The stoichiometry of inhibition of human pancreatic elastase 2 by human alpha1-antitrypsin.

A 1:1 stoichiometry of inhibition of human pancreatic elastase 2 by human α₁-antitrypsin has been determined. The molar binding ratio was calculated using the results of a titration curve for elastase 2 inhibition by α₁-antitrypsin, an experimentally determined concentration of active sites in human elastase 2, and an extinction coefficient calculated from ultracentrifugation studies using interference optics.     

Elastase B of Pseudomonas aeruginosa stimulates the humoral immune response in the greater wax moth, Galleria mellonella

The role of Pseudomonas aeruginosa elastase B in activation of the humoral immune response in Galleria mellonella larvae was investigated. The results of our study showed that elastase B injected at a sublethal concentration was responsible for eliciting the humoral immune response in G. mellonella larvae. The insects exhibited increased antibacterial activity, namely, we observed appearance of antimicrobial peptides and a higher level of lysozyme in cell-free hemolymph. Elastase B seems to be a more potent elicitor than thermolysin because similar maximal antibacterial activity levels were observed at a 5-fold lower concentration. We also demonstrated that there were differences in the kinetics of induction of antimicrobial activity between thermolysin and elastase B. The maximum level was observed 18 h post challenge of thermolysin and 38 h after injection of elastase B. It was also shown that, 24 h after elastase injection, the relative levels of apoLp-III in the hemolymph significantly increased in comparison with control G. mellonella larvae. The activation of immune responses in metalloproteinase-challenged larvae involved synthesis of metalloproteinase inhibitors which increased the survival rates of insects both against the lethal dose of thermolysin as well as against viable pathogenic bacterial cells of P. aeruginosa.     

Removal of insect basal laminae using elastase

We have used the enzyme elastase to remove the basal lamina of epithelia from two insects: the upper Malpighian tubules of Rhodnius prolixus and imaginai discs of Drosophila melanogaster. Removal of the basal lamina was confirmed using scanning and transmission electron microscopy. Use of the technique on the Malphighian tubules of Rhodnius reveals for the first time the three-dimensional organization of the circumferential folds of the basal plasma membrane. Elastase is much more effective in removing the basal lamina than are the enzymes hyaluronidase, collagenase, and chymotrypsin, either alone or in combination. Following elastase treatment, cells of the Malpighian tubules dissociate with only mild mechanical agitation into single, viable cells. Treatment with elastase removes the basal laminae of imaginai discs of Drosophila and accelerates evagination as has been previously described for trypsin. To obtain single cell preparations from elastase-treated imaginai discs, mechanical stirring in Ringer low in Ca²⁺ was required. In addition to its usefulness in cell isolation, elastase treatment allows examination of the effect of removal of basal laminae on the physiology and development of insect epithelia.     

The identification and estimation of elastase in serum and plasma

1. Electrophoretic separation of partially purified elastase preparations from pancreas followed by incubation of the electrophoretogram in contact with an agar gel containing 4% of either Congo Red-stained or unstained elastin demonstrated that the enzyme which dissolves elastin can be identified with that which releases dye from the stained preparation. 2. A method for the estimation of elastase based on the release of dye from Congo Red-stained elastin is described. It is 23 times as sensitive as methods employing protein determination. 3. With the method, elastase activity can be identified in plasma and in a partially fractionated plasma protein preparation. 4. Lineweaver–Burk plots of these estimates of activity at a variety of substrate concentrations indicate that the reaction between elastase and the dyed elastin is more closely similar to that between elastase and the soluble substrate elastin rather than to that between elastase and the solid substrate. 5. Values for K_m and V_max. calculated for the enzyme present in plasma present further evidence for its identity with the pancreatic enzyme. 6. By calculation of the slopes of the Lineweaver–Burk plots for various enzyme concentrations it has proved possible to demonstrate that the inhibitor which is also present in the plasma is without effect on the enzyme when it acts on the dyed substrate.     

Purification and preliminary characterization of human leukocyte elastasel.

Affinity chromatography permits the purification of 1–3 mg of human leukocyte elastase from the leukocytes contained in 500 ml of whole blood. Lysosomal granule proteins are extracted from polymorphonuclear leukocytes and subjected to chromatography on a column of elastin-Sepharose. Contaminating proteins are eluted with buffer containing 1 m NaCl and then elastase activity is eluted with buffer containing 8 m urea. The enzyme retains all of its esterase activity against N-t-BOC-l-alanine p-nitrophenyl ester after exposure to 8 m urea and retains 22% of its activity in the presence of 1% sodium dodecyl sulfate. In sodium dodecyl sulfate and 2-mercaptoethanol leukocyte elastase undergoes autolysis giving rise to several low molecular weight fragments. The molecular weight of the native enzyme is found to be 22.000 by both gel filtration and sodium dodecyl sulfate—acrylamide gel electrophoresis. A characteristic set of four isozymes is seen after acrylamide disc gel electrophoresis at pH 4.5. All bands are active against elastin and also contain carbohydrate by the periodic acid-Schiff stain. On the basis of stain intensity, the slower moving isozymes appear to be richest in carbohydrate. Active leukocyte elastase forms a complex with α₁-antitrypsin in a 1:1 molar ratio. The elastase must be enzymatically active for complex formation to occur.     

Crystallographic study of the binding of a trifluoroacetyl dipeptide anilide inhibitor with elastase

The addition of a trifluoroacetyl (TFA) group to the amino-terminal end of some short peptides has been found to enhance their affinity for the serine protease elastase.X-ray analysis of a crystal from a mixture of solutions of elastase and the most potent inhibitor in the TFA series, TFA-Lys-Ala-NH-C₆H₄-p-CF₃, shows the CF₃CO group at the S₁ subsite in the active site of elastase, and the dipeptide anilide bound at sites close to the S′₁ to S′₃ subsites with the dipeptide portion associated in a parallel pleated-sheet fashion with the protein chain. This arrangement contrasts sharply with the binding of N-acetylated short peptide inhibitors with elastase.Diffraction data were measured for crystals of native elastase (NAT) and the elastase/inhibitor crystals (TFAP). The inhibitor molecule was located in a difference Fourier map having coefficients $\text{ΔF = ¦F}{}_{\mathrm{<mtext>TFAP</mtext>}}\text{¦? ¦F}{}_{\mathrm{<mtext>NAT</mtext>}}\text{¦}$, and phases calculated from the known atomic co-ordinates of NAT. The parameters of the elastase and inhibitor molecules were refined to R = 0.21 for 7187 “observed” reflections at a resolution of 2.5 Å.     

The crystal structure of guamerin in complex with chymotrypsin and the development of an elastase-specific inhibitor

Guamerin, a canonical serine protease inhibitor from Hirudo nipponia, was identified as an elastase-specific inhibitor and has potential application in various diseases caused by elevated elastase concentration. However, the application of guamerin is limited because it also shows inhibitory activity against other proteases. To improve the selectivity of guamerin as an elastase inhibitor, it is essential to understand the binding mode of the inhibitor to elastase and to other proteases. For this purpose, we determined the crystal structure of guamerin in complex with chymotrypsin at 2.5 Å resolution. The binding mode of guamerin on elastase was explored from the model structure of guamerin/elastase. Guamerin binds to the hydrophobic pocket of the protease in a substrate-like manner using its binding loop. In order to improve the binding selectivity of guamerin to elastase, several residues in the binding loop were mutated and the inhibitory activities of the mutants against elastase and chymotrypsin were monitored. The substitution of the Met36 residue for Ala in the P1 site increased the inhibitory activity against elastase up to 14-fold, while the same mutant showed 7-fold decreased activity against chymotrypsin compared to the wild-type guamerin. Furthermore, the M36A guamerin mutant more effectively protected endothelial cells against cell damage caused by elastase than the wild-type guamerin.     

Neutrophil Elastase Alters the Murine Gut Microbiota Resulting in Enhanced Salmonella Colonization

The intestinal microbiota has been found to play a central role in the colonization of Salmonella enterica serovar Typhimurium in the gastrointestinal tract. In this study, we present a novel process through which Salmonella benefit from inflammatory induced changes in the microbiota in order to facilitate disease. We show that Salmonella infection in mice causes recruitment of neutrophils to the gut lumen, resulting in significant changes in the composition of the intestinal microbiota. This occurs through the production of the enzyme elastase by neutrophils. Administration of recombinant neutrophil elastase to infected animals under conditions that do not elicit neutrophil recruitment caused shifts in microbiota composition that favored Salmonella colonization, while inhibition of neutrophil elastase reduced colonization. This study reveals a new relationship between the microbiota and the host during infection.     

Kinetics of the inhibition of free and elastin-bound human pancreatic elastase by α1-proteinase inhibitor and α2-macroglobulin

At pH 8.0 and 25°C α₁-proteinase inhibitor and α₂-macroglobulin bind human pancreatic elastase with rate constants of 4.7·10⁵ M⁻¹·s⁻¹ and 6.4·10⁶ M⁻¹·s⁻¹, respectively. The corresponding delay times of elastase inhibition in plasma are 0.4 s and 0.2 s, respectively, indicating that both inhibitors may act as physiological antielastases. Elastin impairs the elastase inhibitory capacity of α₁-proteinase inhibitor and α₂-macroglobulin. In presence of human elastin, the former behaves like a slow-binding elastase inhibitor, with a rate constant of about 260 M⁻¹·s⁻¹. In contrast, α₂-macroglobulin is a fast-binding inhibitor of elastin-bound elastase, but only one of its two sites is functioning in presence of elastin.     

Solar Ultraviolet Irradiation Induces Decorin Degradation in Human Skin Likely via Neutrophil Elastase

Exposure of human skin to solar ultraviolet (UV) irradiation induces matrix metalloproteinase-1 (MMP-1) activity, which degrades type I collagen fibrils. Type I collagen is the most abundant protein in skin and constitutes the majority of skin connective tissue (dermis). Degradation of collagen fibrils impairs the structure and function of skin that characterize skin aging. Decorin is the predominant proteoglycan in human dermis. In model systems, decorin binds to and protects type I collagen fibrils from proteolytic degradation by enzymes such as MMP-1. Little is known regarding alterations of decorin in response to UV irradiation. We found that solar-simulated UV irradiation of human skin in vivo stimulated substantial decorin degradation, with kinetics similar to infiltration of polymorphonuclear (PMN) cells. Proteases that were released from isolated PMN cells degraded decorin in vitro. A highly selective inhibitor of neutrophil elastase blocked decorin breakdown by proteases released from PMN cells. Furthermore, purified neutrophil elastase cleaved decorin in vitro and generated fragments with similar molecular weights as those resulting from protease activity released from PMN cells, and as observed in UV-irradiated human skin. Cleavage of decorin by neutrophil elastase significantly augmented fragmentation of type I collagen fibrils by MMP-1. Taken together, these data indicate that PMN cell proteases, especially neutrophil elastase, degrade decorin, and this degradation renders collagen fibrils more susceptible to MMP-1 cleavage. These data identify decorin degradation and neutrophil elastase as potential therapeutic targets for mitigating sun exposure-induced collagen fibril degradation in human skin.     

Activation of human plasma prekallikrein by Pseudomonas aeruginosa elastase in vitro

Human plasma prekallikrein, precursor of the bradykinin-generating enzyme, was activated in a purified system under a near physiological condition (pH 7.8, ionic strength I = 0.14, 37°C) by Pseudomonas aeruginosa elastase which is a tissue-destructive metalloproteinase. Compared with that, Pseudomonas aeruginosa alkaline proteinase poorly activated it with a rate as low as less than one-twentieth of that of elastate. The activation by elastase was blocked with a specific inhibitor of elastase, HONHCOCH(CH₂C₆H₅)CO-Ala-Gly-NH₂ (10 μM). Generation of kallikrein-like amidolytic activity was also observed in plasma deficient in Hageman factor by treatment with elastase, but was not in plasma deficient in prekallikrein. The kallikrein-like activity generated in Hageman factor deficient plasma as well as the generation process itself was indeed inhibited by antihuman prekallikrein goat antibody. These results suggest that the pathological activation of the kallikrein-kinin system might occur under certain clinical conditions in pseudomonal infections.     

Screening the dermatological potential of Plectranthus species components: antioxidant and inhibitory capacities over elastase,collagenase and tyrosinase

A series of Plectranthus spp. plant extracts (aqueous, acetonic, methanolic and ethyl acetic) obtained from eight different species, and previously isolated compounds (ranging from polyphenols, diterpenes and triterpenes), were assayed for in vitro inhibition of the skin-related enzymes tyrosinase, collagenase and elastase, and for studying their antioxidant properties. The ethyl acetic extracts of P. grandidentatus and P. ecklonii registered the highest antioxidant activity, whereas acetonic, methanolic and ethyl acetic extracts of P. ecklonii, P. grandidentatus, P. madagascariensis and P. saccatus concerning the enzymatic inhibition assays revealed high anti-tyrosinase and anti-collagenase activities. From the isolated compounds tested, abietane diterpenes and triterpenes were highly active against tyrosinase and elastase activity. Overall, the experimental results showed the powerful antioxidant and inhibitory action on skin-related enzymes tyrosinase, collagenase and elastase of Plectranthus spp. extracts and/or isolated compounds, supporting their further research as bioactive metabolites against skin sagging and hyperpigmentation in cosmetic and pharmaceutical formulations.     

Photosensitized oxidation of elastase. Selective modification of the tryptophyl residues

Spectral studies demonstrated that acidic pH values induce a two-step denaturation of porcine elastase, the first conformational transition occuring over the pH range 4.2–3.8, the second between pH 3.3 and 2.9. The proflavine-sensitized photooxidation of elastase in its native state, as well as in its denatured conformations, allowed us to isolate elastase derivatives selectively modified at given tryptophyl residues, hence to draw reliable conclusions about their degree of burial inside the protein matrix and their functional and conformational role. In particular, tryptophan-26 and -164 are located at the surface of the protein molecule, and their oxidation to N-formylkynurenine has no appreciable effect on the elastolytic activity and three-dimensional geometry of elastase. Tryptophan-83 is partially shielded from the aqueous environment; its modification affects only slightly the enzymic efficiency, while the tertiary structure of the protein perhaps increases its rigidity. Tryptophan-12 must be largely buried in internal regions, since its photooxidation is possible only after the native elastase structure has been extensively randomized; its indole ring appears to be of critical importance for the enzymic activity and the conformational stability of elastase. Finally, our data suggest that tryptophan-39, -132, and -232 are deeply buried; consequently, we failed to achieve the specific or preferential modification of these residues.     

Is neutrophil elastase the missing link between emphysema and fibrosis? Evidence from two mouse models

Background

The separation of emphysema from fibrosis is not as clear-cut as it was thought in early studies. These two pathologies may be present at the same time in human lungs and in mice either instilled with elastolytic enzymes or bleomycin or exposed to cigarette-smoke. According to a current view, emphysema originates from a protease/antiprotease imbalance, and a role for antiproteases has also been suggested in the modulation of the fibrotic process. In this study we investigate in experimental animal models of emphysema and fibrosis whether neutrophil elastase may constitute a pathogenic link between these two pathologies.

Methods

This study was done in two animal models in which emphysema and fibrosis were induced either by bleomycin (BLM) or by chronic exposure to cigarette-smoke. In order to assess the protease-dependence of the BLM-induced lesion, a group mice was treated with 4-(2-aminoethyl)-benzenesulfonyl fluoride hydrochloride, a serine proteinase inhibitor active toward neutrophil elastase. Lungs from each experimental group were used for the immunohistochemical assessment of transforming growth factor-β (TGF-β) and transforming growth factor-α (TGF-α) and for determination of the mean linear intercept as well as the percent volume densities of fibrosis and of emphysematous changes. Additionally, the lungs were also assessed for desmosine content and for the determination of elastase levels in the pulmonary interstitium by means of immunoelectron microscopy.

Results

We demonstrate that in BLM-treated mice (i) the development of elastolytic emphysema precedes that of fibrosis; (ii) significant amount of elastase in alveolar interstitium is associated with an increased expression of TGF-β and TGF-α; and finally, (iii) emphysematous and fibrotic lesions can be significantly attenuated by using a protease inhibitor active against neutrophil elastase.Also, in a strain of mice that develop both emphysema and fibrosis after chronic cigarette-smoke exposure, the presence of elastase in alveolar structures is associated with a positive immunohistochemical reaction for reaction for both TGF-β and TGF-α.

Conclusion

The results of the present study strongly suggest that neutrophil elastase may represent a common pathogenic link between emphysema and fibrosis. Proteases and in particular neutrophil elastase could act as regulatory factors in the generation of soluble cytokines with mitogenic activity for mesenchymal cells resulting either in emphysema or in fibrosis or both.     

Evaluation of in vitro activities of extracellular enzymes from Aspergillus species isolated from corneal ulcer/keratitis

Mycotic/fungal keratitis is a suppurative, generally ulcerative infection of the cornea. The filamentous fungi, Aspergillus spp. are the second leading cause of mycotic keratitis, particularly in India. Aspergillus spp. produce a range of extracellular enzymes that are used to break down complex molecules and used for growth and reproduction, also for survival on/in host organism. The current study was designed with an objective to screen in vitro extracellular enzyme activity of Fusarium and Aspergillus isolates from mycotic keratitis patients and to correlate the same as a putative virulence factor. Extracellular enzymes viz., deoxyribonuclease (DNase), protease, lipase, elastase, keratinase, etc., produced by Aspergillus have key role in keratomycosis and hence their (n = 85) in vitro activities were investigated. It was found that, the majority of the Aspergillus isolates produced protease (n = 75; 88% of 85) followed by lipase (n = 59; 69% of 85), DNase (n = 35; 41% of 85), elastase (n = 26; 31% of 85) and keratinase (n = 13; 15% of 85). The enzyme activity indices (EAI) for DNase, elastase, protease and lipase ranged between 1.01 and 1.98, whereas elastase EAI varied between 1.26 and 1.92. DNase, protease and lipase showed a maximum EAI of 1.98 and lowest EAI value of 1.01, respectively. Extracellular enzymes of Aspergillus spp. may have potential role in the onset and progression of keratitis.     

Flavonoids as inhibitors of human neutrophil elastase

Elastase is a proteolytic enzyme belonging to the family of hydrolases produced by human neutrophils, monocytes, macrophages, and endothelial cells. Human neutrophil elastase is known to play multiple roles in the human body, but an increase in its activity may cause a variety of diseases. Elastase inhibitors may prevent the development of psoriasis, chronic kidney disease, respiratory disorders (including COVID-19), immune disorders, and even cancers. Among polyphenolic compounds, some flavonoids and their derivatives, which are mostly found in herbal plants, have been revealed to influence elastase release and its action on human cells. This review focuses on elastase inhibitors that have been discovered from natural sources and are biochemically characterised as flavonoids. The inhibitory activity on elastase is a characteristic of flavonoid aglycones and their glycoside and methylated, acetylated and hydroxylated derivatives. The presented analysis of structure–activity relationship (SAR) enables the determination of the chemical groups responsible for evoking an inhibitory effect on elastase. Further study especially of the in vivo efficacy and safety of the described natural compounds is of interest in order to gain better understanding of their health-promoting potential.     

Phytochemical composition,antioxidant, in vitro and in silico studies of active compounds of Curculigo latifolia extracts as promising elastase inhibitor

Curculigo latifolia is a plant in the Hypoxidaceae family commonly used in herbal medicine. The study objective was to evaluate the antioxidant and anti-elastase properties of C. latifolia extracts in vitro and silico as a candidate for antiaging active ingredients. This study identified secondary metabolites of the hexane (HE), ethyl acetate (EAE), and ethanol extracts (EE) from the root (R), stem (S), and leaf (L) organs by LC-ESI-MS and evaluated in vitro antioxidant and inhibitor elastase activity. An antioxidant evaluation was performed using ABTS, Beta Carotene Bleaching (BCB), and Ferric Reduction Antioxidant Power (FRAP). Evaluation of anti-elastase was carried out using elastase and followed by an in silico study of molecular docking using the target protein elastase (1B0F). Fifteen C. latifolia metabolites were identified in C. latifolia extracts, most of which were phenolic compounds. In antioxidant testing, REE, REAE, SEE, and SEAE extracts showed potent antioxidant activity based on the ABTS, BCB, and FRAP methods. In anti-elastase testing, it was found that SEE, REE, REAE, and RHE extracts gave powerful inhibition of elastase activity (in the ranges of 16.89 to 27.91 µg/mL). The in-silico study demonstrated the potential of the identified metabolites to bind to the target protein 1B0F involved in remodeling the skin aging process. This research concludes that the extracts from C. latifolia have the potential to serve as an active antiaging source.     

Purification and characterization of elastase from the pyloric caeca of rainbow trout (Oncorhynchus mykiss)

• 1.1. An elastase-like enzyme was purified from the pyloric caeca of rainbow trout by hydrophobic interaction, cation exchange and gel-filtration chromatography.
• 2.2. The approximate molecular weight of the elastase was 27 kDa and the isoelectric point was remarkably basic.
• 3.3. The pH optimum of this enzyme was 8.0, when assayed with Succinyl-Ala-Ala-Ala-p-Nitroanilide.
• 4.4. When assayed with Succinyl-Ala-Ala-Ala-p-Nitroanilide, the enzyme activity had a temperature optimum of 45°C, and the enzyme was stable up to this temperature.
• 5.5. The trout elastase exhibited a higher specific activity than porcine elastase against Succinyl-Ala-Ala-Ala-p-Nitroanilide and elastin-orcein.
• 6.6. The trout elastase was inhibited by elastatinal, PMSF, TPCK, SBTI and Bowman-Birk inhibitor.

     

The isolation and characterization of a new elastase inhibitor,pre-α2-elastase inhibitor,of the horse

A new and probably unique elastase inhibitor of horse serum was identified, purified to homogeneity and called pre-α₂-elastase inhibitor of the horse. Electrophoretically it migrated immediately in front of the α₂ position. Its molecular weight was 188 000 by pore limit polyacrylamide gel electrophoresis and 225 000 by Sephadex G-200 gel filtration. The inhibitor was composed of at least two non-identical polypeptide chains of M_r 68 400 and 87 600. A banding pattern of restricted heterogeneity focused between pH 4.9 and 5.2 was revealed by isoelectric focusing. Of 13 animal, microbial and plant proteinases, horse pre-α₂-elastase inhibitor inhibited only pancreatic elastase and trypsin efficiently. Chymotrypsin was inhibited only in traces. No analogy between the elastase inhibitor and the known human serum inhibitors could be found with respect to immunological and biochemical criteria.