Biosynthesis of the salinosporamide A polyketide synthase substrate chloroethylmalonyl-coenzyme A from
S
-adenosyl-
l
-methionine
Polyketides are among the major classes of bioactive natural products used to treat microbial infections, cancer, and other diseases. Here we describe a pathway to chloroethylmalonyl-CoA as a polyketide synthase building block in the biosynthesis of salinosporamide A, a marine microbial metabolite whose chlorine atom is crucial for potent proteasome inhibition and anticancer activity. S-adenosyl-L-methionine (SAM) is converted to 5-chloro-5-deoxyadenosine (5-ClDA) in a reaction catalyzed by a SAMdependent chlorinase as previously reported. By using a combination of gene deletions, biochemical analyses, and chemical complementation experiments with putative intermediates, we now provide evidence that 5-ClDA is converted to chloroethylmalonyl-CoA in a 7-step route via the penultimate intermediate 4-chlorocrotonyl-CoA. Because halogenation often increases the bioactivity of drugs, the availability of a halogenated polyketide building block may be useful in molecular engineering approaches toward polyketide scaffolds.actinomycete ͉ biological halogenation ͉ marine natural product ͉ proteasome inhibitor ͉ Salinispora tropica
Targeting of Plasminogen Activator Inhibitor 1 Improves Fibrinolytic Therapy for Tetracycline-Induced Pleural Injury in Rabbits
Endogenous active plasminogen activator inhibitor 1 (PAI-1) was targeted in vivo with monoclonal antibodies (mAbs) that redirect its reaction with proteinases to the substrate branch. mAbs were used as an adjunct to prourokinase (single-chain [sc] urokinase [uPA]) intrapleural fibrinolytic therapy (IPFT) of tetracycline-induced pleural injury in rabbits. Outcomes of scuPA IPFT (0.25 or 0.0625 mg/kg) with 0.5 mg/kg of mouse IgG or mAbs (MA-33H1F7 and MA-8H9D4) were assessed at 24 hours. Pleural fluid (PF) was collected at 0, 10, 20, and 40 minutes and 24 hours after IPFT and analyzed for plasminogen activating (PA), uPA, fibrinolytic activities, levels of total plasmin/plasminogen, a-macroglobulin (aM), mAbs/IgG antigens, free active uPA, and aM/uPA complexes. Anti-PAI-1 mAbs, but not mouse IgG, delivered with an eightfold reduction in the minimal effective dose of scuPA (from 0.5 to 0.0625 mg/kg), improved the outcome of IPFT (P , 0.05). mAbs and IgG were detectable in PFs at 24 hours. Compared with identical doses of scuPA alone or with IgG, treatment with scuPA and anti-PAI-1 mAbs generated higher PF uPA amidolytic and PA activities, faster formation of aM/uPA complexes, and slower uPA inactivation. However, PAI-1 targeting did not significantly affect intrapleural fibrinolytic activity or levels of total plasmin/plasminogen and aM antigens. Targeting PAI-1 did not induce bleeding, and rendered otherwise ineffective doses of scuPA able to improve outcomes in tetracycline-induced pleural injury. PAI-1-neutralizing mAbs improved IPFT by increasing the durability of intrapleural PA activity. These results suggest a novel, well-tolerated IPFT strategy that is tractable for clinical development. Keywords: plasminogen activator inhibitor 1; fibrinolytic therapy; animal model; prourokinase; monoclonal antibodies Clinical RelevanceOrganizing pleural injury remains an important clinical problem for which fibrinolytic therapy has been used with variable results for children and adults. This study demonstrates, for the first time, that the targeting of active plasminogen activator inhibitor 1 enhances the ability of relatively low doses of intrapleural single-chain urokinase to clear pleural effusions after induction of organizing injury. This work defines a new, well-tolerated approach for intrapleural fibrinolytic therapy that is promising and tractable for clinical trial testing.The results of Multicenter Intrapleural Sepsis Trials 1 and 2 demonstrated that intrapleural fibrinolytic therapy (IPFT) with either streptokinase, or tissue-type plasminogen activator (tPA) alone were ineffective (1, 2). In contrast, there is a growing body of clinical reports demonstrating the successful use of IPFT, including tPA,. It is likely that the disparate results of IPFT trials, which are largely successful in children (2, 6) and variably effective in adults (6, 7), relate to the lack of formal toxicological and dose-escalation studies, resulting in empiric dosing. A further impediment to the field is an incomplete underst...
Plasminogen Activator Inhibitor-1 Deficiency Augments Visceral Mesothelial Organization, Intrapleural Coagulation, and Lung Restriction in Mice with Carbon Black/Bleomycin–Induced Pleural Injury
Local derangements of fibrin turnover and plasminogen activator inhibitor (PAI)-1 have been implicated in the pathogenesis of pleural injury. However, their role in the control of pleural organization has been unclear. We found that a C57Bl/6j mouse model of carbon black/bleomycin (CBB) injury demonstrates pleural organization resulting in pleural rind formation (14 d). In transgenic mice overexpressing human PAI-1, intrapleural fibrin deposition was increased, but visceral pleural thickness, lung volumes, and compliance were comparable to wild type. CBB injury in PAI-1 2/2 mice significantly increased visceral pleural thickness (P , 0.001), elastance (P , 0.05), and total lung resistance (P , 0.05), while decreasing lung compliance (P , 0.01) and lung volumes (P , 0.05). Collagen, a-smooth muscle actin, and tissue factor were increased in the thickened visceral pleura of PAI-1 2/2 mice. Colocalization of a-smooth muscle actin and calretinin within pleural mesothelial cells was increased in CBB-injured PAI-1 2/2 mice. Thrombin, factor Xa, plasmin, and urokinase induced mesothelial-mesenchymal transition, tissue factor expression, and activity in primary human pleural mesothelial cells. In PAI-1 2/2 mice, D-dimer and thrombin-antithrombin complex concentrations were increased in pleural lavage fluids. The results demonstrate that PAI-1 regulates CBB-induced pleural injury severity via unrestricted fibrinolysis and cross-talk with coagulation proteases. Whereas overexpression of PAI-1 augments intrapleural fibrin deposition, PAI-1 deficiency promotes profibrogenic alterations of the mesothelium that exacerbate pleural organization and lung restriction.
Active α-macroglobulin is a reservoir for urokinase after fibrinolytic therapy in rabbits with tetracycline-induced pleural injury and in human pleural fluids
Komissarov AA, Florova G, Azghani A, Karandashova S, Kurdowska AK, Idell S. Active ␣-macroglobulin is a reservoir for urokinase after fibrinolytic therapy in rabbits with tetracycline-induced pleural injury and in human pleural fluids. Am J Physiol Lung Cell Mol Physiol 305: L682-L692, 2013. First published August 30, 2013 doi:10.1152/ajplung.00102.2013.-Intrapleural processing of prourokinase (scuPA) in tetracycline (TCN)-induced pleural injury in rabbits was evaluated to better understand the mechanisms governing successful scuPA-based intrapleural fibrinolytic therapy (IPFT), capable of clearing pleural adhesions in this model. Pleural fluid (PF) was withdrawn 0 -80 min and 24 h after IPFT with scuPA (0 -0.5 mg/kg), and activities of free urokinase (uPA), plasminogen activator inhibitor-1 (PAI-1), and uPA complexed with ␣-macroglobulin (␣M) were assessed. Similar analyses were performed using PFs from patients with empyema, parapneumonic, and malignant pleural effusions. The peak of uPA activity (5-40 min) reciprocally correlated with the dose of intrapleural scuPA. Endogenous active PAI-1 (10 -20 nM) decreased the rate of intrapleural scuPA activation. The slow step of intrapleural inactivation of free uPA (t1/2  ϭ 40 Ϯ 10 min) was dose independent and 6.7-fold slower than in blood. Up to 260 Ϯ 70 nM of ␣M/uPA formed in vivo [second order association rate (kass) ϭ 580 Ϯ 60 M Ϫ1 ·s Ϫ1 ]. ␣M/uPA and products of its degradation contributed to durable intrapleural plasminogen activation up to 24 h after IPFT. Active PAI-1, active ␣2M, and ␣2M/uPA found in empyema, pneumonia, and malignant PFs demonstrate the capacity to support similar mechanisms in humans. Intrapleural scuPA processing differs from that in the bloodstream and includes 1) dose-dependent control of scuPA activation by endogenous active PAI-1; 2) two-step inactivation of free uPA with simultaneous formation of ␣M/uPA; and 3) slow intrapleural degradation of ␣M/uPA releasing active free uPA. This mechanism offers potential clinically relevant advantages that may enhance the bioavailability of intrapleural scuPA and may mitigate the risk of bleeding complications. fibrinolytic therapy; rabbit model; pleural injury; urokinase; ␣-macroglobulin; human FIBRINOLYSINS, INCLUDING tissue type (tPA) and urokinase (active two-chain enzyme; tcuPA), are plasminogen activators (PAs) that have long been used to treat a variety of thrombotic conditions including acute myocardial infarction (23; 44), deep vein thrombosis (33, 40), ischemic stroke (1, 3), acute respiratory distress syndrome (ARDS) (20, 21), pulmonary emboli, and organizing pleural effusions (8,9,11,31,37,43). Although intrapleural fibrinolytic therapy (IPFT) has been in use for over 60 years, it has recently undergone reassessment in light of the disparate results seen in clinical trials (9, 11, 37). The efficacy of IPFT in adults remains a subject of ongoing debate. Intrapleural streptokinase was ineffective in patients with complicated parapneumonic pleural effusions and empyema (EMP), whereas ...
Intrapleural Adenoviral Delivery of Human Plasminogen Activator Inhibitor–1 Exacerbates Tetracycline-Induced Pleural Injury in Rabbits
Elevated concentrations of plasminogen activator inhibitor-1 (PAI-1) are associated with pleural injury, but its effects on pleural organization remain unclear. A method of adenovirus-mediated delivery of genes of interest (expressed under a cytomegalovirus promoter) to rabbit pleura was developed and used with lacZ and human (h) PAI-1. Histology, b-galactosidase staining, Western blotting, enzymatic and immunohistochemical analyses of pleural fluids (PFs), lavages, and pleural mesothelial cells were used to evaluate the efficiency and effects of transduction. Transduction was selective and limited to the pleural mesothelial monolayer. The intrapleural expression of both genes was transient, with their peak expression at 4 to 5 days. On Day 5, hPAI-1 (40-80 and 200-400 nM of active and total hPAI-1 in lavages, respectively) caused no overt pleural injury, effusions, or fibrosis. The adenovirus-mediated delivery of hPAI-1 with subsequent tetracycline-induced pleural injury resulted in a significant exacerbation of the pleural fibrosis observed on Day 5 (P ¼ 0.029 and P ¼ 0.021 versus vehicle and adenoviral control samples, respectively). Intrapleural fibrinolytic therapy (IPFT) with plasminogen activators was effective in both animals overexpressing hPAI-1 and control animals with tetracycline injury alone. An increase in intrapleural active PAI-1 (from 10-15 nM in control animals to 20-40 nM in hPAI-1-overexpressing animals) resulted in the increased formation of PAI-1/plasminogen activator complexes in vivo. The decrease in intrapleural plasminogen-activating activity observed at 10 to 40 minutes after IPFT correlates linearly with the initial concentration of active PAI-1. Therefore, active PAI-1 in PFs affects the outcome of IPFT, and may be both a biomarker of pleural injury and a molecular target for its treatment.Keywords: pleural injury; plasminogen activator inhibitor-1; intrapleural fibrinolytic therapyThe incidence of complicated pleural infection and empyema, a serious infection of the pleural space often associated with pneumonia, is increasing in the United States (1) and other countries, in both adult and pediatric populations (2-5). The exact cause of this increase is unknown, although the increased prevalence of antibiotic-resistant bacteria, changes in empyema management, and changes in causative bacterial agents have been implicated (1,3,6). Pleural infections, empyema, or complicated parapneumonic effusions develop in approximately 80,000 patients in the United States and the United Kingdom annually (7). In the United Kingdom, a 20% mortality rate was reported for patients with empyema, and 20% of patients require surgical intervention after developing a pleural infection (7). When pleural effusions occur in association with high-grade inflammation, they can organize with the development of loculation, where an effusion becomes trapped behind partly fused visceral and parietal pleura, with pleural thickening (8-10). Persistent pleural loculation and fibrosis increase morbidity and mortality an...
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.
Contact Info
customersupport@researchsolutions.com
10624 S. Eastern Ave., Ste. A-614
Henderson, NV 89052, USA
Product
Resources
This site is protected by reCAPTCHA and the Google Privacy Policy and Terms of Service apply.
Copyright © 2024 scite LLC. All rights reserved.
Made with 💙 for researchers
Part of the Research Solutions Family.
