study investigated the "homing" phenomenon in hepatocellular carcinoma (HCC). The "homing" specificity of endothelial progenitor cells (EPC) by establishing an orthotopic implantation model in nude mice. EPCs harvested from the marrow cells were separated by density gradient centrifugation. Fluorescence microscope, flow cytometry (FCM) and double fluorescence staining with FITC-UEA-I and DiI-ac-LDL, were employed to identify the cells. 4',6-diamidino-2-phenylindole (DAPI) labelling and real-time PCR were used for detecting the expression of CD133 and chemokines to trace and observe the distribution of EPCs. Our results showed that the distribution rate of EPCs was obviously higher than that in other important organs and the negative control group. Detection of CD133 and chemokines yielded similar results in difference tissues. Our experiment confirmed that the chemotaxis of EPCs does exist in HCC. Moreover, HIF-1α, SDF-1 and VEGF might play important roles in the "homing" of EPCs in HCC. EPCs might be a potential candidate for targeting vector of HCC for gene therapy.
Animals ; Endothelial Cells ; pathology ; Liver Neoplasms ; pathology ; Mice ; Mice, Inbred C57BL ; Mice, Nude ; Stem Cells ; pathology

Endothelial Cells ; metabolism ; pathology ; Humans ; Sepsis ; metabolism ; physiopathology

Endoplasmic reticulum stress (ERS) is a new pathway of apoptosis following the discovery of death receptor signaling pathway and mitochondrial pathway. By activating the unfolded protein response (UPR), ERS can suspend protein synthesis, restore the endoplasmic reticulum homeostasis, and thus play a protective role for cells; however, if the inducing factors of ERS persist, ERS will continue to trigger C/EBP homologous protein, JNK, caspase, or other pathways to induce apoptosis. In addition, the injury and apoptosis of vascular endothelial cells are key links in various diseases and pathophysiologic processes, and research has also shown that vascular endothelial cell apoptosis is closely related with the ERS. Effective intervention of ERS may restrain apoptosis and protect the vascular endothelium. This article reviews the recent research advances in ERS and its role in vascular endothelial cell apoptosis.
Animals ; Apoptosis ; Endoplasmic Reticulum Stress ; Endothelial Cells ; pathology ; Humans

Objective To study the effect and mechanism of pearl hydrolysate on hepatic sinusoidal capillarization in liver fibrosis. Methods Hepatic sinusoidal endothelial cells (HSEC) and hepatic stellate cells (HSC-LX2) were incubated with Hepu pearl hydrolysate.The proliferation of HSEC and HSC-LX2 was examined by MTT colorimetry.The cell cycle and apoptosis of HSC-LX2 were measured by flow cytometry.The changes of the microstructures such as fenestra and basement membrane of HSEC were observed by transmission electron microscopy. Results The intervention with leptin increased the viability of HSC-LX2 (P=0.041),decreased the viability of HSEC (P=0.004),and caused capillarization signs such as decreased number and diameter of fenestrae and formation of continuous basement membrane.The treatment with pearl hydrolysate at different doses increased and expanded the fenestrae of HSEC (low dose:P=0.020;medium dose:P=0.028;high dose:P=0.032),disintegrated the extracellular basement membrane of HSEC (low dose:P=0.020;medium dose:P=0.028;high dose:P=0.032),decreased the viability of HSC-LX2 (low dose:P=0.018;medium dose:P=0.013;high dose:P=0.009),and induced the apoptosis of HSC-LX2 (low dose:P=0.012;medium dose:P=0.006;high dose:P=0.005).Pearl hydrolysate exerted therapeutic effect on capillarization in a dose-dependent manner (low dose:P=0.020;medium dose:P=0.028;high dose:P=0.032).Moreover,high-dose pearl hydrolysate showed stronger effect on capillarization of hepatic sinuses than colchicine (P=0.034) and salvianolic acid B (P=0.038). Conclusion Hepu pearl hydrolysate can increase the viability of HSEC,restore the area of fenestrae,disintegrate the basement membrane,and decrease the viability and induce the apoptosis of HSC-LX2,demonstrating significant pharmacological effects on the capillarization of HSEC and HSC-LX2.
Humans ; Endothelial Cells/metabolism* ; Liver Cirrhosis ; Liver/pathology*

Monocytes are important target cells of various hemorrhagic fever viruses. In viral hemorrhagic fevers (VHFs), monocytes can be infected by viruses and produce different kinds of cytokines, which contribute to the antiviral immune response and participation in the immunopathogenesis of VHFs. During the pathogenesis of various VHFs (early stage), monocytes change in cell counting, subpopulation distribution and expression of surface molecules with an activated phenotype. Several hemorrhagic fever viruses can infect monocytes and induce immune response, which may play an important role in immunopathological injury. Monocytes and the cytokines they produce may interact with platelets and vascular endothelial cells, contributing to disease progression.
Humans ; Monocytes ; Endothelial Cells ; Hemorrhagic Fevers, Viral/pathology* ; Immunity ; Cytokines

Animals ; Atherosclerosis ; pathology ; Cell Adhesion ; Cell Division ; Endothelial Cells ; pathology ; Humans ; Models, Biological ; Myocytes, Smooth Muscle ; pathology ; Stem Cells ; pathology

Objective: To investigate the clinical and pathologic features, diagnosis and differential diagnosis of congenital hemangioma (CH). Methods: Forty cases of CH were diagnosed from January 2017 to December 2020 in Henan Provincial People's Hospital. The clinical and pathological and immunohistochemical data were analyzed, with review of literature. Results: There were 24 male and 16 female patients. The lesions were located in the head, neck (11 cases), limbs (14 cases), and trunk (15 cases). The clinical manifestations were congenital painless plaques or masses, the larger ones protruded on the skin surface, mostly dusky purple or bright red, with surrounding white halos. Under low magnification, the tumor was lobular and well demarcated, composed of neo-microvascular lumen of different sizes. The vascular endothelial cells were cuboidal or hobnail in appearance, forming stellar drainage vessels within the lobules. Extra-medullary hematopoiesis was seen in one case of rapidly involuting CH; there were different number of tortuous and dilated vascular lumen between the lobular structures, and some non-involuting CH cases were vascular malformations, which were devoid of lobulated structures. Immunohistochemistry showed that endothelial cells were strongly positive for CD31, CD34 and ERG, while D2-40 and GLUT-1 were negative. Conclusions: CH is a benign congenital vascular tumor with characteristic lobulated growth and abnormal blood vessels in the stroma. Pathological diagnosis often needs to be differentiated from infantile hemangioma, pyogenic granuloma, kaposiform hemangioendothelioma and vascular malformation.
Endothelial Cells/pathology* ; Female ; Hemangioendothelioma/pathology* ; Hemangioma/pathology* ; Humans ; Kasabach-Merritt Syndrome/pathology* ; Male ; Sarcoma, Kaposi/pathology* ; Skin Neoplasms/pathology*

Endothelial Cells ; pathology ; Endothelium, Vascular ; cytology ; pathology ; Humans ; Mucocutaneous Lymph Node Syndrome ; pathology