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Query: UNIPROT:P00750 (PLA)
 16,800 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The increased incidence of postoperative adhesions and their complications have refocused attention on our understanding of adhesions, their clinical consequences and prevention. Postsurgical adhesions have four major negative impacts on health care outcomes. First, adhesions cause significant morbidity, including intestinal obstruction, infertility and pelvic pain. Second, adhesions are associated with multiple surgical complications. Third, these complications lead to greater surgical workload and utilization of hospital and other health care resources. Fourth, all these negative impacts result in significant economic burden to society. The complexities of adhesion formation and limitations in their understanding and research have hampered the development of satisfactory preventive treatments. Adhesions are highly differentiated, formed through an intricate process and associated with a complex organ, the peritoneum. The surface lining of the peritoneum is the key site in adhesion formation and prevention. Two unique properties of the peritoneal surface play key roles in these processes: its delicacy and its uniform, relatively rapid rate of re-epithelialization, irrespective of the size of injury. A suitable barrier that separates damaged peritoneal surfaces for the entire five to seven days of re-epithelialization is likely to prove effective in reducing adhesion formation. Postsurgical peritoneal repair begins with coagulation, which releases a variety of chemical messengers that bring about a cascade of events. Some of the principal cellular elements in this cascade are leukocytes, including polymorphonuclear neutrophils and macrophages, mesothelial cells, and fibrin. Following surgical injury, macrophages exhibit increased phagocytic, respiratory burst and secretory activity, and after day 5, are the major component of the leukocyte population. Macrophages also recruit new mesothelial cells onto the surface of the injury. These cells form small islands throughout the injured area which proliferate into sheets of mesothelial cells and accomplish re-epithelialization, usually five to seven days after surgical injury. The progenitor to adhesions is the fibrin gel matrix which develops in several steps. These include the formation and insolubilization of fibrin polymer and its interaction with fibronectin and a series of amino acids. Protective fibrinolytic enzyme systems of the peritoneal mesothelium, such as the tissue plasminogen activator (tPA) system, can remove the fibrin gel matrix. However, surgery dramatically diminishes fibrinolytic activity. This occurs in at least two ways: first, by increasing levels of plasminogen activator inhibitors and second, by reducing tissue oxygenation. Peritoneal re-epithelialization and adhesion formation thus can be seen as alternative pathways following peritoneal injury. The pivotal events determining the pathway are the apposition of two damaged surfaces and the extent of fibrinolysis. Development of strategies to separate damaged peritoneal surfaces and to foster an appropriate degree of fibrinolysis appears to be among the most promising avenues of adhesion prevention research. Hopefully, these efforts will lead to adhesion-free peritoneal healing following abdominal surgery.
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PMID:Biochemical events in peritoneal tissue repair. 907 47

Postoperative adhesion development remains a very frequent occurrence, which is often unrecognized by surgeons because of limited ability to conduct early second-look laparoscopies. The consequences include infertility, pelvic pain, bowel obstruction, and difficult reoperative procedures. To date, approaches to limit adhesions primarily have involved barriers to separate tissue during reepithelization. Future progress in regulating adhesion development and tissue fibrosis likely will require an improved understanding of the molecular processes involved in normal peritoneal repair and its aberrations leading to adhesion development. We hypothesize that tissue hypoxia (in part resulting from tissue incision, fulguration, suture ligation, etc.) is the major inciting event, which leads to a coordinated series of molecular events that promote an inflammatory response leading to enhanced tissue fibrosis. These events are reduced plasminogen activator activity, extracellular matrix deposition, increased cytokine production, increased angiogenesis, and reduced apoptosis (programmed cell death). Improved understanding of these events and their regulation will provide the opportunity to regulate better postoperative adhesion development and tissue fibrosis, thereby reducing the morbidity and mortality they cause.
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PMID:Molecular characterization of postoperative adhesions: the adhesion phenotype. 1555 39

The fibrinolytic system includes a broad spectrum of proteolytic enzymes with physiological and pathophysiological functions in several processes, such as haemostatic balance, tissue remodeling, tumor invasion, angiogenesis and reproduction. The main enzyme of the plasminogen activator system is plasmin, which is responsible for the degradation of fibrin into soluble degradation products. The activation of plasminogen into plasmin is mediated by two types of activators, urokinase-type plasminogen activator (uPA) and tissue-type plasminogen activator (tPA). The activity of both is regulated by specific plasminogen activator inhibitors (PAIs). There are 3 types of PAIs described so far but the most important fibrinolytic inhibitor in vivo is PAI type 1 (PAI-1). Among others, the presence of metabolic syndrome and the -675 4G/5G promoter polymorphism are known to be modulators of PAI-1 levels. Besides their fibrinolytic profile, plasmin and plasminogen activators are implicated in tissue proliferation and cellular adhesion, as they can proteolytically degrade the extracellular matrix and regulate the activation of both growth factors and matrix metalloproteinases. By all these means, the fibrinolytic system is also involved in physiological processes, and in pathological situations such as thrombosis, arteriosclerosis, endometriosis and cancer. PAI 1 has been studied in different settings with thrombotic pathophysiology, such as coronary artery disease and ischaemic stroke. Controversial results have been published and concerns about study designs or presence of confounders have been claimed to be responsible of them. Recently, its involvement in adverse thrombotic events related to the modern drug-eluting coronary stents has renewed the interest of its study. PAI-1 also plays an important role in signal transduction, cell adherence, and migration. Indeed, studies of several types of cancers, including breast cancer, have shown that increased uPA and PAI-1 levels are associated with aggressive tumor behavior and poor prognosis. Endometriosis is defined by the presence of endometrial glands and stroma outside the uterus with marked ability to attach and invade the peritoneum. It is one of the most frequent benign gynecological diseases that affect women with pelvic pain or infertility during their reproductive age. Immune system disorders, genetic predisposition, altered peritoneal environment and endometrial alterations are believed to increase the susceptibility to endometriosis. The plasminogen activator system may be involved in this process, where local extracellular proteolysis plays a crucial role. Altered expression of several components of the fibrinolytic system in both eutopic and ectopic endometrium and peritoneal fluid of women with the disease has been implicated not only in the onset, but also in the progression of the endometriotic lesions.
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PMID:Fibrinolysis: the key to new pathogenetic mechanisms. 1847

Most surgical procedures performed by obstetrician-gynecologists are associated with pelvic adhesions that cause subsequent serious sequelae, including small bowel obstruction, infertility, chronic pelvic pain, and difficulty in postoperative treatment, including complexity during subsequent surgical procedures. This study was conducted to determine if gonadotropin-releasing hormone analogues (GnRHa) affect the expressing tissue-type plasminogen activator (t-PA) and its inhibitor-1 (PAI-1) in peritoneal cells in culture. Human peritoneal Met5A cells were used to examine the effects of GnRHa leuprolide, buserelin and goserelin on the levels of t-PA and PA-1. Antigen concentrations were measured in conditioned media and cell lysates by real-time PCR and ELISA. GnRH receptor (GnRHR) mRNA was determined by RT-PCR. GnRHR mRNA was detected in Met5A cells. Exposure of Met5A cells to GnRHa induced a rapid decrease of PAI-1 level in cultured medium but not in cell lysate (protein and mRNA). These effects of GnRHa on PAI-1 were not associated with any changes in t-PA level. These results suggest that GnRHa may be an effective stimulator of local peritoneal fibrinolytic activity, as it decreases PAI-1 secretion in peritoneal Met5A cells by a mechanism linked to GnRHR.
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PMID:GnRH receptor and peritoneal plasmin activity. 2023 28

Post-operative peritoneal adhesions are serious consequences of abdominal or pelvic surgery and cause severe bowel obstruction, chronic pelvic pain and infertility. In this study, a novel nano-hydrogel system based on a monomethoxy poly(ethylene glycol)-poly(lactic acid) (MPEG-PLA) di-block copolymer was studied for its ability to prevent abdominal adhesion in rats. The MPEG-PLA hydrogel at a concentration of 40% (w/v) was injected and was able to adhere to defect sites at body temperature. The ability of the hydrogel to inhibit adhesion of post-operative tissues was evaluated by utilizing a rat model of abdominal sidewall-cecum abrasion. It was possible to heal wounded tissue through regeneration of neo-peritoneal tissues ten days after surgery. Our data showed that this hydrogel system is equally as effective as current commercialized anti-adhesive products.
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PMID:Biodegradable and thermosensitive monomethoxy poly(ethylene glycol)-poly(lactic acid) hydrogel as a barrier for prevention of post-operative abdominal adhesion. 2473 Feb 38