Project description:Hematopoietic Loss of Y Chromosome Leads to Cardiac Fibrosis and Dysfunction and is Associated with Death due to Heart Failure.

Project description:Hematopoietic Loss of Y Chromosome Leads to Cardiac Fibrosis and Dysfunction and is Associated with Death due to Heart Failure [bulkRNAseq_WholeBloodNeutrophils]

Project description:Hematopoietic Loss of Y Chromosome Leads to Cardiac Fibrosis and Dysfunction and is Associated with Death due to Heart Failure [bulkRNAseq_HeartMacrophages]

Project description:Hematopoietic Loss of Y Chromosome Leads to Cardiac Fibrosis and Dysfunction and is Associated with Death due to Heart Failure [bulkRNAseq_HeartNeutrophils]

Project description:Hematopoietic mosaic loss of Y chromosome (mLOY) is associated with increased risk of mortality and a variety of age-related diseases in men, but causal and mechanistic relationships have yet to be established. Here it is shown that mice reconstituted with bone marrow cells lacking the Y chromosome display increased mortality and age-related profibrotic pathologies including a progressive decline in cardiac function. Accelerated cardiac dysfunction and fibrosis were also observed in younger mice subjected to a pressure-overload model of heart failure. Bone marrow-derived, cardiac macrophages lacking the Y chromosome exhibited polarization toward a more fibrotic and less inflammatory phenotype. Treatment with a TGFb1  neutralizing antibody led to greater amelioration of heart failure in mice reconstituted with mLOY compared to wild-type bone marrow. Consistent with these data, a prospective study in men revealed that mLOY in blood is associated with an increased risk for cardiovascular disease and heart failure-associated mortality. Together, these results indicate that hematopoietic mLOY contributes to heart failure in men.

Project description:Hematopoietic mosaic loss of Y chromosome (mLOY) is associated with increased risk of mortality and a variety of age-related diseases in men, but causal and mechanistic relationships have yet to be established. Here it is shown that mice reconstituted with bone marrow cells lacking the Y chromosome display increased mortality and age-related profibrotic pathologies including a progressive decline in cardiac function. Accelerated cardiac dysfunction and fibrosis were also observed in younger mice subjected to a pressure-overload model of heart failure. Bone marrow-derived, cardiac macrophages lacking the Y chromosome exhibited polarization toward a more fibrotic and less inflammatory phenotype. Treatment with a TGFb1  neutralizing antibody led to greater amelioration of heart failure in mice reconstituted with mLOY compared to wild-type bone marrow. Consistent with these data, a prospective study in men revealed that mLOY in blood is associated with an increased risk for cardiovascular disease and heart failure-associated mortality. Together, these results indicate that hematopoietic mLOY contributes to heart failure in men.

Project description:Hematopoietic mosaic loss of Y chromosome (mLOY) is associated with increased risk of mortality and a variety of age-related diseases in men, but causal and mechanistic relationships have yet to be established. Here it is shown that mice reconstituted with bone marrow cells lacking the Y chromosome display increased mortality and age-related profibrotic pathologies including a progressive decline in cardiac function. Accelerated cardiac dysfunction and fibrosis were also observed in younger mice subjected to a pressure-overload model of heart failure. Bone marrow-derived, cardiac macrophages lacking the Y chromosome exhibited polarization toward a more fibrotic and less inflammatory phenotype. Treatment with a TGFb1  neutralizing antibody led to greater amelioration of heart failure in mice reconstituted with mLOY compared to wild-type bone marrow. Consistent with these data, a prospective study in men revealed that mLOY in blood is associated with an increased risk for cardiovascular disease and heart failure-associated mortality. Together, these results indicate that hematopoietic mLOY contributes to heart failure in men.

Project description:Hematopoietic mosaic loss of Y chromosome (mLOY) is associated with increased risk of mortality and a variety of age-related diseases in men, but causal and mechanistic relationships have yet to be established. Here it is shown that mice reconstituted with bone marrow cells lacking the Y chromosome display increased mortality and age-related profibrotic pathologies including a progressive decline in cardiac function. Accelerated cardiac dysfunction and fibrosis were also observed in younger mice subjected to a pressure-overload model of heart failure. Bone marrow-derived, cardiac macrophages lacking the Y chromosome exhibited polarization toward a more fibrotic and less inflammatory phenotype. Treatment with a TGFb1  neutralizing antibody led to greater amelioration of heart failure in mice reconstituted with mLOY compared to wild-type bone marrow. Consistent with these data, a prospective study in men revealed that mLOY in blood is associated with an increased risk for cardiovascular disease and heart failure-associated mortality. Together, these results indicate that hematopoietic mLOY contributes to heart failure in men.

Project description:This SuperSeries is composed of the SubSeries listed below.

Project description:Right ventricular failure was induced thourgh pulmonary banding in 11 pigs. Right ventricular failure was defined as a SRVP >50 mmHg during two hours. After right ventricular failure was induced, half the pigs were treatmed with a Glenn-shunt combined with pulmonary banding for one hour, and the other half served as control group with pulmonary banding only. The aim was to study the change in global gene expression during right ventricular failure due to pulmonary banding, and the effect of volume unloading during pulmonary banding. 11 pigs. Samples at the following time periods: 1) Baseline 2) Right ventricular failure 3) Treatment with modified Glenn-shunt/Control. After Right ventricular failure, pigs were divided into two groups a) Treatment with modified Glenn-shunt or b) Control group