Human blood outgrowth endothelial cells improve islet survival and function when co-transplanted in a mouse model of diabetes

SummaryFactor XII has long been implicated in the intrinsic pathway of fibrinolysis, but the mechanism by which it triggers plasminogen activation and targets fibrinolysis has not been established. In the present study, the assembly and function of activated Factor XII (F.XIIa), prourokinase (pro-u-PA), high molecular weight kininogen (H-kininogen), and prekallikrein on human umbilical vein endothelial cells (HUVEC) was investigated. 125I-prekallikrein was shown to bind to HUVEC via receptor-bound H-kininogen in the presence of 50 μM ZnCl2. After the addition of F.XIIa, 78% of the 125I-prekallikrein initially bound to HUVEC was converted to 125I-kallikrein. However, only 6% of the HUVEC-bound 125I-pro-u-PA was thereby activated. This discrepancy was shown to be related to rapid dissociation (>50% within 15 min) of prekallikrein/kallikrein, but not pro-u-PA, from HUVEC. Increasing the level of cell-bound kallikrein increased the portion of cell-bound pro-u-PA activated, indicating that their co-localization was important for this pathway. Finally, F.XIIa was shown to trigger plasminogen activation on HUVEC via this pathway. This assembly of reactants on the endothelium suggests a mechanism whereby local fibrinolysis may be triggered by blood coagulation.

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Faculty Opinions recommendation of Enhanced infection of liver sinusoidal endothelial cells in a mouse model of antibody-induced severe dengue disease.

Faculty Opinions – Post-Publication Peer Review of the Biomedical Literature ◽

10.3410/f.2846956.2511054 ◽

2010 ◽

Author(s):

Scott Halstead

Keyword(s):

Endothelial Cells ◽

Mouse Model ◽

Severe Dengue ◽

Liver Sinusoidal Endothelial Cells ◽

Sinusoidal Endothelial Cells ◽

Dengue Disease

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Faculty Opinions recommendation of Blocking the mitochondrial apoptotic pathway preserves motor neuron viability and function in a mouse model of amyotrophic lateral sclerosis.

Faculty Opinions – Post-Publication Peer Review of the Biomedical Literature ◽

10.3410/f.5579962.6144054 ◽

2010 ◽

Author(s):

Roger Barker ◽

Wei-Li Kuan

Keyword(s):

Amyotrophic Lateral Sclerosis ◽

Mouse Model ◽

Motor Neuron ◽

Apoptotic Pathway ◽

Mitochondrial Apoptotic Pathway ◽

And Function ◽

Lateral Sclerosis

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Faculty Opinions recommendation of Development and function of human innate immune cells in a humanized mouse model.

Faculty Opinions – Post-Publication Peer Review of the Biomedical Literature ◽

10.3410/f.718312148.793492680 ◽

2014 ◽

Author(s):

Gerald Spangrude

Keyword(s):

Mouse Model ◽

Immune Cells ◽

Innate Immune ◽

Innate Immune Cells ◽

Humanized Mouse ◽

Humanized Mouse Model ◽

And Function

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Mechanosensation and Mechanotransduction by Lymphatic Endothelial Cells Act as Important Regulators of Lymphatic Development and Function

International Journal of Molecular Sciences ◽

10.3390/ijms22083955 ◽

2021 ◽

Vol 22 (8) ◽

pp. 3955

Author(s):

László Bálint ◽

Zoltán Jakus

Keyword(s):

Endothelial Cells ◽

Endothelial Cell ◽

Cell Fate ◽

Molecular Mechanisms ◽

Critical Role ◽

Mechanical Forces ◽

Lymphatic Endothelial Cells ◽

Lymphatic Development ◽

And Function ◽

The Impact

Our understanding of the function and development of the lymphatic system is expanding rapidly due to the identification of specific molecular markers and the availability of novel genetic approaches. In connection, it has been demonstrated that mechanical forces contribute to the endothelial cell fate commitment and play a critical role in influencing lymphatic endothelial cell shape and alignment by promoting sprouting, development, maturation of the lymphatic network, and coordinating lymphatic valve morphogenesis and the stabilization of lymphatic valves. However, the mechanosignaling and mechanotransduction pathways involved in these processes are poorly understood. Here, we provide an overview of the impact of mechanical forces on lymphatics and summarize the current understanding of the molecular mechanisms involved in the mechanosensation and mechanotransduction by lymphatic endothelial cells. We also discuss how these mechanosensitive pathways affect endothelial cell fate and regulate lymphatic development and function. A better understanding of these mechanisms may provide a deeper insight into the pathophysiology of various diseases associated with impaired lymphatic function, such as lymphedema and may eventually lead to the discovery of novel therapeutic targets for these conditions.

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Effects of platelet-rich plasma on the pancreatic islet survival and function, islet transplantation outcome and pancreatic pdx1 and insulin gene expression in streptozotocin-induced diabetic rats

Growth Factors ◽

10.1080/08977194.2021.1881502 ◽

2021 ◽

pp. 1-15

Author(s):

Marzieh Nemati ◽

Narges Karbalaei ◽

Pooneh Mokarram ◽

Farzaneh Dehghani

Keyword(s):

Gene Expression ◽

Islet Transplantation ◽

Pancreatic Islet ◽

Platelet Rich Plasma ◽

Diabetic Rats ◽

Insulin Gene ◽

Insulin Gene Expression ◽

And Function ◽

Islet Survival

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Breeder Diet Strategies for Generating Ttpa-Null and Wild-Type Mice with Low Vitamin E Status to Assess Neurological Outcomes

Current Developments in Nutrition ◽

10.1093/cdn/nzaa155 ◽

2020 ◽

Vol 4 (11) ◽

Author(s):

Katherine M Ranard ◽

Matthew J Kuchan ◽

John W Erdman

Keyword(s):

Animal Model ◽

Vitamin E ◽

Mouse Model ◽

Wild Type ◽

Future Studies ◽

Neurological Outcomes ◽

Transfer Protein ◽

And Function ◽

The Brain ◽

Vitamin E Status

ABSTRACT Studying vitamin E [α-tocopherol (α-T)] metabolism and function in the brain and other tissues requires an animal model with low α-T status, such as the transgenic α-T transfer protein (Ttpa)–null (Ttpa−/−) mouse model. Ttpa+/− dams can be used to produce Ttpa−/− and Ttpa+/+mice for these studies. However, the α-T content in Ttpa+/− dams’ diet requires optimization; diets must provide sufficient α-T for reproduction, while minimizing the transfer of α-T to the offspring destined for future studies that require low baseline α-T status. The goal of this work was to assess the effectiveness and feasibility of 2 breeding diet strategies on reproduction outcomes and offspring brain α-T concentrations. These findings will help standardize the breeding methodology used to generate the Ttpa−/− mice for neurological studies.

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Pathological Alternations of Mediastinal Fat-Associated Lymphoid Cluster and Lung in a Streptozotocin-Induced Diabetic Mouse Model

Microscopy and Microanalysis ◽

10.1017/s1431927620024824 ◽

2020 ◽

pp. 1-14

Author(s):

Yaser H.A. Elewa ◽

Osamu Ichii ◽

Teppei Nakamura ◽

Yasuhiro Kon

Keyword(s):

Endothelial Cells ◽

Lung Injury ◽

Mouse Model ◽

Immune Cells ◽

Inflammatory Markers ◽

Inflammatory Marker ◽

Diabetic Mouse ◽

Control Group ◽

Injury Progression

Diabetes is a devastating global health problem and is considered a predisposing factor for lung injury progression. Furthermore, previous reports of the authors revealed the role of mediastinal fat-associated lymphoid clusters (MFALCs) in advancing respiratory diseases. However, no reports concerning the role of MFALCs on the development of lung injury in diabetes have been published. Therefore, this study aimed to examine the correlations between diabetes and the development of MFALCs and the progression of lung injury in a streptozotocin-induced diabetic mouse model. Furthermore, immunohistochemical analysis for immune cells (CD3+ T-lymphocytes, B220+ B-lymphocytes, Iba1+ macrophages, and Gr1+ granulocytes), vessels markers (CD31+ endothelial cells and LYVE-1+ lymphatic vessels “LVs”), and inflammatory markers (TNF-α and IL-5) was performed. In comparison to the control group, the diabetic group showed lung injury development with a significant increase in MFALC size, immune cells, LVs, and inflammatory marker, and a considerable decrease of CD31+ endothelial cells in both lung and MFALCs was observed. Furthermore, the blood glucose level showed significant positive correlations with MFALCs size, lung injury, immune cells, inflammatory markers, and LYVE-1+ LVs in lungs and MFALCs. Thus, we suggest that the development of MFALCs and LVs could contribute to lung injury progression in diabetic conditions.

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