Your search keyword '"BMP signaling in endothelial cells"' showing total 3 results

1. Circulating BMP9 Protects the Pulmonary Endothelium during Inflammation-induced Lung Injury in Mice.

Author

Li W, Long L, Yang X, Tong Z, Southwood M, King R, Caruso P, Upton PD, Yang P, Bocobo GA, Nikolic I, Higuera A, Salmon RM, Jiang H, Lodge KM, Hoenderdos K, Baron RM, Yu PB, Condliffe AM, Summers C, Nourshargh S, Chilvers ER, and Morrell NW

Subjects

Acute Lung Injury etiology, Animals, Case-Control Studies, Endothelial Cells metabolism, Endotoxemia etiology, Endotoxemia pathology, Female, Humans, Male, Mice, Pulmonary Edema blood, Pulmonary Edema etiology, Pulmonary Edema pathology, Sepsis etiology, Sepsis pathology, Acute Lung Injury blood, Acute Lung Injury pathology, Endothelium pathology, Endotoxemia blood, Growth Differentiation Factor 2 blood, Sepsis blood

Abstract

Rationale: Pulmonary endothelial permeability contributes to the high-permeability pulmonary edema that characterizes acute respiratory distress syndrome. Circulating BMP9 (bone morphogenetic protein 9) is emerging as an important regulator of pulmonary vascular homeostasis. Objectives: To determine whether endogenous BMP9 plays a role in preserving pulmonary endothelial integrity and whether loss of endogenous BMP9 occurs during LPS challenge. Methods: A BMP9-neutralizing antibody was administrated to healthy adult mice, and lung vasculature was examined. Potential mechanisms were delineated by transcript analysis in human lung endothelial cells. The impact of BMP9 administration was evaluated in a murine acute lung injury model induced by inhaled LPS. Levels of BMP9 were measured in plasma from patients with sepsis and from endotoxemic mice. Measurements and Main Results: Subacute neutralization of endogenous BMP9 in mice ( N  = 12) resulted in increased lung vascular permeability ( P  = 0.022), interstitial edema ( P  = 0.0047), and neutrophil extravasation ( P  = 0.029) compared with IgG control treatment ( N  = 6). In pulmonary endothelial cells, BMP9 regulated transcriptome pathways implicated in vascular permeability and cell-membrane integrity. Augmentation of BMP9 signaling in mice ( N  = 8) prevented inhaled LPS-induced lung injury ( P  = 0.0027) and edema ( P  < 0.0001). In endotoxemic mice ( N  = 12), endogenous circulating BMP9 concentrations were markedly reduced, the causes of which include a transient reduction in hepatic BMP9 mRNA expression and increased elastase activity in plasma. In human patients with sepsis ( N  = 10), circulating concentratons of BMP9 were also markedly reduced ( P  < 0.0001). Conclusions: Endogenous circulating BMP9 is a pulmonary endothelial-protective factor, downregulated during inflammation. Exogenous BMP9 offers a potential therapy to prevent increased pulmonary endothelial permeability in lung injury.

Published

2021

2. Circulating BMP9 Protects the Pulmonary Endothelium during Inflammation-induced Lung Injury in Mice.

Author

Wei Li, Lu Long, Xudong Yang, Zhen Tong, Southwood, Mark, King, Ross, Caruso, Paola, Upton, Paul D., Peiran Yang, Bocobo, Geoffrey A., Nikolic, Ivana, Higuera, Angelica, Salmon, Richard M., He Jiang, Lodge, Katharine M., Hoenderdos, Kim, Baron, Rebecca M., Yu, Paul B., Condliffe, Alison M., and Summers, Charlotte

Subjects

ENDOTHELIAL cells, ADULT respiratory distress syndrome, PULMONARY manifestations of general diseases, PULMONARY edema, BONE morphogenetic proteins, ENDOTOXEMIA, LUNG injuries, RESEARCH, ENDOTHELIUM, ANIMAL experimentation, RESEARCH methodology, CASE-control method, MEDICAL cooperation, EVALUATION research, SEPSIS, COMPARATIVE studies, RESEARCH funding, EPITHELIAL cells, ACUTE diseases, MICE

Abstract

Rationale: Pulmonary endothelial permeability contributes to the high-permeability pulmonary edema that characterizes acute respiratory distress syndrome. Circulating BMP9 (bone morphogenetic protein 9) is emerging as an important regulator of pulmonary vascular homeostasis. Objectives:To determine whether endogenous BMP9 plays a role in preserving pulmonary endothelial integrity and whether loss of endogenous BMP9 occurs during LPS challenge. Methods: A BMP9-neutralizing antibody was administrated to healthy adult mice, and lung vasculature was examined. Potential mechanisms were delineated by transcript analysis in human lung endothelial cells. The impact of BMP9 administration was evaluated in a murine acute lung injury model induced by inhaled LPS. Levels of BMP9 were measured in plasma from patients with sepsis and from endotoxemic mice. Measurements and Main Results: Subacute neutralization of endogenous BMP9 in mice (N = 12) resulted in increased lung vascular permeability (P = 0.022), interstitial edema (P = 0.0047), and neutrophil extravasation (P = 0.029) compared with IgG control treatment (N = 6). In pulmonary endothelial cells, BMP9 regulated transcriptome pathways implicated in vascular permeability and cell-membrane integrity. Augmentation of BMP9 signaling in mice (N = 8) prevented inhaled LPS-induced lung injury (P = 0.0027) and edema (P < 0.0001). In endotoxemic mice (N = 12), endogenous circulating BMP9 concentrations were markedly reduced, the causes of which include a transient reduction in hepatic BMP9 mRNA expression and increased elastase activity in plasma. In human patients with sepsis (N = 10), circulating concentratons of BMP9 were also markedly reduced (P < 0.0001). Conclusions: Endogenous circulating BMP9 is a pulmonary endothelial-protective factor, downregulated during inflammation. Exogenous BMP9 offers a potential therapy to prevent increased pulmonary endothelial permeability in lung injury. [ABSTRACT FROM AUTHOR]

Published

2021

3. Circulating BMP9 Protects the Pulmonary Endothelium during Inflammation-induced Lung Injury in Mice

Author

Rebecca M. Baron, Lu Long, Kim Hoenderdos, Charlotte Summers, Paola Caruso, Nicholas W. Morrell, Ross D. King, Ivana Nikolic, Mark Southwood, Xudong Yang, Richard M. Salmon, Paul B. Yu, Geoffrey A. Bocobo, Sussan Nourshargh, Angelica Higuera, Wei Li, Katharine M Lodge, Zhen Tong, Alison M. Condliffe, Paul D. Upton, He Jiang, Edwin R. Chilvers, Peiran Yang, Li, Wei [0000-0002-1924-3120], Upton, Paul [0000-0003-2716-4921], Summers, Charlotte [0000-0002-7269-2873], Morrell, Nicholas [0000-0001-5700-9792], and Apollo - University of Cambridge Repository

Subjects

Pulmonary and Respiratory Medicine, Male, Pathology, medicine.medical_specialty, Endothelial permeability, Respiratory System, Acute Lung Injury, Inflammation, Pulmonary Edema, Acute respiratory distress, Lung injury, Critical Care and Intensive Care Medicine, BMP9, 03 medical and health sciences, Mice, 0302 clinical medicine, Sepsis, Growth Differentiation Factor 2, Medicine, Animals, Humans, Pulmonary endothelium, 030212 general & internal medicine, Endothelium, lung injury, 11 Medical and Health Sciences, business.industry, Editorials, Endothelial Cells, Pulmonary edema, medicine.disease, Endotoxemia, 030228 respiratory system, pulmonary endothelium, Case-Control Studies, Female, medicine.symptom, business, BMP signaling in endothelial cells

Abstract

Rationale: Pulmonary endothelial permeability contributes to the high-permeability pulmonary edema that characterizes acute respiratory distress syndrome. Circulating BMP9 (bone morphogenetic protein 9) is emerging as an important regulator of pulmonary vascular homeostasis. Objectives:To determine whether endogenous BMP9 plays a role in preserving pulmonary endothelial integrity and whether loss of endogenous BMP9 occurs during LPS challenge. Methods: A BMP9-neutralizing antibody was administrated to healthy adult mice, and lung vasculature was examined. Potential mechanisms were delineated by transcript analysis in human lung endothelial cells. The impact of BMP9 administration was evaluated in a murine acute lung injury model induced by inhaled LPS. Levels of BMP9 were measured in plasma from patients with sepsis and from endotoxemic mice. Measurements and Main Results: Subacute neutralization of endogenous BMP9 in mice (N = 12) resulted in increased lung vascular permeability (P = 0.022), interstitial edema (P = 0.0047), and neutrophil extravasation (P = 0.029) compared with IgG control treatment (N = 6). In pulmonary endothelial cells, BMP9 regulated transcriptome pathways implicated in vascular permeability and cell-membrane integrity. Augmentation of BMP9 signaling in mice (N = 8) prevented inhaled LPS-induced lung injury (P = 0.0027) and edema (P < 0.0001). In endotoxemic mice (N = 12), endogenous circulating BMP9 concentrations were markedly reduced, the causes of which include a transient reduction in hepatic BMP9 mRNA expression and increased elastase activity in plasma. In human patients with sepsis (N = 10), circulating concentratons of BMP9 were also markedly reduced (P < 0.0001). Conclusions: Endogenous circulating BMP9 is a pulmonary endothelial-protective factor, downregulated during inflammation. Exogenous BMP9 offers a potential therapy to prevent increased pulmonary endothelial permeability in lung injury.

Published

2020