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Query: EC:3.4.21.7 (
plasmin
)
9,023
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Plasminogen activators (PAs) and/or
plasmin
may be involved in hematopoietic regulation. These enzymes release biologically relevant cytokines such as basic fibroblast growth factor (bFGF) from matrix and cell surfaces. In addition, transforming growth factor beta (TGF beta) and interleukin-1 beta (
IL-1 beta
) are converted from inactive to active forms by
plasmin
. Therefore, we studied the regulation of PAs and their specific inhibitors, PA inhibitor 1 (PAI-1) and PA inhibitor 2 (PAI-2), in human bone marrow stromal fibroblasts by
IL-1 beta
, bFGF, and TGF beta. All three cytokines stimulated PA secretion.
IL-1 beta
at 10(4) U/mL increased urokinase (u-PA) levels approximately 10-fold, bFGF at 0.2 ng/mL also increased production 10-fold, but increased predominantly tissue PA (t-PA) expression. TGF beta at 0.2 ng/mL increased u-PA production up to 300-fold. PAI-1 and PAI-2 are also regulated by these cytokines.
IL-1 beta
decreased PAI-1 levels by 50% and stimulated PAI-2 levels sixfold. bFGF had minimal effects on PAI-1 and TGF beta increased PAI-1 levels twofold. Neither of these agents had an effect on PAI-2 levels. Thus, three cytokines relevant to bone marrow physiology regulate PA and inhibitor production by human bone marrow stromal fibroblasts. In this manner PA and
plasmin
generation in specific microenvironments in the bone marrow may be one of the factors orchestrating the complex series of events, which results in an efficient exquisitely regulated hematopoietic process.
...
PMID:Regulation of proteolytic activity in human bone marrow stromal cells by basic fibroblast growth factor, interleukin-1, and transforming growth factor beta. 153 45
Multiple mechanisms are necessary to spatially and temporally restrict and direct the effects of potent mediators of inflammation, immune reactions and tissue repair. Recent studies implicate alpha 2-macroglobulin (alpha 2M) as a protein that regulates the distribution and activity of many cytokines, including transforming growth factors-beta (TGFs-beta), tumor necrosis factor-alpha (TNF-alpha), platelet derived growth factor (PDGF), interleukin-6 (IL-6), nerve growth factor (NGF), fibroblast growth factor (b-FGF), and interleukin-1 beta (
IL-1 beta
). Some cytokines, including PDGF, NGF, and IL-6 bind preferentially to the native secreted form of alpha 2M, whereas the TGF-beta s, TNF-alpha and
IL-1 beta
bind preferentially to forms of alpha 2M that have been modified by proteinases such as
plasmin
. Cytokines bound to native alpha 2M retain much of their biologic activity in various bioassays, whereas cytokines bound to "activated" alpha 2Ms have decreased activity in some cell systems. Because native alpha 2M in circulation can escape into extravascular fluid during tissue injury and inflammation, alpha 2M is a putative cytokine carrier, especially in the presence of heparin or specific cytokine receptors that can displace non-covalently bound cytokines from native alpha 2M. However, proteinase or chemically modified alpha 2Ms become activated for receptor-mediated endocytosis (RME) when they undergo conformational alterations that expose a latent alpha 2M receptor-recognition domain. Circulating activated alpha 2Ms, together with bound cytokines, are rapidly removed by hepatic alpha 2M-receptors (alpha 2M-R) but also bind to other cells expressing alpha 2M-R. This suggests that diseases resulting from an apparent change in the production of one or several different cytokines might represent changes in either the production of alpha 2M "cytokine scavengers" or their alpha 2M-receptor-mediated clearance/targeting mechanisms. The sequence identity between the LDL-receptor related protein and the alpha 2M receptor (115) provides a theoretical basis for interference with cytokine clearance by association of competing lipoprotein ligands with this cytokine clearance pathway. Furthermore, activated alpha 2Ms or augmentation of alpha 2M-receptor-dependent cytokine clearance might be novel strategies for preventing the harmful systemic or local effects of excess cytokines such as TGF-beta s and TNF-alpha in vivo.
...
PMID:Cytokine binding and clearance properties of proteinase-activated alpha 2-macroglobulins. 171 74
1. The interaction between interleukin 1 (IL-1) and the fibrinolytic system in the control of collagen degradation by rabbit chondrocytes has been investigated in a tissue-culture system where cells are grown on a 14C-labelled collagen matrix. 2. Culture of rabbit chondrocytes in the presence of human recombinant
IL-1 beta
at a concentration of 57pM for 48 h led to the presence of procollagenase but not active collagenase in the medium. The latent collagenase could be activated by incubation with an organomercurial, aminophenylmercuric acetate (APMA). 3. Addition of
IL-1 beta
to chondrocytes grown on a 14C-labelled collagen matrix did not increase the degradation of the matrix compared to control over a 48 h period. However, in the presence of
plasmin
(200 micrograms ml-1) or plasminogen (100 micrograms ml-1),
IL-1 beta
(57 pM) caused almost complete degradation of the collagen matrix. Plasmin or plasminogen alone caused only slight degradation of the collagen matrix. 4. Tissue inhibitor of metalloproteinases (TIMP) or the selective metalloproteinase inhibitor, SC44463, inhibited the degradation induced by
IL-1 beta
and plasminogen in a concentration-related manner and at concentrations that were correlated with inhibition of collagenase. 5. When concentrations of
IL-1 beta
which caused only minimal degradation of the matrix in the presence of plasminogen were combined with fibrin (1 microgram ml-1), there was almost total degradation of the matrix by 48 h. 6. These results indicate there is a synergistic interaction between IL-1 and the fibrinolytic system in the degradation of collagen by rabbit chondrocytes in culture.
...
PMID:Co-operation between interleukin-1 and the fibrinolytic system in the degradation of collagen by articular chondrocytes. 216 39
Agents such as retinol, interleukin 1 and
catabolin
stimulate resorption of cultured cartilage. This process seems to be mediated by chondrocytes, but the mechanism by which breakdown occurs remains unknown. We have found that (10(-6)-10(-8) M) retinoic acid and (1 X 10(-6) M) retinol, in the presence or absence of a factor derived from cultured synovium (synovial factor), stimulate the degradation of fibrin by human chondrocytes in culture. Plasminogen was required for the enhancement of fibrinolysis, suggesting that the breakdown depended upon the production of plasminogen activators and subsequent liberation of
plasmin
. However, the chondrocytes did not release significant amounts of plasminogen activator, and the effects of the synovial factor and retinoids resulted from augmentation of the production or activity of enzymes which remained bound to the cell layer. The role of plasminogen in the resorption of cultured cartilage was also investigated. In the presence of plasminogen, (1 X 10(-8) M) retinoic acid or synovial factor stimulated the breakdown of cultured bovine nasal cartilage, but in the absence of plasminogen, the effect of synovial factor was abolished and that of retinoic acid reduced. However, in cultures containing both retinoic acid and synovial factor the resorption process was not affected by removal of plasminogen. Thus, the resorption of cartilage matrix in vitro may be partially mediated by plasminogen activators and
plasmin
.
...
PMID:Retinoids and synovial factor(s) stimulate the production of plasminogen activator by cultured human chondrocytes. A possible role for plasminogen activator in the resorption of cartilage in vitro. 391 88
In continuation of earlier observations on the involvement of interleukin-1 (IL-1) in ovarian function, we examined the ability of IL-1 to modulate plasminogen activator (PA) activity and prostaglandin (PG) synthesis in human granulosa lutein cells (GLCs). Toward this goal, GLCs were obtained from women undergoing in vitro fertilization, preincubated with 10% fetal calf serum for 48 h, and subsequently cultured for 48 h in serum-free media in the absence or presence of
IL-1 beta
(10 ng/mL). Cellular PA activity was measured by plasminogen-dependent cleavage of the chromogenic substrate H-D-valyl-L-leucyl-L-lysine-p-nitroanilide (S-2251). Prostaglandin E (PGE) levels were assayed by conventional RIA. Exposure of GLCs to IL-1 resulted in a 50% increase in PGE production, a 33% suppression of PA activity, and a 75% increase in the ability of the corresponding conditioned media to inhibit exogenous urokinase activity. The inhibitory capacity was attributable to an IL-1-mediated increase in PA inhibitor type-1 (PAI-1) production, inasmuch as urokinase inhibition could be abolished by the administration of a polyclonal antihuman PAI-1 immunoglobulin G. IL-1 treatment had no effect on
plasmin
or trypsin inhibition. Exposure of GLCs to IL-1 receptor antagonist abolished the ability of IL-1 to enhance PA inhibitory activity and PGE production, thereby establishing specific IL-1 receptor-mediated effects. The ability of IL-1 to suppress PA activity and to produce PAI-1 persisted in the presence of indomethacin, a potent inhibitor of PG synthesis. Likewise, transforming growth factor-beta 1 suppressed the ability of IL-1 to stimulate PGE production without affecting the IL-1-induced effects on the PA system. The present findings suggest a pluripotent response of GLCs to IL-1, characterized by the induction of PAI-1 and the suppression of PA occurring concurrent with, but independent of, PG production. These observations support the potential involvement of IL-1 in the regulation of human ovulatory processes.
...
PMID:Interleukin-1-mediated stimulation of prostaglandin E production is without effect on plasminogen activator activity in human granulosa lutein cell cultures. 755 90
Inflammatory bone resorption, a characteristic feature of periodontal disease and rheumatoid arthritis, appears to be mediated by interleukin-1 beta (
IL-1 beta
).
IL-1 beta
has been shown to stimulate a wide range of proteolytic enzymes, including collagenases and plasminogen activators, in particular chondrocytes, synovial cells, and isolated osteoblasts. In this study, we have examined the hypothesis that
IL-1 beta
may stimulate bone loss by inducing the activity of plasminogen activators (PAs) in bone cultures. The latter would convert plasminogen to
plasmin
, which in turn can activate precursor procollagenase to collagenase. Active collagenase would then break down the bone collagen matrix. In the present study, release of 45Ca from fetal rat long bones in culture was studied in the presence of plasminogen and
IL-1 beta
. Plasminogen and
IL-1 beta
separately enhance resorption of fetal rat long bones in vitro. When plasminogen and
IL-1 beta
are added together at suboptimal levels, mainly additive effects are observed. The presence of heat-inactivated serum does not alter these results. These data tend to indicate that
IL-1 beta
is stimulating bone resorption through both PA-dependent and PA-independent pathways.
...
PMID:Effects of plasminogen and interleukin-1 beta on bone resorption in vitro. 784 4
Cartilage degradation is mediated by activated matrix metalloproteinases (MMP). Since the
plasmin
/plasminogen cascade may activate latent MMP during cartilage catabolism, we determined if protease nexin-1 (PN-1), an inhibitor of plasminogen,
plasmin
, and urokinase could prevent cartilage degradation. Using a rabbit model, we induced cartilage glycosaminoglycan (GAG) loss by intraarticular (IA) injection of
IL-1 beta
and bFGF. PN-1 was given IA for 4 days, once before
IL-1 beta
/bFGF and daily for 3 days. Three days after
IL-1 beta
/bFGF, we determined GAG loss. PN-1 significantly inhibited GAG loss at 2.8, 2.5 mg, and 2.0 mg/knee (p < 0.03). These data suggest the role of the
plasmin
/plasminogen enzymatic cascade in the cartilage catabolism that occurs during IL-1-induced inflammation and demonstrates the potential of PN-1 to prevent cartilage degradation.
...
PMID:Recombinant human protease nexin-1 prevents articular cartilage-degradation in the rabbit. 838 2
Experiments were performed to examine the effect of the major fibrinolytic protease,
plasmin
, on the production of nitric oxide from interleukin-1 beta (
IL-1 beta
)-treated cultured human and rat aortic smooth muscle cells. Incubation of vascular smooth muscle cells with
IL-1 beta
resulted in significant accumulation of nitrite and nitrate in the culture media. Plasmin, either added exogenously or generated by the reaction of tissue plasminogen activator with plasminogen, potentiated the
IL-1 beta
-mediated release of nitrite and nitrate from smooth muscle cells in a concentration-dependent manner, without affecting the production of nitrite and nitrate from cells untreated with
IL-1 beta
. This potentiating effect was abolished when
plasmin
was incubated with the protease inhibitor, alpha 2-antiplasmin. The perfusates from columns containing
IL-1 beta
-treated smooth muscle cells relaxed detector blood vessels without endothelium, and the addition of
IL-1 beta
-treated smooth muscle cells to suspensions of indomethacin-treated platelets inhibited their aggregation. Untreated smooth muscle cells or cells treated with
plasmin
alone did not have such effects. However, the simultaneous treatment of smooth muscle cells with
IL-1 beta
and
plasmin
markedly enhanced both the relaxing activities of the perfusates and the inhibition of platelet aggregation. Treatment of smooth muscle cells with NG-nitro-L-arginine inhibited the cytokine-mediated effects as well as the potentiating effect of
plasmin
. These results demonstrate that the
plasmin
can enhance the production of nitric oxide by
IL-1 beta
-treated vascular smooth muscle cells.
...
PMID:Plasmin potentiates induction of nitric oxide synthesis by interleukin-1 beta in vascular smooth muscle cells. 844 74
Keratinocytes synthesize and secrete urokinase-type plasminogen activator (uPA) which is bound in an autocrine manner to a specific receptor (uPA-R) at the keratinocyte surface. Plasminogen that is also bound to specific membrane binding sites is readily activated by uPA-R-bound uPA. Thus,
plasmin
is provided for proteolysis of pericellular glycoproteins. The expression of uPA and the uPA-R is confined to migrating keratinocytes during epidermal wound healing, rather than to keratinocytes of the normal epidermis. The regulatory factors of uPA/uPA-R expression in keratinocytes remained largely elusive. Proinflammatory cytokines, such as tumor necrosis factor-alpha (TNF-alpha) or interleukin-1 beta (
IL-1 beta
), are present in epidermal wounds. We have therefore tested
IL-1 beta
and TNF-alpha for their influence on surface-associated plasminogen activation in a human keratinocyte cell line (HaCaT) as well as in primary cultures of normal human epidermal keratinocytes. Both cytokines induced the secretion of uPA into the culture supernatants and a concomitant increase in uPA activity as well as in uPA and uPA-R antigen at the cell surface. The increase was preceded by an increase in specific mRNA. The induction was accompanied by an accelerated uPA-dependent and
plasmin
-mediated detachment of HaCaT cells from the culture substratum. Taken together, the proinflammatory cytokines
IL-1 beta
and TNF-alpha induced a coordinated increase in uPA and uPA-R as well as increased pericellular
plasmin
-mediated proteolysis in human epidermal keratinocytes. This function might be an element of the molecular cell biological events during epidermal wound healing.
...
PMID:Upregulation of cell-surface-associated plasminogen activation in cultured keratinocytes by interleukin-1 beta and tumor necrosis factor-alpha. 860 16
Human keratinocytes synthesize and secrete tissue-type plasminogen activator (tPA). tPA converts the inactive precursor enzyme plasminogen into the trypsin-like proteinase
plasmin
. tPA is not found in normal epidermis, but in lesional epidermis from patients with a variety of cutaneous diseases, including psoriasis, pemphigus and pemphigoid. The presence of tPA is probably a reaction to the disease process rather than the initiating event in these etiologically and histopathologically diverse lesions. However, the factor(s) that upregulate tPA expression and secretion in keratinocytes have remained largely elusive. We sought to determine whether the inflammatory cytokine interleukin-1 beta (
IL-1 beta
), which is commonly present in diverse epidermal lesions, influences tPA production. Accordingly, we studied the influence of
IL-1 beta
on secretion of tPA by cells of the human keratinocyte cell line HaCaT. We found that
IL-1 beta
increased tPA secretion in these cells. Given the observation that
IL-1 beta
is a common proinflammatory mediator in cutaneous diseases, our findings may explain the increase in tPA in clinically and etiologically diverse inflammatory epidermal lesions.
...
PMID:Interleukin-1 beta upregulates tissue-type plasminogen activator in a keratinocyte cell line (HaCaT). 887 52
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