Neutrophil Elastase Inhibitor Research Articles

Sivelestat sodium protects against renal ischemia/reperfusion injury by reduction of NETs formation.

Ischemia-reperfusion injury (IRI) often results in renal impairment. While the presence of neutrophil extracellular traps (NETs) is consistently observed, their specific impact on IRI is not yet defined. Sivelestat sodium, an inhibitor of neutrophil elastase which is crucial for NET formation, may offer a therapeutic approach to renal IRI, warranting further research. A mouse model was established for early-stage renal IRI, confirmed by injury markers and histological assessments. The involvement of NETs in renal I/R was demonstrated using immunofluorescence and Western blot. Renal function and pathology were further evaluated through a comprehensive set of methods, including Periodic Acid-Schiff staining (PAS) and Terminal Deoxynucleotidyl Transferase dUTP Nick End Labeling (TUNEL) staining, enzyme-linked immunosorbent assay (ELISA), Real time Glomerular Filtration Rate (RT-GFR) monitoring, Polymerase Chain Reaction (PCR), biochemical analysis, and additional Western blot and immunofluorescence assays. We firstly quantified NET expression in renal IRI mice, noting a peak at 24 hours. Subsequently, sivelestat sodium treatment was administered, resulting in decreased MPO, CitH3, and attenuated tubular damage. Moreover, it resulted in a decrease in serum levels of creatinine, blood urea nitrogen (BUN), as well as neutrophil gelatinase-associated lipocalin (NGAL) and kidney injury molecule-1 (KIM-1). Additionally, it lowered the abundance of renal tissue inflammatory markers interleukin-6 (IL-6) and tumor necrosis factor-alpha (TNF-α), and mitigated the levels of oxidative stress indicators malondialdehyde (MDA) and 4 Hydroxynonenal (4HNE), accompanied by a decline in renal cell apoptosis and an enhancement of GFR in renal I/R mice. Sivelestat sodium ameliorates renal IRI by downregulating neutrophil NETs, reducing inflammation, oxidative stress, and apoptosis, thereby enhancing renal function.

Neutrophil elastase inhibitor (Sivelestat) in the treatment of acute respiratory distress syndrome induced by COVID-19: a multicenter retrospective cohort study

BackgroundRecent studies suggest that neutrophil elastase inhibitor (Sivelestat) may improve pulmonary function and reduce mortality in patients with acute respiratory distress syndrome. We examined the association between receipt of sivelestat and improvement in oxygenation among patients with acute respiratory distress syndrome (ARDS) induced by COVID-19.MethodsA large multicentre cohort study of patients with ARDS induced by COVID-19 who had been admitted to intensive care units (ICUs). We used propensity score matching to compare the outcomes of patients treated with sivelestat to those who were not. The differences in continuous outcomes were assessed with the Wilcoxon signed-rank test. Kaplan–Meier method was used to show the 28-day survival curves in the matched cohorts. A log-rank P-test stratified on the matched pairs was used to test the equality of the estimated survival curves. A Cox proportional hazards model that incorporated a robust sandwich-type variance estimator to account for the matched nature of the data was used to estimate hazard ratios (HR). All statistical analyses were performed with SPSS 26.0 and R 4.2.3. A two-sided p-value of < 0.05 was considered statistically significant.ResultsA total of 387 patients met inclusion criteria, including 259 patients (66.9%) who were treated with sivelestat. In 158 patients matched on the propensity for treatment, receipt of sivelestat was associated with improved oxygenation, decreased Murray lung injury score, increased non-mechanical ventilation time within 28 days, increased alive and ICU-free days within 28 days (HR, 1.85; 95% CI 1.29 to 2.64; log-rank p < 0.001), shortened ICU stay and ultimately improved survival (HR, 2.78; 95% CI 1.32 to 5.88; log-rank p = 0.0074).ConclusionsAmong patients with ARDS induce by COVID-19, sivelestat administration is associated with improved clinical outcomes.

Neutrophil Elastase as A Potential Target in Ischemia-Reperfusion Injury.

Neutrophil elastase (NE), a major protease in neutrophils, is important in promoting inflammation and multiple pathological processes. While NE is released abundantly in ischemiareperfusion (I/R) injury, the intricate relationship between NE and I/R injury remains unclear. We examine several aspects of how NE is involved in I/R injury. We also discuss the possibility of NE inhibitors used for abbreviating various types of I/R injury, such as myocardial infarction, based on preclinical research and clinical trials. Furthermore, we highlight the key question, the balance of NE and NE inhibitors, and propose new research directions. This review is useful for understanding the intrinsic interplay between NE and I/R injury-related diseases and expects to facilitate the development of effective NE inhibitors applied for I/R injury.

Weakened Airway Epithelial Junctions and Enhanced Neutrophil Elastase Release Contribute to Age-Dependent Bacteremia Risk Following Pneumococcal Pneumonia.

Streptococcus pneumoniae (Sp; pneumococcus), the most common agent of community-acquired pneumonia, can spread systemically, particularly in the elderly, highlighting the need for adjunctive therapies. The airway epithelial barrier defends against bacteremia and is dependent upon apical junctional complex (AJC) proteins such as E-cadherin. After mouse lung challenge, pneumolysin (PLY), a key Sp virulence factor, stimulates epithelial secretion of an inflammatory eicosanoid, triggering the infiltration of polymorphonuclear leukocytes (PMNs) that secrete high levels of neutrophil elastase (NE), thus promoting epithelial damage and systemic infection. Here, pulmonary E-cadherin staining of intratracheally (i.t.) inoculated mice revealed PLY-mediated disruption of AJC independently of PMNs. Apical infection of air-liquid interface (ALI) respiratory epithelial monolayers similarly showed that PLY disrupts AJCs. This epithelial damage promoted PMN transmigration and bacterial apical-to-basolateral translocation, and pharmacologically fortifying epithelial barrier function diminished both barrier breach invitro and bacteremia invivo. E-cadherin staining after Sp i.t. inoculation of > 20-month-old mice, or apical infection of ALI monolayers derived from these mice, revealed an age-associated vulnerability to PLY-mediated AJC disruption, which in turn enhanced PMN migration and bacteremia. In addition, we found that PMNs from aged mice secrete increased levels of tissue-damaging NE. Simultaneous pharmacological inhibition of tissue-destructive NE and fortification of pulmonary epithelial barrier function was required to reduce the level of Sp bacteremia in aged mice to that of young mice. This work underscores the importance of fully characterizing the multifactorial sources of age-associated susceptibility in devising adjunctive therapies to mitigate invasive pneumococcal disease in the elderly.

P51 Plaque psoriasis patients with psoriatic arthritis demonstrate a reduced regulatory capacity for neutrophil elastase compared with plaque psoriasis patients without arthritis

Abstract Identifying which patients with psoriasis (PsO) may develop psoriatic arthritis (PsA) is a research priority. We have previously shown that Elafin along with IL-36g are excellent cutaneous biomarkers for PsO. The protease inhibitor Elafin and its target protease, neutrophil elastase (NE), can be detected in both serum and epidermal samples. Our aims were to assess if known PsO biomarkers are expressed differentially in patients affected by plaque PsO with and without PsA. Protein expression of NE and Elafin were analysed in matched epidermal samples and serum of PsO, PsA patients and healthy controls. Findings were validated in independent PsA and arthritis cohorts. The ratio between NE and Elafin differed significantly between PsO and PsA patients. Expression of elafin was reduced in PsA samples as compared with plaque PsO patients. The ratio of NE to secretory leukocyte protease inhibitor was also increased in PsA as compared with PsO patients with no PsA, healthy controls and other arthritis patients. PsA patients show a reduced NE inhibitor expression in both the skin and blood compartment compared with those with plaque PsO only. This may suggest differences in the ability to regulate neutrophil activity in PsA patients.

Egg Protein Compositions over Embryonic Development in Haemaphysalis hystricis Ticks.

Tick eggs contain a series of proteins that play important roles in egg development. A thorough characterization of egg protein expression throughout development is essential for understanding tick embryogenesis and for screening candidate molecules to develop novel interventions. In this study, eggs at four developmental stages (0, 7, 14, and 21 incubation days) were collected, and their protein extraction was profiled using sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE). On the first day of egg protein extraction, protein bands from day-1 eggs were re-collected and subsequently analyzed using liquid chromatography-tandem mass spectrometry (LC-MS/MS). The dynamic changes in forty egg proteins during development were further investigated using LC-parallel reaction monitoring (PRM)/MS analysis. A total of 108 transcripts were detected in day-1 eggs. Based on protein functions and families, these transcripts were classified into eight categories: transporters, enzymes, immunity and antimicrobial proteins, proteinase inhibitors, cytoskeletal proteins, heat shock proteins, secreted proteins, and uncharacterized proteins. Identification of the protein bands revealed that nine bands predominantly consisted of vitellogenin and vitellin-A, while other notable proteins included cathepsins and Kunitz domain-containing proteins. LC-PRM/MS analysis indicated that 28 transcripts increased significantly in abundance, including 13/18 enzymes, 1/1 antimicrobial peptide, 2/2 neutrophil elastase inhibitors, 3/4 vitellogenins, 3/3 heat shock proteins, 3/3 cytoskeletal proteins, 1/1 elongation factor-1, and 1/1 uncharacterized protein. Conversely, five transcripts showed a decrease significantly, including 1/1 Kunitz domain-containing protein, 2/6 aspartic proteases, and 2/5 serpins. This research provides a comprehensive overview of egg proteins and highlights the dynamic changes in protein expression during embryonic development, which may be pivotal for understanding protein functions and selecting potential candidates for further study.

Enzymatic, structural, and biophysical characterization of a single-domain antibody (VHH) selectively and tightly inhibiting neutrophil elastase and exhibiting favorable developability properties.

Human neutrophil elastase (hNE), a serine protease released by neutrophils during inflammation, plays a major role in the pathophysiology of several conditions especially in inflammatory lung diseases. Its inhibition constitutes, therefore, a promising therapeutic strategy to combat these diseases. In this work, we characterized the in vitro properties of a VHH (i.e., the antigen binding domain of camelid heavy chain-only antibodies), referred to as NbE201. This VHH is able to inhibit tightly, selectively and competitively both human and murine elastases with the inhibition constants (Ki) of 4.1 ± 0.9 nM and 36.8 ± 3.9 nM, respectively. The IC50 for the inhibition of the hydrolysis of elastin is in the same range to that of alpha-1 antitrypsin (i.e., the main endogenous inhibitor of hNE also used in the clinic) and 14 times better than that of Sivelestat (i.e., the 2nd clinically approved hNE inhibitor). The X-ray crystal structure of the NbE201-hNE complex reveals that the Complementarity Determining Regions CDR1 and CDR3 of the VHH bind into the substrate binding pocket of hNE and prevent the access to small or macromolecular substrates. They do not, however, bind deep enough into the pocket to be hydrolyzed. NbE201 is highly stable towards oxidation, deamidation, and chemical or thermal denaturation. NbE201 is therefore likely to tolerate manufacturing processes during drug development. These results highlight the high potential of NbE201 as a (pre)clinical tool to diagnose and treat diseases associated with excessive hNE activity, and for fundamental research to better understand the role of hNE in these conditions.

Neutrophil Extracellular Traps Drive Kidney Stone Formation

Introduction: This study aims to explore the contribution of neutrophil extracellular traps (NETs) to kidney stones. Methods: The microarray data from GSE73680 and bioinformatic analysis were applied to identify differentially expressed genes in patients with kidney stones. A rat model of kidney stones was established through ethylene glycol and ammonium chloride administration. The plasma was collected for examining cf-DNA, DNase I, MPO-DNA, H3Cit and NE. Superoxide dismutase, malondialdehyde, creatinine, blood urea nitrogen, and calcium were examined through biochemical analysis. MPO, H3Cit, and NE in kidney tissues were detected via immunofluorescence staining. Cell apoptosis was evaluated through TUNEL assays. HE, Periodic Acid-Schiff and Von Kossa staining were applied to determine histological structure, calcium deposits and stone formation in the kidneys. Neutrophil elastase inhibitor Sivelestat (SIVE) was administrated for NET suppression in rats. Results: A total of 403 differentially expressed genes including 270 upregulated and 133 downregulated genes were identified between renal papillary tissues with Randall’s plaque and normal tissues. Gene ontology enrichment, KEGG pathway and protein-protein interaction network analysis of these dysregulated genes were performed. Moreover, increased NET markers including cf-DNA, DNase I, MPO-DNA, H3Cit and NE and calcium deposits were observed in patients with kidney stones. Subsequently, we established a rat model of kidney stones. We found that NET formation was significantly elevated in kidney stone rats, and renal tubular injury and apoptotic cells were enhanced as kidney stones developed. Strikingly, we found that suppression of NETs via SIVE could significantly reduce calcium deposits and apoptotic cells and alleviate tubular injury, thus improving kidney function. Conclusion: NETs drive the formation of kidney stones, thus aggravating kidney injury. Our study identifies NETs as a potential diagnostic and therapeutic biomarker for nephrolithiasis.

Deciphering Genotype-Phenotype Correlations and the Mechanism of the Action of Neutrophil Elastase Inhibitors during ELANE Associated Neutropenia Utilizing Molecular Modeling Software

Deciphering Genotype-Phenotype Correlations and the Mechanism of the Action of Neutrophil Elastase Inhibitors during <i>ELANE</i> Associated Neutropenia Utilizing Molecular Modeling Software

Targeting neutrophil serine proteases in bronchiectasis.

Persistent neutrophilic inflammation is a central feature in both the pathogenesis and progression of bronchiectasis (BE). Neutrophils release neutrophil serine proteases (NSPs), such as neutrophil elastase, cathepsin G and proteinase 3. When chronically high levels of free NSP activity exceed those of protective antiproteases, structural lung destruction, mucosal-related defects, further susceptibility to infection and worsening of clinical outcomes can occur. Despite the defined role of prolonged, high levels of NSPs in BE, no drug that controls neutrophilic inflammation is licensed for the treatment of BE. Previous methods of suppressing neutrophilic inflammation (such as direct inhibition of neutrophil elastase) have not been successful; however, an emerging therapy designed to address neutrophil-mediated pathology, inhibition of the cysteine protease cathepsin C (CatC, also known as dipeptidyl peptidase 1), is a promising approach to ameliorate neutrophilic inflammation, since this may reduce the activity of all NSPs implicated in BE pathogenesis, and not just neutrophil elastase. Current data suggest that CatC inhibition may effectively restore the protease-antiprotease balance in BE and improve disease outcomes as a result. Clinical trials for CatC inhibitors in BE have reported positive Phase III results. In this narrative review, we discuss the role of high NSP activity in BE, and how this feature drives the associated morbidity and mortality seen in BE. This review discusses therapeutic approaches aimed at treating neutrophilic inflammation in the BE lung, summarising clinical trial outcomes, and highlighting the need for more treatment strategies that effectively address chronic neutrophilic inflammation in BE.

7990 Reduced Alpha-1 Antitrypsin Activity Is Associated with Higher Plasma Free Cortisol and Increased Tissue Glucocorticoid Exposure in Humans in vivo

Abstract Disclosure: L.D. Boyle: None. M. Nixon: None. C.M. Underhill: None. L.A. Hill: None. N.Z. Homer: None. M. Magennis: None. R. Andrew: None. G.L. Hammond: None. J.G. Lewis: None. R.H. Stimson: None. B.R. Walker: None. Background: Corticosteroid Binding Globulin (CBG) binds &amp;gt;85% of plasma cortisol, modulating its biological activity. Proteolytic cleavage by neutrophil elastase (NE) reduces CBG binding capacity, proposed to increase free cortisol availability to inflamed tissues. Genetic variation at the locus spanning SERPINA1 (encoding alpha-1 antitrypsin, AAT, the endogenous inhibitor of NE) and SERPINA6 (CBG) altered morning total plasma cortisol. We hypothesised that AAT deficiency increased CBG cleavage and hence free plasma cortisol, resulting in amplified tissue cortisol delivery and increased HPA axis negative feedback. We tested this in recall-by-genotype studies of people who are heterozygous for inactivating mutations in SERPINA1. Methods: 16 asymptomatic carriers of deleterious SERPINA1 single nucleotide polymorphisms (rs17580 &amp; rs28929474) and 16 age-, gender- and BMI-matched controls were recruited from the Generation Scotland Biobank. To quantify in vivo whole body glucocorticoid appearance and clearance rates, and estimate tissue cortisol uptake, we performed arterio-venous plasma sampling across abdominal adipose and skeletal muscle during steady-state 9,11,12,12-[2H]4-cortisol tracer infusion. To assess endogenous negative feedback, participants underwent combined receptor antagonist stimulation of the HPA axis (‘CRASH’) testing using RU486 and spironolactone, or placebo in a double blind randomised crossover design. Total cortisol (LC-MS/MS), free cortisol (isotopic dilution &amp; ultrafiltration), CBG binding capacity (radioligand displacement), CBG concentration and AAT (ELISA) were measured in plasma. Tissue cortisol (LC-MS/MS) and glucocorticoid-dependent transcripts (qPCR) were measured in adipose biopsy samples collected at end of study. Results: AAT was ∼30% lower in AAT+/- (p=0.0002 vs control). Plasma CBG concentration, binding capacity and total cortisol were similar between groups. However, plasma free cortisol fraction was higher in AAT+/- subjects (16.1 +/- 0.2 vs 13.9 +/- 0.04 %, p&amp;lt;0.0001). Adipose tissue from AAT+/- subjects displayed increased cortisol levels and increased glucocorticoid-responsive transcripts PER1 and LPL compared to controls. Consistent with release from CBG, total and free cortisol release across skeletal muscle was increased in AAT+/- subjects vs controls. The rate of appearance of 9,12,12-[2H]3-cortisol was reduced in AAT+/- (p=0.03 vs control), consistent with decreased whole body 11β-HSD1 activity. CRASH testing did not reveal additional differences between groups. Discussion: Subclinical AAT deficiency is associated with a higher free cortisol fraction and increased tissue glucocorticoid exposure. Although consistent with the hypothesis of local tissue-mediated control of glucocorticoid exposure via the NE/AAT/CBG axis, these findings were not accompanied by measurable changes in CBG. Presentation: 6/3/2024

9225 Reduced Alpha-1 Antitrypsin Activity Is Associated with Higher Plasma Free Cortisol and Increased Tissue Glucocorticoid Exposure in Humans in vivo

Abstract Disclosure: L.D. Boyle: None. M. Nixon: None. C.M. Underhill: None. L.A. Hill: None. N.Z. Homer: None. M. Magennis: None. R. Andrew: None. G.L. Hammond: None. J.G. Lewis: None. R.H. Stimson: None. B.R. Walker: None. Background Corticosteroid Binding Globulin (CBG) binds &amp;gt;85% of plasma cortisol, modulating its biological activity. Proteolytic cleavage by neutrophil elastase (NE) reduces CBG binding capacity, proposed to increase free cortisol availability to inflamed tissues. Genetic variation at the locus spanning SERPINA1 (encoding alpha-1 antitrypsin, AAT, the endogenous inhibitor of NE) and SERPINA6 (CBG) altered morning total plasma cortisol. We hypothesised that AAT deficiency increased CBG cleavage and hence free plasma cortisol, resulting in amplified tissue cortisol delivery and increased HPA axis negative feedback. We tested this in recall-by-genotype studies of people who are heterozygous for inactivating mutations in SERPINA1. Methods 16 asymptomatic carriers of deleterious SERPINA1 single nucleotide polymorphisms (rs17580 &amp; rs28929474) and 16 age-, gender- and BMI-matched controls were recruited from the Generation Scotland Biobank. To quantify in vivo whole body glucocorticoid appearance and clearance rates, and estimate tissue cortisol uptake, we performed arterio-venous plasma sampling across abdominal adipose and skeletal muscle during steady-state 9,11,12,12-[2H]4-cortisol tracer infusion. To assess endogenous negative feedback, participants underwent combined receptor antagonist stimulation of the HPA axis (‘CRASH’) testing using RU486 and spironolactone, or placebo in a double blind randomised crossover design. Total cortisol (LC-MS/MS), free cortisol (isotopic dilution &amp; ultrafiltration), CBG binding capacity (radioligand displacement), CBG concentration and AAT (ELISA) were measured in plasma. Tissue cortisol (LC-MS/MS) and glucocorticoid-dependent transcripts (qPCR) were measured in adipose biopsy samples collected at end of study. Results AAT was ∼30% lower in AAT+/- (p=0.0002 vs control). Plasma CBG concentration, binding capacity and total cortisol were similar between groups. However, plasma free cortisol fraction was higher in AAT+/- subjects (16.1 +/- 0.2 vs 13.9 +/- 0.04 %, p&amp;lt;0.0001). Adipose tissue from AAT+/- subjects displayed increased cortisol levels and increased glucocorticoid-responsive transcripts PER1 and LPL compared to controls. Consistent with release from CBG, total and free cortisol release across skeletal muscle was increased in AAT+/- subjects vs controls. The rate of appearance of 9,12,12-[2H]3-cortisol was reduced in AAT+/- (p=0.03 vs control), consistent with decreased whole body 11β-HSD1 activity. CRASH testing did not reveal additional differences between groups. Discussion Subclinical AAT deficiency is associated with a higher free cortisol fraction and increased tissue glucocorticoid exposure. Although consistent with the hypothesis of local tissue-mediated control of glucocorticoid exposure via the NE/AAT/CBG axis, these findings were not accompanied by measurable changes in CBG. Presentation: 6/3/2024

The bacterial serine protease inhibitor ecotin inhibits neutrophil elastase enzymatic activity in cystic fibrosis sputa

Cystic Fibrosis (CF) airway disease is characterized by impaired mucociliary clearance, chronic, polymicrobial infections and robust, neutrophil-dominated inflammation. Pulmonary disease is the leading cause of morbidity and mortality in people with CF and is due to progressive airflow obstruction and ultimately respiratory failure. One of the earliest abnormalities in CF airway disease is the recruitment of neutrophils to the lungs. Neutrophil activation leads to the release of their intracellular content, including neutrophil elastase (NE), that damages lung tissues in CF. Our goal is to characterize a known bacterial NE inhibitor, ecotin, in the CF airway environment. Our results indicate that ecotins cloned from four Gram-negative bacterial species (Campylobacter rectus, Campylobacter showae, Escherichia coli and Pseudomonas aeruginosa) inhibit NE activity in CF sputum samples in a dose-dependent manner. Although we observed differences in the NE-inhibitory activity of the tested ecotins with the Campylobacter homologs being the most effective in NE inhibition in CF sputa, none of the ecotins impaired the ability of human neutrophils to kill major CF respiratory pathogens, P. aeruginosa or S. aureus, in vitro. Overall, we demonstrate that bacterial ecotins inhibit NE activity in CF sputa without compromising bacterial killing by neutrophils.

Sivelestat sodium alleviated sepsis-induced acute lung injury by inhibiting TGF-β/Smad signaling pathways through upregulating microRNA-744-5p.

Acute lung injury (ALI) is one of the most common critical illnesses in clinical practice, with sepsis being the most common cause of ALI. Sivelestat sodium (SV) hydrate is a highly effective inhibitor of neutrophil elastase, specifically targeting ALI related to systemic inflammatory response syndrome. The aim of this study is to examine the mechanisms by which SV can reduce the severity of ALI resulting from sepsis. Cecum ligation and puncture (CLP) was employed for creating an animal model of ALI caused by sepsis. Primary human pulmonary microvascular endothelial cells (HPMECs) were treated with lipopolysaccharide (LPS) to develop an in vitro model of infection-induced ALI. Lung tissue damage was assessed by employing hematoxylin-eosin (H&E) and Masson staining. Lung edema was determined by calculating the lung wet-to-dry weight ratio. Lung tissue and cell samples were analyzed using Enzyme-linked immunosorbent assay (ELISA) to detect levels of tumor necrosis factor-α (TNF-α), interleukin (IL)-1β, and IL-6. The 5-ethynyl-2'-deoxyuridine (EdU) and wound-healing assay were used to determine the cell proliferation and migration, while flow cytometry was used for detecting cell apoptosis. The association between microRNA (miR)-744 and transforming growth factor (TGF)-β1 was discovered and confirmed through the utilization of bioinformatics analyses and dual-luciferase gene reporter assay. The analysis of TGF-β1, p-Smad3, and Smad3 was carried out through western blotting and immunohistochemistry in both in vitro and in vivo scenarios. In both in vivo and in vitro settings of ALI models of sepsis, there was a significant decrease in the level of miR-744-5p, a significant elevation in the expression of inflammatory factors, and a significant intensification of lung tissue damage. Administration of SV resulted in a significant increase in the level of miR-744-5p, suppressed the inflammatory response, and ultimately improved lung injury. Cell proliferation was significantly enhanced by SV and cell apoptosis was inhibited. The protection of SV was significantly reversed by inhibiting the effect of miR-744-5p. The double-luciferase reporter gene assay revealed substantial interactions occurring between miR-744-5p and TGF-β1. The TGF-β/Smad signaling pathway was significantly inhibited by SV, however, the inhibitory effect can be counteracted by utilizing the miR-744-5p inhibitor. The upregulation of miR-744-5p by SV inhibits the TGF-β/Smad signaling pathway, thereby reducing sepsis-induced ALI.

Current Approaches for the Prevention and Treatment of Acute and Chronic GVHD.

Whereas aGVHD has strong inflammatory components, cGVHD displays autoimmune and fibrotic features; incidence and risk factors are similar but not identical; indeed, the aGVHD is the main risk factor for cGVHD. Calcineurin Inhibitors (CNI) with either Methotrexate (MTX) or Mycophenolate (MMF) still represent the standard prophylaxis in HLA-matched allogeneic stem cell transplantation (HSCT); other strategies focused on ATG, Post-Transplant Cyclophosphamide (PTCy), Abatacept and graft manipulation. Despite the high rate, first-line treatment for aGVHD is represented by corticosteroids, and Ruxolitinib is the standard second-line therapy; investigational approaches include Microbiota transplant and the infusion of Mesenchymal stem cells. GVHD is a pleiotropic disease involving any anatomical district; also, Ruxolitinib represents the standard for steroid-refractory cGVHD in this setting. It is a pleiotropic disease involving any anatomical district; also, Ruxolitinib represents the standard for steroid-refractory cGVHD in this setting. Extracorporeal Photopheresis (ECP) is still an option used for steroid refractoriness or to achieve a steroid-sparing. For Ruxolitinib-refractory cGVHD, Belumosudil and Axatilimab represent the most promising agents. Bronchiolitis obliterans syndrome (BOS) still represents a challenge; among the compounds targeting non-immune effectors, Alvelestat, a Neutrophil elastase inhibitor, seems promising in BOS. Finally, in both aGVHD and cGVHD, the association of biological markers with specific disease manifestations could help refine risk stratification and the availability of reliable biomarkers for specific treatments.

Haplotype-Aware Detection of SERPINA1 Variants by Nanopore Sequencing

Alpha-1 antitrypsin (AAT) is an acute-phase reactant with immunomodulatory properties that mainly inhibits neutrophil elastase. Low serum levels cause AAT deficiency (AATD), an underdiagnosed condition that predisposes to pulmonary and hepatic diseases. The SERPINA1 gene, which encodes AAT, contains more than 500 variants. PI*Z and PI*S alleles are the most diagnosed causes of AATD, but the role of the SERPINA1 haplotypes in AAT function remains unknown. SERPINA1 gene was PCR amplified from 94 asthma patients, using primers with tails for indexing. Sequencing libraries were loaded into a MinION-Mk1C, and MinKNOW was used for basecalling and demultiplexing. Nanofilt and Minimap2 were used for filtering and mapping/alignment. Variant calling/phasing were performed with PEPPER-Margin-DeepVariant. SERPINA1 gene was 100% covered for all samples, with a minimum sequencing depth of 500X. 75 single nucleotide variants and 4 indels were detected, with 45 and 2 of them highly polymorphic (MAF>0.1), respectively. Nine of the SNVs showed differences in allele frequencies when compared with the overall Spanish population. More than 90% of heterozygous SNVs were phased, yielding 91 and 58 different haplotypes for each SERPINA1 amplified region. Haplotype-based Linkage Disequilibrium (LD) analysis suggests that a recombination hotspot could generate variation in the SERPINA1 gene. The proposed workflow enables haplotype-aware genotyping of the SERPINA1 gene by nanopore sequencing, which will allow the development of novel AATD diagnostic strategies.

Extracellular Vesicle-Associated Neutrophil Elastase Activates Hepatic Stellate Cells and Promotes Liver Fibrogenesis via ERK1/2 Pathway.

Liver fibrosis associated with increased mortality is caused by activation of hepatic stellate cells and excessive production and accumulation of extracellular matrix in response to fibrotic insults. It has been shown that in addition to liver inflammation, systemic inflammation also contributes to liver fibrogenesis. A deeper understanding of mechanisms that control liver fibrotic response to intra- and extra-hepatic inflammation is essential to develop novel clinical strategies against this disease. Extracellular vesicles (EV) have been recognized as immune mediators that facilitate activation of hepatic stellate cells. In inflammatory diseases, activated neutrophils release neutrophil elastase (NE) bound to EV, which has been identified as a significant contributor to inflammation by promoting immune cell activation. Here, we aimed to explore the role of inflammation derived plasma EV-associated NE in liver fibrogenesis and its potential mechanisms. We show EV-associated NE induces activation, proliferation and migration of hepatic stellate cells by promoting activation of the ERK1/2 signaling pathway. This effect did not occur through EV without surface NE, and Sivelestat, a NE inhibitor, inhibited activation of the ERK1/2 signaling pathway mediated by EV-associated NE. Moreover, we found plasma EV-associated NE increases deposition of collagen1 and α-smooth muscle actin in the liver of a mouse model of liver fibrosis (Mdr2-/-). Notably, this effect does not occur in control mice without preexisting liver disease. These data suggest that EV-associated NE is a pro-fibrogenic factor for hepatic stellate cell activation via the ERK1/2 signaling pathway in pre-existing liver injuries. Inhibition of the plasma EV-associated NE in inflammatory conditions may be a therapeutic target for liver fibrosis in patients with inflammatory diseases.

Clinical utility of the neutrophil elastase inhibitor sivelestat for the treatment of ALI/ARDS patients with COVID-19

BackgroundSivelestat, a neutrophil elastase inhibitor, is postulated to mitigate acute lung injury in patients following emergency surgery. However, its efficacy in patients with acute lung injury (ALI) and acute respiratory distress syndrome (ARDS) induced by coronavirus disease 2019 (COVID-19) remains uncertain. This study aims to evaluate the pulmonary protective effects of sivelestat in COVID-19 patients with ALI/ARDS. MethodsA retrospective study was conducted involving 2454 COVID-19 patients between October 5, 2022, and February 1, 2023. Of these, 102 patients received sivelestat (0.2 mg/kg/h), while 2352 age- and sex-matched controls were identified. Propensity score matching (PSM) analysis was used to match sivelestat and non-sivelestat subgroups in ratios of 1:1 and 1:3 for sensitivity analysis. The primary outcome was a composite of effective outcomes, including 30-day mortality. Secondary outcomes included changes in partial pressure of arterial oxygen (PaO2), the ratio of PaO2 to the fraction of inspired oxygen (PaO2/FiO2), and various cytokine levels. Safety evaluations included assessments of liver function, kidney function, and leukopenia. ResultsIn the propensity score-matched analysis, the sivelestat group had a higher proportion of severe/critical patients (87.26 % vs. 51.02 %, P < 0.001), more ARDS patients (4.9 % vs. 0.43 %, P < 0.001), and more patients with interstitial lung disease (4.9 % vs. 1.49 %, P = 0.023), but fewer patients with stroke (17.65 % vs. 19.86 %, P < 0.001). Oxygen therapy rates were similar between the groups (79.41 % vs. 80.95 %, P = 0.9). The relative risk reduction in 30-day mortality was 88.45 % (95 % confidence interval [CI] 81.23%–93.21 %) for severe/critical COVID-19 patients treated with sivelestat. Sivelestat significantly decreased cytokine levels of interferon alpha (IFNα), interleukin-1 beta (IL-1β), and interleukin-2 (IL-2).In the sivelestat group, the mortality rate was significantly reduced with standard oxygenation and HFNC therapy(P < 0.05). The treatment with sivelestat did not increase side effects. ConclusionThe administration of the neutrophil elastase inhibitor sivelestat may improve clinical outcomes in COVID-19 patients with ALI/ARDS. These findings suggest that sivelestat could be considered an effective treatment option to alleviate pulmonary inflammatory injury caused by severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2).

Exploration of novel human neutrophil elastase inhibitors from natural compounds: Virtual screening, in vitro, molecular dynamics simulation and in vivo study

BackgroundHuman neutrophil elastase (HNE) is an important contributor to lung diseases such as acute lung injury (ALI) or acute respiratory distress syndrome. Therefore, this study aimed to identify natural HNE inhibitors with anti-inflammatory activity through machine learning algorithms, in vitro assays, molecular dynamic simulation, and an in vivo ALI assay. MethodsBased on the optimized Discovery Studio two-dimensional molecular descriptors, combined with different molecular fingerprints, six machine learning models were established using the Naïve Bayesian (NB) method to identify HNE inhibitors. Subsequently, the optimal model was utilized to screen 6925 drug-like compounds obtained from the Traditional Chinese Medicine Systems Pharmacy Database and Analysis Platform (TCMSP), followed by ADMET analysis. Finally, 10 compounds with reported anti-inflammatory activity were selected to determine their inhibitory activities against HNE in vitro, and the compounds with the best activity were selected for a 100 ns molecular dynamics simulation and its anti-inflammatory effect was evaluated using Poly (I:C)-induced ALI model. ResultsThe evaluation of the in vitro HNE inhibition efficiency of the 10 selected compounds showed that the flavonoid tricetin had the strongest inhibitory effect on HNE. The molecular dynamics simulation indicated that the binding of tricetin to HNE was relatively stable throughout the simulation. Importantly, in vivo experiments indicated that tricetin treatment substantially improved the Poly (I:C)-induced ALI. ConclusionThe proposed NB model was proved valuable for exploring novel HNE inhibitors, and natural tricetin was screened out as a novel HNE inhibitor, which was confirmed by in vitro and in vivo assays for its inhibitory activities.

Evaluation of Novel Hydrazone‐Imide Hybrid Compound as HNE Inhibitor In Silico: Synthesis, XRD and DFT Analysis

AbstractInvestigation into the interactions between drugs and biomolecules can offer a precise understanding of their biological behaviours in vitro and in vivo, providing crucial insights for designing new drugs. Herein, we report the design, synthesis, and characterization of a bicyclic hydrazone derivative, along with its potential as an inhibitor of human neutrophil elastase (HNE), a critical enzyme in the treatment of acute and chronic lung injuries. We present an improved protocol for the synthesis of the compound using N‐amino‐bicyclo[2.2.1]hept‐5‐ene‐2,endo‐3‐endo‐dicarboximide and 4‐(trifluoromethyl)benzaldehyde through a facile, one‐pot, catalyst‐free synthesis in dry ethanol at reflux temperature. Within 12 hours, bicyclic‐hydrazone derivative was obtained with yields of up to 75 % and was characterized using various spectroscopic techniques and computational analyses based on the DFT approach. In silico ADME/T profile of the compound was evaluated and molecular docking simulation was utilized to predict its potential as a HNE inhibitor. The binding energy values of the THI ligand to the chosen PDB ID: 5ABW, 3Q77, and 2RG3 target proteins were determined as −8.41, −7.20, and −7.27 kcal/mol, respectively. In silico analysis findings indicate that the THI compound has promising drug‐likeness properties and has the potential to be evaluated in the development of new HNE inhibitors.