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Serine proteinase inhibitor, clade E, member 2 (SERPINE2), is a cell- and extracellular matrix-associated inhibitor of thrombin. Although SERPINE2 is a candidate susceptibility gene for chronic obstructive pulmonary disease, the physiologic role of this protease inhibitor in lung development and homeostasis is unknown. We observed spontaneous monocytic-cell infiltration in the lungs of Serpine2-deficient (SE2(-/-)) mice, beginning at or before the time of lung maturity, which resulted in lesions that resembled bronchus-associated lymphoid tissue (BALT). The initiation of lymphocyte accumulation in the lungs of SE2(-/-) mice involved the excessive expression of chemokines, cytokines, and adhesion molecules that are essential for BALT induction, organization, and maintenance. BALT-like lesion formation in the lungs of SE2(-/-) mice was also associated with a significant increase in the activation of thrombin, a recognized target of SE2, and excess stimulation of NF-κB, a major regulator of chemokine expression and inflammation. Finally, systemic delivery of thrombin rapidly stimulated lung chemokine expression in vivo These data uncover a novel mechanism whereby loss of serine protease inhibition leads to lung lymphocyte accumulation.-Solleti, S. K., Srisuma, S., Bhattacharya, S., Rangel-Moreno, J., Bijli, K. M., Randall, T. D., Rahman, A., Mariani, T. J. Serpine2 deficiency results in lung lymphocyte accumulation and bronchus-associated lymphoid tissue formation.
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Bronquios/patología , Pulmón/citología , Linfocitos/fisiología , Tejido Linfoide/patología , Serpina E2/metabolismo , Animales , Regulación de la Expresión Génica/fisiología , Ratones , Ratones Noqueados , Serpina E2/genéticaRESUMEN
Protease Nexin-1 (PN-1) or Serpine2 is a physiological regulator of extracellular proteases as thrombin and urokinase (uPA) in the brain. Besides, PN-1 is also implicated in some human cancers and further identified as a substrate for Matrix Metalloproteinase (MMP)-9, a key enzyme in tumor invasiveness. Our aim was to study the role of PN-1 in the migration and invasive potential of glioma cells, using the rat C6 glioma cell line as stable clones transfected with pAVU6+27 vector expressing PN-1 short-hairpin RNA. We find that PN-1 knockdown enhanced the in vitro migration and invasiveness of C6 cells which also showed a strong gelatinolytic activity by in situ zymography. PN-1 silencing did not alter prothrombin whereas increased uPA, MMP-9 and MMP-2 expression levels and gelatinolytic activity in a conditioned medium from stable C6 cells. Selective inhibitors for MMP-9 (Inhibitor I), MMP-2 (Inhibitor III) or exogenous recombinant PN-1 added to the culture medium of C6 silenced cells restored either the migration and invasive ability or gelatinolytic activity thus validating the specificity of PN-1 silencing strategy. Phosphorylation levels of extracellular signal-related kinases (Erk1/2 and p38 MAPK) involved in MMP-9 and MMP-2 signaling were increased in PN-1 silenced cells. This study shows that PN-1 affects glioma cell migration and invasiveness through the regulation of uPA and MMP-9/2 expression levels which contribute to the degradation of extracellular matrix during tumor invasion.
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BACKGROUND AND AIM: Cancer-associated fibroblasts (CAFs), one of the most abundant stromal cell types in tumor microenvironment (TME), have been a potential target for cancer treatment such as lung cancer. However, the underlying mechanism by which CAFs promote lung cancer progression remains elusive. METHODS: We obtained primary CAFs, normal fibroblasts (NFs) and their exosomes, constructed protease nexin-1 (PN1) stably silenced or over-expressed CAFs cells using lentivirus. Bioinformatics was used to obtain the expression of PN1 in lung cancer and normal tissues, the relationship with overall survival, and the enriched pathways. The MTT assays and Transwell assays were performed to detect the proliferation, migration, and invasion abilities of lung cancer cells after treatments. Western blotting, qRT-PCR, immunohistochemistry, and xenograft models were used to illustrate how CAFs functions in lung cancer progression via exosomes. RESULTS: CAFs-derived exosomes, in which PN1 was higher expressed compared with NFs-derived ones, promoted effectively the proliferation, migration, and invasion of lung cancer cells A549 and H1975. Meanwhile, the expression of PN1 expressed higher in lung cancer tissues compared with normal ones, and was negatively associated with the overall survival rate of lung cancer patients. More importantly, over-expressing or silencing PN1 in A549 and H1975 could also promote or inhibit cell proliferation, migration, and invasion correspondingly. Furthermore, treated with PN1 over-expressed CAFs-derived exosomes, the lung cancer cells proliferation, migration, and invasion varied positively, and accompanied by activation of Toll-like and NF-κB signaling pathways. However, this phenomenon can be reversed by AN-3485, an antagonist of Toll-like pathway. Finally, over-expressing PN1 leads to an accelerated tumor growth by increasing the expression of proliferation biomarker Ki67 and activation of NF-κB signaling pathway in vivo. CONCLUSIONS: CAFs promoted lung cancer progression by transferring PN1 and activating Toll-like/NF-κB signaling pathway via exosomes.
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BACKGROUND: Matrix metalloproteinase 9 (MMP9) has been implicated in extracellular matrix (ECM) remodelling, angiogenesis and inflammation. However, the targets for proteolysis that lead to these physiological consequences are often undefined as is the regulation of MMP9 itself. Therefore, identification of both the potential direct and indirect targets of MMP9 is critical for further understanding the effects of its proteolytic cascades. METHODS: To study these cascades on a wider scale, transgenic mouse "knock-out" models and ultra-high performance liquid chromatography mass spectroscopy (UPLC-MS(E) ) were used to elucidate the MMP9 targets, inhibitors, and interactors found in mouse seminal vesicle fluid (SVF). RESULTS: Proteomics analysis of SVF from wild type, mmp9-/- or pn1-/- mice detected differences in serine protease inhibitors (serpins), reproductive proteins, developmental regulators, and cancer proto-oncogenes, including Renin 1/2. Protease nexin 1 (PN1), an ECM-based inhibitor of urokinase, was elevated in the SVF of mmp9-/- mice. We observed that MMP9-mediated N-terminal cleavage of PN1 reduces this serpin's functional activity. Our data also suggest a feedback loop in which inhibition of PN1 is a critical step in permitting greater activity of MMP9. CONCLUSION: This study extends the degradome of MMP9 and examines components relevant to seminal fluid physiology. PN1 is proposed to be a novel inhibitor of MMP9 activity and a block to collagen cleavage, a frequent antecedent to cancer cell invasion. The interaction of MMP9 with PN1 and other serpins may lead to a better understanding of seminal vesicle function and possible impacts on fertility, as well as provide novel therapeutic targets.
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Metaloproteinasa 9 de la Matriz/metabolismo , Semen/metabolismo , Vesículas Seminales/metabolismo , Animales , Masculino , Metaloproteinasa 9 de la Matriz/genética , Ratones , Ratones Noqueados , Proteolisis , Proteómica , Serpina E2/genética , Serpina E2/metabolismoRESUMEN
The superfamily of serine protease inhibitors (SERPINs) are a class of inhibitors that utilise a dynamic conformational change to trap and inhibit their target enzymes. Their powerful nature lends itself well to regulation of complex physiological enzymatic cascades, such as the haemostatic, inflammatory and complement pathways. The SERPINs α2-antiplasmin, plasminogen-activator inhibitor-1, plasminogen-activator inhibitor-2, protease nexin-1, and C1-inhibitor play crucial inhibitory roles in regulation of the fibrinolytic system and inflammation. Elevated levels of these SERPINs are associated with increased risk of thrombotic complications, obesity, type 2 diabetes, and hypertension. Conversely, deficiencies of these SERPINs have been linked to hyperfibrinolysis with bleeding and angioedema. In recent years SERPINs have been implicated in the modulation of the immune response and various thromboinflammatory conditions, such as sepsis and COVID-19. Here, we highlight the current understanding of the physiological role of SERPINs in haemostasis and inflammatory disease progression, with emphasis on the fibrinolytic pathway, and how this becomes dysregulated during disease. Finally, we consider the role of these SERPINs as potential biomarkers of disease progression and therapeutic targets for thromboinflammatory diseases.
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OBJECTIVE: To investigated whether epigenetic mechanisms contribute to the variable expression of variable protease nexin1(PN-1) encoded by the SERPINE2 gene in different cell types. METHODS: Working with 5 human cell lines, we determined the CpG methylation status within two CpG islands in the SERPINE2 gene by bisulphate sequencing and the PN-1 mRNA level by Q-RT PCR. RESULTS: A CpG island spanning the transcription initiation site showed little methylation in 3 of the cell lines and substantial methylation in 2 of the cell lines. A CpG island covering the translation starting site showed full methylation in all investigated cell lines. Methylation within the CpG island was not randomly distributed, but showed accumulation at specific sites. However, we were not able to distinguish any patterns which related the methylation frequency to the gene expression level. Inhibition of CpG methylation with 5-aza-2'-deoxycytidine led to a several fold increase in PN-1 mRNA levels, but based on the results on CpG methylation in the CpG island spanning the transcript, the effect is most likely indirect. CONCLUSION: We have carefully mapped the CpG methylation pattern in two CpG islands in the 5' part of the SERPINE2 gene without finding any obvious inverse correlation between methylation frequency and expression level.
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BACKGROUND: Protease nexin-1 (PN-1) is a member of the serine protease inhibitor (Serpin)-family, with thrombin as its main target. Current polyclonal and monoclonal antibodies against PN-1 frequently cross-react with plasminogen activator inhibitor-1 (PAI-1), a structurally and functionally homologous Serpin. OBJECTIVES: Here, we aimed to develop inhibitory single-domain antibodies (VHHs) that show specific binding to both human (hPN-1) and murine (mPN-1) PN-1. METHODS: PN-1-binding VHHs were isolated via phage-display using llama-derived or synthetic VHH-libraries. Following bacterial expression, purified VHHs were analyzed in binding and activity assays. RESULTS AND CONCLUSIONS: By using a llama-derived library, 2 PN-1 specific VHHs were obtained (KB-PN1-01 and KB-PN1-02). Despite their specificity, none displayed inhibitory activity toward hPN-1 or mPN-1. From the synthetic library, 4 VHHs (H12, B11, F06, A08) could be isolated that combined efficient binding to both hPN-1 and mPN-1 with negligible binding to PAI-1. Of these, B11, F06, and A08 were able to fully restore thrombin activity by blocking PN-1. As monovalent VHH, half-maximal inhibitory concentration values for hPN-1 were 50 ± 10, 290 ± 30, and 960 ± 390 nmol/L, for B11, F06, and A08, respectively, and 1580 ± 240, 560 ± 130, and 2880 ± 770 nmol/L for mPN-1. The inhibitory potential was improved 4- to 7-fold when bivalent VHHs were engineered. Importantly, all VHHs could block PN-1 activity in plasma as well as PN-1 released from activated platelets, one of the main sources of PN-1 during hemostasis. In conclusion, we report the generation of inhibitory anti-PN-1 antibodies using a specific approach to avoid cross-reactivity with the homologous Serpin PAI-1.
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Anticuerpos de Dominio Único , Trombina , Animales , Anticuerpos Monoclonales , Técnicas de Visualización de Superficie Celular , Humanos , Ratones , Serpina E2/genéticaRESUMEN
The neuro-glial interface extends far beyond mechanical support alone and includes interactions throu-gh coagulation cascade proteins. Here, we systematically review the evidence indicating that synaptic and node of Ranvier glia cell components modulate synaptic transmission and axonal conduction by a coagulation cascade protein system, leading us to propose the concept of the neuro-glial coagulonome. In the peripheral nervous system, the main thrombin receptor protease activated receptor 1 (PAR1) is located on the Schwann microvilli at the node of Ranvier and at the neuromuscular junction. PAR1 activation effects can be both neuroprotective or harmful, depending on thrombin activity levels. Low physiological levels of thrombin induce neuroprotective effects in the Schwann cells which are mediated by the endothelial protein C receptor. High levels of thrombin induce conduction deficits, as found in experimental autoimmune neuritis, the animal model for Guillaine-Barre syndrome. In the central nervous system, PAR1 is located on the peri-synaptic astrocyte end-feet. Its activation by high thrombin levels is involved in the pathology of primary inflammatory brain diseases such as multiple sclerosis, as well as in other central nervous system insults, including trauma, neoplasms, epilepsy and vascular injury. Following activation of PAR1 by high thrombin levels the seizure threshold is lowered. On the other hand, PAR1 activation by lower levels of thrombin in the central nervous system protects against a future ischemic insult. This review presents the known structure and function of the neuro-glial coagulonome, focusing on coagulation, thrombin and PAR1 in a pathway which may be either physiological (neuroprotective) or detrimental in peripheral nervous system and central nervous system diseases. Understanding the neuro-glial coagulonome may open opportunities for novel pharmacological interventions in neurological diseases.
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SERPINE2, also known as protease nexin-1 (PN-1), is a serine protease inhibitor produced by many cell types and has pleiotropic biological functions. It has been reported that SERPINE2/PN-1 is involved in tissue remodeling of fibrotic diseases including idiopathic pulmonary fibrosis and cardiac fibrosis. However, the potential role of SERPINE2/PN-1 in asthmatic airway remodeling has remained barely investigated so far. In this study, BALB/c male mice were sensitized and challenged by ovalbumin to generate murine models of airway remodeling. Anti-SERPINE2 monoclonal antibody was intraperitoneally injected into these mice during the ovalbumin challenge while IgG antibody was used as a vehicle control. The results revealed that the expression of SERPINE2/PN-1 was significantly upregulated in the lung extracts of ovalbumin-challenged mice, and this upregulation was inhibited by dexamethasone. Sustained ovalbumin stimulation increased the thickness of airway wall and α-SMA positive areas in lung, which was attenuated by the treatment with SERPINE2 antibody. In addition, SERPINE2 antibody partially blocked the phosphorylation of ERK, and reduced the upregulation of MMP-9 and TIMP-1 expressions in asthmatic mice. These findings suggest that SERPINE2/PN-1 may play a role in the pathologic development of airway remodeling. Monoclonal antibody against SERPINE2 may have the potential as an effective pharmacotherapy for asthmatic airway remodeling.
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Chromogranin A (CgA), a neuroendocrine secretory protein, and its fragments are present in variable amounts in the blood of normal subjects and cancer patients. We investigated whether circulating CgA has a regulatory function in tumor biology and progression. Systemic administration of full-length CgA, but not of fragments lacking the C-terminal region, could reduce tumor growth in murine models of fibrosarcoma, mammary adenocarcinoma, Lewis lung carcinoma, and primary and metastatic melanoma, with U-shaped dose-response curves. Tumor growth inhibition was associated with reduction of microvessel density and blood flow in neoplastic tissues. Neutralization of endogenous CgA with antibodies against its C-terminal region (residues 410-439) promoted tumor growth. Structure-function studies showed that the C-terminal region of CgA contains a bioactive site and that cleavage of this region causes a marked loss of anti-angiogenic and anti-tumor potency. Mechanistic studies showed that full-length CgA could induce, with a U-shaped dose-response curve, the production of protease nexin-1 in endothelial cells, a serine protease inhibitor endowed of anti-angiogenic activity. Gene silencing or neutralization of protease nexin-1 with specific antibodies abolished both anti-angiogenic and anti-tumor effects of CgA. These results suggest that circulating full-length CgA is an important inhibitor of angiogenesis and tumor growth, and that cleavage of its C-terminal region markedly reduces its activity. Pathophysiological changes in CgA blood levels and/or its fragmentation might regulate disease progression in cancer patients.