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Query: UMLS:C0151744 (
myocardial ischemia
)
31,282
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The formation of new blood vessel is essential for a variety of physiological processes like embryogenesis and the female reproduction as well as wound healing and neovascularization of ischemic tissue. Major progress in understanding the underlying mechanisms regulating blood vessel growth has offered novel therapeutic options in the treatment of a variety of diseases including ischemic cardiovascular disorders. Vasculogenesis and angiogenesis are the mechanisms responsible for the development of the blood vessels. Angiogenesis refers to the formation of capillaries from preexisting vessels in the embryo and adult organism. While pathologic angiogenesis includes the role of post-natal neovascularization in the pathogenesis of arthritis, diabetic retinopathy, and tumor growth and metastasis, therapeutic angiogenesis, either endogenously or in response to administered growth factors, includes the development of collateral blood vessels in tissue ischemia. Preclinical studies established that angiogenic growth factors could promote collateral artery development in animal models of peripheral and
myocardial ischemia
. Subsequent clinical trials using gene transfer of naked DNA encoding for VEGF for the treatment of critical limb and
myocardial ischemia
documented the safety and clinical benefit of this novel therapeutic approach. Several objective methods indicated marked improvement in collateral vessel development. Vasculogenesis describes the development of new blood vessels from in situ differentiating endothelial cells. Recently considered to be restricted to embryogenesis, there exists now striking evidence that endothelial progenitor cells (EPC) circulate also in adult peripheral blood able to participate in ongoing neovascularization. Different cytokines and growth factors have a stimulatory effect on these bone-marrow derived EPC. Granulocyte
macrophage colony stimulating factor
(GM-CSF) and vascular endothelial growth factor (VEGF) mobilize EPC from the bone marrow into the peripheral circulation. While their endogenous contribution to postnatal neovascularization needs to be documented, the iatrogenic expansion and mobilization of EPC might represent an effective means to augment the resident population of endothelial cells (ECs). This kind of cell therapy for tissue regeneration in ischemic cardiovascular diseases opens a novel and challenging clinical option besides or in addition to the use of growth factors in gene therapy.
...
PMID:[Angiogenesis and vasculogenesis. Therapeutic strategies for stimulation of postnatal neovascularization]. 1107 19
Recent studies have suggested that cytokines such as
macrophage colony-stimulating factor
(
M-CSF
) might be involved in the pathogenesis of
ischaemic heart disease
. Macrophage colony-stimulating factor, granulocyte-colony stimulating factor (G-CSF), granulocyte-macrophage-colony stimulating factor (GM-CSF), stem cell factor (SCF), interleukin-3 (IL-3) and interleukin-7 (IL-7) are potent cytokines belonging to the same structual class that may affect function, growth and apoptosis both in the heart and other organs. The aims of the present study were to characterize a post-infarction model in the mouse and to examine mRNA expression of
M-CSF
, GM-CSF, SCF, IL-3 and IL-7 during the development of heart failure. Myocardial infarction (MI) was induced in mice by ligation of the left coronary artery. Average infarct size was 40% and the mice developed myocardial hypertrophy and pulmonary oedema. Ribonuclease (RNAase) protection assays showed abundant cardiac expression of
M-CSF
and SCF. After MI, we measured down-regulation of cytokine mRNA expression in the heart (
M-CSF
, SCF), lung (
M-CSF
), liver (
M-CSF
) and spleen (
M-CSF
) compared with sham. Cardiac G-CSF, GM-CSF and IL-7 mRNAs were not detected. In conclusion, abundant cardiac gene expression of
M-CSF
and SCF was found. In our mouse model of MI,
M-CSF
and SCF were down-regulated in the heart and several other organs suggesting specific roles for these cytokines during development of ischaemic heart failure.
...
PMID:Gene expression of colony-stimulating factors and stem cell factor after myocardial infarction in the mouse. 1210 Mar 56
We present in this article main theories of development of atherosclerosis and modern views of the role of inflammation in atherogenesis. We have conducted a review of studies of the role of endothelial local factors such as accumulation of smooth muscle cells, T and B lymphocytes, macrophages, matrix metalloproteinase (MMP), high sensitivity C reactive protein (CRP). It has been shown that low oxidative stress modulates expression of endothelial gene which induces atherogenic factor formatting early atherosclerotic plaque (FP). CRP and oxidized low density lipoproteins (OxLDL) are directly linked with oxidative damage of arteries in
ischemic heart disease
. Monocytes activated in areas of inflammation by monocyte chemoattractant protein (MCP) 1 and MMP 1 play pivotal role in AP rupture. CRP and OxLDL augment synthesis of MMP, tumor necrosis factor alpha (TNF alpha) and granulocyte
macrophage colony stimulating factor
(GM CSF). Moreover addition of exogenous MCP 1 and prostaglandin E2 elevates synthesis of MMP 1, TNF alpha, and GM CSF by monocytes. Apoptosis of smooth muscle cells of AP fibrous cap combined with destruction of extracellular matrix proteins by MMP 1 eventually leads to AP rupture.
...
PMID:[Contemporary concepts of the role of inflammation in atherosclerosis]. 2065 35
Myocardial infarction (MI) elicits massive inflammatory leukocyte recruitment to the heart. Here, we hypothesized that excessive leukocyte invasion leads to heart failure and death during acute
myocardial ischemia
. We found that shortly and transiently after onset of ischemia, human and mouse cardiac fibroblasts produce granulocyte/
macrophage colony-stimulating factor
(GM-CSF) that acts locally and distally to generate and recruit inflammatory and proteolytic cells. In the heart, fibroblast-derived GM-CSF alerts its neighboring myeloid cells to attract neutrophils and monocytes. The growth factor also reaches the bone marrow, where it stimulates a distinct myeloid-biased progenitor subset. Consequently, hearts of mice deficient in either GM-CSF or its receptor recruit fewer leukocytes and function relatively well, whereas mice producing GM-CSF can succumb from left ventricular rupture, a complication mitigated by anti-GM-CSF therapy. These results identify GM-CSF as both a key contributor to the pathogenesis of MI and a potential therapeutic target, bolstering the idea that GM-CSF is a major orchestrator of the leukocyte supply chain during inflammation.
...
PMID:The infarcted myocardium solicits GM-CSF for the detrimental oversupply of inflammatory leukocytes. 2897 34
