Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: EC:3.4.24.23 (
MMP
)
4,246
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Primary
varicose veins
are functionally characterized by venous back-flow and blood stagnation in the upright position. Dilatation and tortuosity provide evidence for progressive venous wall remodelling, with disturbance of smooth muscle cell/extracellular matrix organization. Affected areas are not uniformly distributed, some areas being hypertrophic, whereas others are atrophic or unaffected. In 12
varicose veins
and ten control veins, the proteolytic enzyme/inhibitor balance which may participate in the remodelling of the venous wall was investigated. For this purpose, the presence and enzymatic activity of matrix metalloproteinases (MMP-2, MMP-9), tissue inhibitors of MMPs (TIMP-1, TIMP-2), urokinase-type (uPA) and tissue-type (tPA) plasminogen activators (PAs), and plasminogen activator inhibitor-1 (PAI-1) were quantified by western blot and gelatin or plasminogen-casein zymography. In addition, MMP-2, TIMP-1, TIMP-2, and PAI-1 levels were measured by ELISA. A high TIMP-1 level and a low MMP-2 level/activity were found in
varicose veins
(p<0.005), resulting in a three-fold increase in the TIMP-1/MMP-2 ratio in varicose versus control veins. Levels of PAs (uPA and tPA) as well as PAI-1 were both lower in
varicose veins
(p<0.005), with minimal change in the PAI/PA ratio. These results demonstrate that
varicose veins
are characterized by a higher than normal TIMP/
MMP
ratio, which may facilitate extracellular matrix accumulation in the diseased venous wall.
...
PMID:Increased TIMP/MMP ratio in varicose veins: a possible explanation for extracellular matrix accumulation. 1095 7
Varicose vein
disease is a frequently occurring pathology with multifactorial causes and a genetic component. An intense remodelling of the
varicose vein
wall has been described and could be at the origin of its weakness and altered elasticity. We have described previously a dysregulation of collagen synthesis in cultured smooth muscle cells from saphenous veins and in dermal fibroblasts from the skin of patients with
varicose veins
, suggesting a systemic defect in their connective tissue. The present study describes comparative morphological and immunohistochemical data in both the skin and saphenous veins of eight control subjects (undergoing coronary bypass surgery) and eight patients with
varicose veins
. Histological staining of glycoproteins, the elastic fibre network and collagen bundles showed that the remodelling and fragmentation of elastic fibres observed in
varicose veins
were also present in the skin of the patients. When compared with control subjects, we observed in both the veins and skin of patients with
varicose veins
(i) an increase in the elastic network, as quantified by image analysis; (ii) an accumulation of collagen type I, fibrillin-1 and laminin; and (iii) an overproduction of
MMP
(matrix metalloproteinase)-1, MMP-2 and MMP-3, analysed by immunohistochemistry, but normal levels of other MMPs (MMP-7 and MMP-9) and their inhibitors (TIMP-1, TIMP-2 and TIMP-3). An imbalance of extracellular matrix production/degradation was thus observed in veins as well as in the skin of the patients with
varicose veins
and, taken together, these findings show that remodelling is present in different organs, confirming systemic alterations of connective tissues.
...
PMID:Comparison of extracellular matrix in skin and saphenous veins from patients with varicose veins: does the skin reflect venous matrix changes? 1702 May 41
Varicosity
is a complex venous pathology affecting the lower extremities. The exact etiology and physiopathology of
varicose vein
disease remain, however, unclear. Several theories exist from incompetence of the valves to a disturbance of the smooth muscle cells (SMC) and extra-cellular matrix (ECM) organization providing a weakness of the venous wall. Multiple studies have been performed to explain the underlying mechanisms of varicosity inducing alterations in the expression patterns of the endothelium, SMC, and ECM. In that respect, most attention has been focused on the alteration of the endothelium due to blood stasis and hypoxia inducing migration/proliferation of the medial SMC into the intima. Also, studies in the deformation of the ECM induced by alterations of the expression patterns of the metalloproteinases (
MMP
) and their inhibitors (TIMPs) have been put forward to explain the etiology of varicosity. However, less attention has been paid to the hormonal changes that occur during pregnancy and menopause, crucial factors to be involved in the etiology of varicosity. Since alteration of the estrogen receptor-b (ERb) expression could enhance directly the cellular volume of SMC and thus the disorganization of the contractile-elastic units, hypertrophy of SMC must be accounted a pivotal role that could induce the weakness of the venous wall. Altogether, this review summarizes an overview of the latest findings of varicosity with respect to the histopathological changes of the different cellular components of the
varicose vein
wall related to functional and morphologic alterations.
...
PMID:The histopathology of varicose vein disease. 1706 76
We report the formation of 830 nm (cw) laser-induced, reversible axonal
varicosities
, using immunostaining with beta-tubulin, in small and medium diameter, TRPV-1 positive, cultured rat DRG neurons. Laser also induced a progressive and statistically significant decrease (p<0.005) in
MMP
in mitochondria in and between static axonal
varicosities
. In cell bodies of the neuron, the decrease in
MMP
was also statistically significant (p<0.05), but the decrease occurred more slowly. Importantly we also report for the first time that 830 nm (cw) laser blocked fast axonal flow, imaged in real time using confocal laser microscopy and JC-1 as mitotracker. Control neurons in parallel cultures remained unaffected with no varicosity formation and no change in
MMP
. Mitochondrial movement was continuous and measured along the axons at a rate of 0.8 microm/s (range 0.5-2 microm/s), consistent with fast axonal flow. Photoacceptors in the mitochondrial membrane absorb laser and mediate the transduction of laser energy into electrochemical changes, initiating a secondary cascade of intracellular events. In neurons, this results in a decrease in
MMP
with a concurrent decrease in available ATP required for nerve function, including maintenance of microtubules and molecular motors, dyneins and kinesins, responsible for fast axonal flow. Laser-induced neural blockade is a consequence of such changes and provide a mechanism for a neural basis of laser-induced pain relief. The repeated application of laser in a clinical setting modulates nociception and reduces pain. The application of laser therapy for chronic pain may provide a non-drug alternative for the management of chronic pain.
...
PMID:830 nm laser irradiation induces varicosity formation, reduces mitochondrial membrane potential and blocks fast axonal flow in small and medium diameter rat dorsal root ganglion neurons: implications for the analgesic effects of 830 nm laser. 1737 99
Primary chronic venous disease (CVD) is an inflammatory pathology involving an erratic structural remodeling in the venous well leading to vascular incompetence and the development of
varicose vein
, characterized by altered collagen and elastin content. In the early steps of
varicose vein
formation is crucial the role of
MMP
/TIMP balance, implicated in both ECM and vascular degradation during inflammation processes in early and late stages of venous diseases. Although several pharmacological and surgical strategies are being utilized in the management of
varicose vein
and CVD with variable success and recurrence rate, inhibition of
MMP
through glycosaminoglycans may represent a novel therapeutic intervention to limit the progression of
varicose vein
to CVD and leg ulceration, suggesting possible opportunity to prevent future morbidity and enhancing clinical benefits and quality of life.
...
PMID:Matrix metalloproteinase activity and glycosaminoglycans in chronic venous disease: the linkage among cell biology, pathology and translational research. 2141 57
Chronic venous disease (CVeD) is a debilitating condition that affects millions of individuals worldwide. The condition can result in
varicose veins
, or advance to severe skin changes and venous ulceration. The fundamental basis for CVeD is inflammation within the venous circulation and that it is subjected to increased hydrostatic pressure resulting in increased ambulatory venous pressure. The inflammation involves leukocytes, in particular macrophages and monocytes, inflammatory modulators and chemokines, cytokine expression, growth factors, metalloproteinase (
MMP
) activity, and many regulatory pathways that perpetuate inflammation. Sulodexide (SDX) is a glycosaminoglycan with pro-fibrinolytic and anti-thrombotic properties. We have previously demonstrated that SDX inhibits the secretion of pro-zymogen MMP-9 from human leukocytes without displacing high molecular complexes of MMP-9. The anti-inflammatory properties of SDX on activated leukocytes have not been well established. We hypothesized that SDX will reduce the secretion of inflammatory mediators from lipopolysaccharide (LPS)-stimulated macrophages. Therefore, we evaluated the effects of SDX on LPS-stimulated macrophage secretion of various inflammatory and anti-inflammatory cytokines, chemokines, and colony stimulating factors. We used microplatebased multiplex immunoassays. LPS-stimulated macrophages in vitro caused a substantial increase of interleukins, tumor necrosis factor, interferon, chemokines and colony stimulating factors. The addition of SDX caused both a dose-dependent and dose-independent decrease in nearly all of the inflammatory cytokines, chemokines and colony stimulating factors. These findings suggest that SDX has a significant effect on the release of inflammatory mediators from macrophages, and may be useful in the treatment of early and advanced CVeD.
...
PMID:Sulodexide down-regulates the release of cytokines, chemokines, and leukocyte colony stimulating factors from human macrophages: role of glycosaminoglycans in inflammatory pathways of chronic venous disease. 2427 20
