Regional difference in airway epithelial response to neutrophil elastase: tracheal secretory cells discharge and recover in hamsters that develop bronchial secretory-cell metaplasia

Human neutrophil elastase (HNE) causes secretory granule discharge and conversion of many Clara cells to mucous cells in hamster bronchi. We investigated whether the trachea responds to HNE in a similar manner because of its abundance of Clara cells. By light microscopy, the tracheal epithelium of animals exposed to a single intratracheal injection of HNE was normal at 21 days, although bronchial secretory-cell metaplasia (SCM) was present. An ultrastructural differential cell count showed no increase in the proportion of granulated secretory cells in HNE-treated animals at 8 and 21 days postinjection compared to saline or untreated controls. At 2 h, the percentage of granulated secretory cells was lower and that of granulated secretory cells was higher in HNE-treated animals than in controls. The HNE-treated animals had fewer secretory granules per cell profile and more surface undulation than controls. By 1 day, the differential cell count and number of granules per cell profile were normal. Saline did not affect the differential cell count or granule number at any time. Ultrastructural study of untreated trachea disclosed the same three types of Clara cell that are found in the bronchus, but their frequencies, with one exception, are significantly different in the two regions. We conclude that HNE acts as a secretagogue in both trachea and bronchus but that an amount of enzyme sufficient to cause bronchial SCM does not induce a similar lesion in trachea. Heterogeneity of Clara cell types in hamster airways may explain the regional variation in secretory-cell modulation by HNE.

Amelioration of human neutrophil elastase-induced emphysema in hamsters by pretreatment with an oligopeptide chloromethyl ketone

Human neutrophils are a likely source of elastase in the pathogenesis of human pulmonary emphysema. A study was undertaken to determine whether emphysema, induced in hamsters by intratracheal treatment with human neutrophil elastase (HNE), could be ameliorated by intratracheal instillation of succinyl-alanyl-alanyl-prolyl-valine-chloromethyl ketone (CMK). One mg of CMK was given to hamsters 1 h before 300 or 360 micrograms HNE or 1 h or 4 h after 360 micrograms HNE. The animals were studied eight weeks after treatment. The CMK given 4 h after HNE did not ameliorate the emphysema. The CMK given 1 h before HNE, ameliorated the development of emphysema but not bronchial secretory cell metaplasia. A molar ratio of instilled CMK to HNE of 128 was required for 50% in vivo effectiveness in ameliorating emphysema. Clearance studies indicated that 6.9% of the instilled CMK could be lavaged from the lungs 1 h after instillation. Therefore, an 8.9 to 1 molar ratio of lavageable CMK to HNE, at the time of HNE instillation, resulted in 50% protection. Using an in vitro assay with 3H-elastin as substrate, a 3 to 1 molar ratio of CMK to HNE was required to inhibit 50% of the elastolytic activity; 14% of the activity remained with an 18 to 1 molar ratio of CMK to HNE. Study of the in vivo effectiveness of anti-elastases, given as pretreatment in ameliorating HNE-induced emphysema and secretory cell metaplasia, is a reasonable bioassay, which may be used as a step in evaluating such agents for possible use in the prevention of human disease.

Amelioration of human neutrophil elastase-induced emphysema in hamsters by pretreatment with an oligopeptide chloromethyl ketone

Human neutrophils are a likely source of elastase in the pathogenesis of human pulmonary emphysema. A study was undertaken to determine whether emphysema, induced in hamsters by intratracheal treatment with human neutrophil elastase (HNE), could be ameliorated by intratracheal instillation of succinyl-alanyl-alanyl-prolyl-valine-chloromethyl ketone (CMK). One mg of CMK was given to hamsters 1 h before 300 or 360 micrograms HNE or 1 h or 4 h after 360 micrograms HNE. The animals were studied eight weeks after treatment. The CMK given 4 h after HNE did not ameliorate the emphysema. The CMK given 1 h before HNE, ameliorated the development of emphysema but not bronchial secretory cell metaplasia. A molar ratio of instilled CMK to HNE of 128 was required for 50% in vivo effectiveness in ameliorating emphysema. Clearance studies indicated that 6.9% of the instilled CMK could be lavaged from the lungs 1 h after instillation. Therefore, an 8.9 to 1 molar ratio of lavageable CMK to HNE, at the time of HNE instillation, resulted in 50% protection. Using an in vitro assay with 3H-elastin as substrate, a 3 to 1 molar ratio of CMK to HNE was required to inhibit 50% of the elastolytic activity; 14% of the activity remained with an 18 to 1 molar ratio of CMK to HNE. Study of the in vivo effectiveness of anti-elastases, given as pretreatment in ameliorating HNE-induced emphysema and secretory cell metaplasia, is a reasonable bioassay, which may be used as a step in evaluating such agents for possible use in the prevention of human disease.

Human neutrophil elastase causes glycoconjugate release from the epithelial cell surface of hamster trachea in organ culture

It is known that human neutrophil elastase (HNE) treatment of hamster tracheal explants causes the release of glycoconjugates, most of which appear to have the characteristics of mucus glycoproteins. This study was designed to determine the origin of HNE-induced glycoconjugate release from 1-day-old cultures of adult hamster trachea. After confirming that HNE treatment released glycoconjugates from cultures labeled with tritiated glucosamine, light microscopic autoradiograms and electron micrographs were prepared. Untreated cultures and cultures treated with inactivated HNE served as controls. HNE treatment caused a 40 to 50% decrease in the silver grain count on the external apical surfaces of secretory cells (p less than 0.05) and ciliated cells (p less than 0.01). Silver grain counts in secretory and ciliated cell cytoplasm, submucosa, and nontissue background were not significantly different from controls. The percentage of nongranulated secretory cells and the number of secretory granules in granulated secretory cells were similar in the HNE-treated and untreated controls. There was no evidence of constitutive release of radiolabeled glycoproteins, or of discharge of secretory granules from the secretory cells. We conclude that HNE releases mucins and other glycoconjugates from the external surfaces of both secretory and ciliated cells in tracheal organ culture.

Repair of protease-damaged elastin in neonatal rat aortic smooth muscle cell cultures

The objective of this study was to investigate the elastin repair process in the rat aortic smooth muscle cell culture after proteolytic injury. Although little studied in vivo, elastin repair is thought to occur through a sequential process involving enzymatic removal (debridement) of damaged fibers followed by synthesis of tropoelastin, its subsequent processing, and eventual incorporation into new insoluble elastin. A second repair mechanism of proteolytically damaged elastin in a culture system is reported here. Repair in this system relates directly to restoration of resistance to elastin solubilization by hot alkali. As expected, severe injuries were observed with porcine pancreatic elastase (PPE). Using PPE, only 6% of the elastin, relative to control, was resistant to hot alkali immediately after elastase treatment. 4 wk later, resistance to hot alkali had increased dramatically to a mean of 90%. Repair took longer after injury with 75 micrograms of PPE as compared with 50 micrograms of PPE. The limited elastic fiber proteolysis induced by either human neutrophil elastase or porcine trypsin was repaired in culture within 2 wk. Elastin that had been radiolabeled with [3H]lysine 4-5 wk before injury was converted from a hot NaOH-susceptible to a NaOH-resistant elastin fraction during recovery from PPE injury. At the same time, the frayed elastic fibers that were seen with the electron microscope immediately after PPE treatment were replaced by continuous bands of elastin that resembled those in control cultures. Restoration of NaOH resistance did not require a net increase in total cell layer elastin, suggesting that relatively little new tropoelastin incorporation into the cell layer was required for this type of repair. These results suggested a salvage repair mechanism for proteolytically damaged elastin.

Cadmium-chloride-induced air-space enlargement with interstitial pulmonary fibrosis is not associated with destruction of lung elastin. Implications for the pathogenesis of human emphysema

To determine whether lung elastin is lost during the evolution of cadmium-induced air-space enlargement with pulmonary fibrosis, the lung elastin of 5- to 7-day-old golden Syrian hamster pups was radiolabeled by giving [3H]valine. At maturity, a single intratracheal instillation of 0.5 ml of 0.025% CdCl2 solution was given. Lung mechanics, histologic examination, and biochemistry were studied 5, 10, 21, 42, 105, and 180 days after the cadmium treatment. The animals developed fibrosis and air-space enlargement with decreased lung volumes, compliance, and forced expiratory flow; their functional residual capacity was increased. The total lung collagen and total lung elastin were increased, but there was no loss of radiolabel in lung elastin. We conclude that CdCl2-induced air-space enlargement with pulmonary fibrosis is not accompanied by loss of neonatally formed lung elastic fibers. We hypothesize that air-space enlargement with fibrosis represents a stereotyped response of the lung to fibrosing injuries, which we hypothesize is due to forces from more fibrotic and atelectatic areas causing overdistension of less abnormal air spaces. The air-space enlargement of fibrosing human diseases such as sarcoidosis and eosinophilic granuloma may have a similar basis. Evidence is reviewed that human centrilobular emphysema may be a form of focal air-space enlargement with interstitial fibrosis; there may be mechanisms in addition to elastase-antielastase imbalance that cause human emphysema.

Defenses of the hamster lung against human neutrophil and porcine pancreatic elastase

Instillation of human neutrophil elastase (HNE) into hamster lungs produces milder emphysema but more pulmonary hemorrhage than an equivalent amount of porcine pancreatic elastase (PPE), whether equivalence is determined by elastolytic units or moles. We undertook a study of the mechanisms of these differences. 125I-HNE or 3H-PPE were instilled intratracheally into hamsters. The partitioning of radioactivity between bronchoalveolar lavage fluid (BAL) and lung tissue was similar for HNE and PPE as were the half-lives, 45 and 51 min, respectively, for uncomplexed, enzymatically active HNE and PPE. In BAL there was preferential binding and inactivation of HNE by the hamsters' alpha-1-protease inhibitor (a-1-PI) whereas PPE was preferentially bound by alpha-2-macroglobulin (a-2-M). This was also observed in vitro when HNE and PPE were incubated with plasma from untreated hamsters. Nevertheless, when the sum of the elastase binding capacity of a-1-PI and a-2-M was considered, hamster plasma had similar binding capacities for HNE and PPE. It is known that the enzymatic activity of elastases is inhibited by formation of a stable complex with a-1-PI. On the other hand, elastases bound to a-2-M are protected against a-1-PI inhibition but can free themselves by proteolysis and exhibit elastolytic activity. Preferential inactivation of HNE by a-1-PI may be one mechanism that accounts for the lesser emphysema-inducing potency of HNE than of PPE.

The dose-dependent fate of enzymatically active and inactivated tritiated methylated pancreatic elastase administered intratracheally in the hamster

Hamsters were intratracheally instilled with saline solutions containing a high dose (145 to 220 micrograms) or a low dose (1.3 to 1.5 micrograms) of 3H-methylated pancreatic elastase or N-acetyl-(L-alanyl)3-L-alanine chloromethyl ketone-inactivated 3H-methylated pancreatic elastase. Only the lysyl residues of the elastase molecule were methylated and radiolabeled in a nonlabile manner. The 3H-methylated elastase preparation exhibited esterolytic and elastolytic activity, spectral properties, and emphysema-inducing properties indistinguishable from those of unmodified pancreatic elastase. There was no detectable hemorrhagic or emphysematous reaction with the inactivated 3H-methylated elastase, and this material was cleared from the lungs 11 times faster than the corresponding enzymatically active high dose of 3H-methylated elastase and 18 times faster than the corresponding enzymatically active low dose of 3H-methylated elastase. There were correspondingly higher amounts of radioactivity in the urine of hamsters treated with the inactivated elastase. All of the 3H radioactivity recovered from the urine was associated with epsilon-N-methyllysyl and epsilon-N,N-dimethyllysyl residues. Significant levels of radioactivity were found in the cells, primarily alveolar macrophages, lavaged from the lungs. The low dose of enzymatically active elastase caused neither detectable hemorrhage nor emphysema, both of which were associated with the high dose. At 144 days significant radioactivity (1,200 cpm) remained in the lungs of animals treated with high or low doses of enzymatically active elastase, whereas virtually no radioactivity (100 cpm) was found in the lungs of those treated with high or low doses of inactivated elastase. The data presented support the hypothesis that the formation of elastase complexes with alpha 1-protease inhibitor and alpha 2-macroglobulin is associated with the slower clearance and the retention of significant amounts of radioactivity in the lungs. Some of the residual radioactivity found in the hamster lungs might represent enzymatically active elastase complexed with alpha 2-macroglobulin and might offer an explanation for the progressive nature of emphysema induced by a single dose of elastase.

An 18-month study of the effects on hamster lungs of intratracheally administered human neutrophil elastase

A study was made of the evolution of emphysema and airway injury induced in the lungs of male golden Syrian hamsters by a single intratracheal injection of 350 micrograms human neutrophil elastase (HNE). Saline control and HNE-treated groups of 8 animals were studied 1, 3, 6, 12, and 18 months posttreatment. HNE treatment caused a significant increase in all lung volumes and a significant decrease in maximum expiratory flows at all study times. The mean linear intercept (MLI) values of the left lung were significantly increased over control values. There was no progression with time in MLI values, lung volumes, or lung compliance. Secretory-cell metaplasia was present at 1 month and persisted throughout the study. The HNE-treated lungs showed clusters of ferric iron-containing macrophages in the terminal airspaces. The amount of iron in the lungs, determined morphometrically, was greatest at 1 month, was decreased by 6 months, and then did not change further to 18 months. At 18 months the amount of iron was still significantly above control amounts. We conclude that the airway and parenchymal lesions induced by HNE persist without progression for 18 months. Clearance of ferric iron, which was probably a result of the hemorrhage induced by HNE treatment, continued for 6 months with no evident subsequent clearance.

Human neutrophil elastase releases cell surface mucins from primary cultures of hamster tracheal epithelial cells

Primary hamster tracheal epithelial cells growing on a collagen gel matrix produce high molecular weight mucins indistinguishable from mucins produced in vivo. Using a modified version of these confluent cultures, we have demonstrated here that (i) release of mucins can be stimulated by human neutrophil elastase (HNE; EC 3.4.21.37); (ii) HNE can degrade mucins, and both mucin release and degradation by HNE require an active catalytic site; and (iii) there are at least two pools of mucins in these cells: one is a rapidly turning-over spontaneously releasable constitutive pool, the other is a slowly turning-over HNE-releasable pool. We provide evidence that the HNE-releasable mucins are membrane bound and associated with the secretory cell apical surface.

Elastin in a neonatal rat smooth muscle cell culture has greatly decreased susceptibility to proteolysis by human neutrophil elastase. An in vitro model of elastolytic injury

A neonatal rat aorta smooth muscle cell culture system with a unique elastin-rich extracellular matrix was used as a model substrate for elastases. To study the susceptibility to solubilization of insoluble elastin, cultures were incubated in the presence of human neutrophil elastase (HNE) or porcine pancreatic elastase (PPE) and in the absence of serum for periods up to 45 min. Both the incubation media and cell layers were then assessed for elastin and collagen markers, total protein, and lactate dehydrogenase (LDH). Although HNE and PPE exhibited comparable activity against elastin purified from the cell layer, HNE exhibited a 6.7- to 25-fold reduction in its elastin solubilizing activity using intact cell layers as compared with the purified elastin, whereas PPE exhibited only a 1.5- to 2.5-fold reduction. This effect could not satisfactorily be explained as preferential inhibition of HNE activity in the culture system, because the amount of protein solubilized by HNE was 59% that of PPE. The mean elastin content of PPE-solubilized protein was 110% that of the elastin content of the corresponding cell layer; the value for HNE-solubilized protein was only 16%. Thus, the amount of elastin per microgram of solubilized protein for HNE was 15% that for PPE. Possible explanations for the greatly diminished elastolytic activity of HNE in the culture system include the preference of HNE for other substrates in the cell layer, the inability of HNE to penetrate sufficiently into the cell layer, and the presence of sulfated glycosaminoglycans in the vicinity of the elastin that act in an inhibitory fashion. Although there was extensive proteolytic damage to the extracellular matrix, LDH and DNA measurements indicated that little loss of cells or cell viability occurred. The observed differences in elastolytic activity of HNE and PPE in the culture system parallel the relative emphysema-inducing potency of the elastases in the hamster model of elastase-induced emphysema.

An ultrastructural morphometric analysis of elastase-treated hamster bronchi shows discharge followed by progressive accumulation of secretory granules

An ultrastructural morphometric analysis of bronchial secretory cells was carried out on hamsters treated intratracheally with 300 micrograms of human neutrophil elastase (HNE) in 0.5 ml saline, saline alone, or left untreated. Five to 6 animals were killed at 2 h and at 3, 8, and 16 days after treatment. Electron micrographs were prepared from the hilar region of the left main intrapulmonary airway; 125 +/- 16 (mean +/- SE) granulated secretory cells extending from basement membrane to lumen were analyzed for each group. The number (Ng) and area (Ag) of granular profiles per cell, the area of cell profiles (Ac), and the volume density of secretory granules per cell (Vv) were determined using an electronic image analyzer. There were significant decreases in Ng, mean Ag, and Vv in the 2-h HNE group when compared with the saline group. Values of Ng, mean Ag, and Vv were similar for HNE and saline groups at 3 days, but were significantly increased at 8 and 16 days. The Ac of HNE-treated groups was similar to their saline control groups at all time points except at 16 days when the HNE-treated group enlarged to double that of its saline control group. An ultrastructural differential cell count showed a decrease in frequency of granulated secretory cells at 2 h and an increase at 8 and 16 days; there was an inverse change in the frequency of nongranulated secretory cells at these times. The proportion of ciliated, preciliated, and indeterminate cells remained constant over time in all treatment groups.(ABSTRACT TRUNCATED AT 250 WORDS)

Infrequently occurring activities and contexts in time use data

In this paper we describe an approach to the study of time use data that focuses on relatively infrequent activities as well as the contexts in which the activities take place. To illustrate the method, we present several examples from a secondary analysis of the Multinational Comparative Time-Budget data, based on over 25,000, 24-hour, time use diaries collected in 12 countries during 1965 through 1966. Activities that represent a small fraction of the overall time budget of a population may nevertheless yield valuable insights into a culture or group. Analyses of such mundane events as doing the laundry, transporting children, and taking a walk indicate marked differences among the countries surveyed in terms of frequencies, durations, by whom, and with whom these activities were typically performed. In the future, time use studies can be expected to contribute to the understanding of mental disorders in natural contexts. In contrasting specific diagnostic groups with normal subjects, analyses of specific activities (e.g., personal care, social interaction) or contexts (e.g., alone vs. with others, at home vs. away) may be particularly relevant. Strategies that combine continuous recording (diary) with repeated, instantaneous experience-sampling methods are likely to be the most useful in such studies of mental disorders.

Reversible, slow, tight-binding inhibition of human leukocyte elastase

CBz-Ala-Ala-Pro-ambo-Val-CF3 (1) was synthesized. The compound inhibits human Leucocyte elastase with Ki = 1.0 x 10(-9) M. This inhibitor is reversible, slow, tight-binding inhibitor with k on = 2 x 10(4) M-1 s-1 k off = 1.9 x 10(-5) s-1. For the solubilization of elastin by HLE by 1 I.C. 50 = 110 nM. This inhibitor is the most effective aldehyde or ketone inhibitor of a serine proteinase yet described.

An ultrastructural study of the response of hamster bronchial epithelium to human neutrophil elastase

The central intrapulmonary bronchi of hamsters were examined by transmission electron microscopy at varying times following intratracheal instillation of human neutrophil elastase (HNE) or its vehicle, saline. Two hours after HNE treatment, there was a marked irregularity of the surfaces of many nonciliated epithelial cells; a differential count of transepithelial cells (those with both a basal lamina and luminal border) demonstrated a significant decrease in the proportion of granule-containing (granulated) secretory cells and a corresponding increase in nongranulated secretory cells. By 3 days after HNE injection, the differential count had returned to control levels and cell surface alterations were less evident. By 8 days, the proportion of granulated secretory cells had significantly increased, while that of nongranulated secretory cells had decreased. Many Clara cells developed the characteristics of mucous cells so that mucous cells constituted 57% of the secretory cells compared to 14% for the saline controls. The mucous cells contained an increased number of mucous granules including bizarre forms never seen in controls. By day 16, the average mucous cell proportion had increased to 75%; the mucous cells were larger and contained many more secretory granules than at day 8. At no time was there evidence of overt cell injury or alteration of extracellular connective tissue due to HNE. Basal and pseudobasal cells, distinguished by the presence or absence of hemidesmosomes, did not change as a percentage of total nucleated epithelial cells. Saline had no effect on the differential cell count compared to untreated values. Our results indicate a strong likelihood that HNE causes early discharge of secretory granules and alters the phenotypic expression of Clara cells so that they produce abundant, often abnormal mucous granules. The mechanism of HNE-induced disturbance of epithelial homeostasis is unknown, but the early irregularity of nonciliated epithelial cell surfaces may signify an important event in the evolution of the resultant lesion.

Serine proteases stimulate mucous glycoprotein release from hamster tracheal ring organ culture

The effects of several neurohumoral agents and serine proteases on glycoconjugate release from hamster tracheal organ cultures were assessed. The beta-adrenergic agonist isoproterenol inhibited glycoconjugate release, and its effect was abolished by the specific beta-blocking agent propranolol. A cholinergic agonist, pilocarpine, marginally increased glycoconjugate release, and its effect was abolished by the antagonist atropine. Human neutrophil elastase and porcine pancreatic trypsin consistently increased glycoconjugate release by 1.8 to 2.8-fold. When the proteases were inactivated, they were no longer effective in stimulating glycoconjugate release. Histologic and electron microscopic analysis of the protease-treated organ cultures revealed no discernible toxic reaction. In addition, organ cultures prelabeled with chromium 51 did not release an increased amount of radioactivity when treated with the proteases. Biochemical analysis of the glycoconjugates released into the culture medium showed them to be of high molecular weight (90% eluted in the void volume of a Sepharose 6B column) and to be resistant to digestion with hyaluronidase and heparinase, properties consistent with mucous glycoproteins. The mechanism of protease-induced glycoconjugate release is unknown. We speculate that stimulation of airway secretory cells by serine proteases of neutrophilic or other inflammatory cell origin may play a role in the increased airway secretion that is characteristic of acute tracheobronchitis.

Effect of varying the time interval between intratracheal administration of eglin-c and human neutrophil elastase on prevention of emphysema and secretory cell metaplasia in hamsters. With observations on the fate of eglin-c and the effect of repeated instillations

Eglin-c is a naturally occurring polypeptide of 70 amino acids with a molecular mass of 8,100 daltons. It is a strong inhibitor of human neutrophil elastase (HNE) and cathepsin-G, and, when given intratracheally to hamsters 1 h before human neutrophil elastase, it can prevent or ameliorate the emphysema produced by HNE. The present experiments were designed to determine the duration of the effectiveness of eglin-c, prepared by DNA technology from Escherichia coli, in preventing the emphysema and secretory cell metaplasia induced by HNE. Eglin-c (2,000 micrograms in 0.5 ml saline) was effective in ameliorating emphysema, as determined histologically and physiologically, when it was given intratracheally to hamsters 1, 2, 4, and 8 h before the intratracheal instillation of 300 micrograms of HNE. Eglin-c ameliorated bronchial secretory cell metaplasia when given 1 h before HNE but not when the time intervals were 2 h or longer. The clearance of [3H]eglin-c from the lungs was assessed. Four h after intratracheal instillation of 446 micrograms of [3H]eglin-c, 33% of the tritium was found in the lung tissue and bronchoalveolar lavage fluid; 83% of the radioactivity in the lavage fluid supernatant was associated with functionally active eglin-c. No evidence of bronchopulmonary toxicity was seen in hamsters given 4 intratracheal instillations of 2,000 micrograms of eglin-c at 1-wk intervals.

Ultrastructural changes in hamster lung 15 min to 3 hr after exposure to pancreatic elastase

A single endotracheal instillation of porcine pancreatic elastase into hamster lungs induces morphological changes that can be detected as early as 15 min after the instillation of enzyme. Lung tissue from animals sacrificed at six time points between 15 min and 3 hr after enzyme instillation was examined for ultrastructural alterations. There were few of these alterations and they were highly focal, but they included damaged epithelial cells and partially digested elastic fibers that occurred both in the parenchyma and the pleura. A cytochemical technique employing N-t-Boc-L-alanine-p-nitrothiophenyl ester as a substrate for elastase-like enzymes was also used in an effort to locate pancreatic elastase shortly after instillation into the lungs. Reaction product was observed on the alveolar surface and in pinocytotic vesicles of alveolar type I cells, in connective tissue areas, in fibroblasts, and in pinocytotic vesicles of capillary endothelial cells. The location of reaction product coupled with ultrastructural alterations in the tissue suggests that pancreatic elastase instilled into the trachea may reach the interstitium in two ways: First, transport may take place across intact alveolar type I cells via pinocytotic vesicles, and second, a small amount of enzyme may gain access to the connective tissue after the disruption of epithelium in a few highly focal areas.

Eglin-c, a polypeptide derived from the medicinal leech, prevents human neutrophil elastase-induced emphysema and bronchial secretory cell metaplasia in the hamster

Eglin-c (Eg-c), a polypeptide with a molecular mass of 8,100 daltons, was purified from the medicinal leech Hirudo medicinalis. The Eg-c was tritiated by reductive methylation for in vitro studies. Incubation of 2.1 X 10(-10) moles of human neutrophil elastase (HNE) with 3H-elastin in the presence of 8.2 X 10(-10) moles of 3H-Eg-c inhibited 98.7% of the elastolytic activity of the enzyme. Using Sephadex G 100 chromatography and 1.7 moles of 3H-Eg-c per mole of HNE, a 34,000-dalton complex (3H-Eg-c-HNE) was observed. The stability of the complex formed between 3H-Eg-c and HNE that had been inactivated with succinyl-ala2-pro-val CH2Cl was much less than that of the 3H-Eg-c-HNE complex. In vivo studies were carried out in weight-matched groups of anesthetized golden Syrian hamsters given 100, 300, 500, or 2,000 micrograms of Eg-c in 0.5 ml saline intratracheally 1 h before 300 micrograms HNE was administered intratracheally. Control animals received saline followed by HNE or 2 doses of saline 1 h apart. Eight weeks later, lung statics and dynamics were measured in anesthetized animals, followed by histologic study of lung parenchyma and the mucosa of the large intrapulmonary airways. There were no deaths, and final mean body weights were similar in all groups.(ABSTRACT TRUNCATED AT 250 WORDS)

Effect of combined human neutrophil cathepsin G and elastase on induction of secretory cell metaplasia and emphysema in hamsters, with in vitro observations on elastolysis by these enzymes

To determine whether purified human neutrophil cathepsin G (Cat-G) can act by itself or in concert with purified human neutrophil elastase (HNE) in the induction of emphysema and bronchial secretory cell metaplasia (SCM), we gave golden Syrian hamsters 100 micrograms of HNE alone or in combination with either 100 or 200 micrograms of Cat-G. Other groups of animals received intratracheal doses of up to 600 micrograms of Cat-G alone. The severity of emphysema was determined from measurements of lung volumes, compliance, forced expiratory flow, and the mean linear intercept. The severity of SCM in the main airways was graded on sections stained by the alcian blue and periodic acid-Schiff reaction. The Cat-G was a weak inducer of SCM; significant SCM was produced by 400 and 600 micrograms but not by 100 or 200 micrograms or 200 micrograms of Cat-G. The Cat-G (100 and 200 micrograms) did not potentiate the SCM induced by 100 micrograms of HNE. The Cat-G alone did not produce emphysema, and neither 100 nor 200 micrograms of Cat-G potentiated the mild emphysema induced by 100 micrograms of HNE. These results were not consonant with a report that Cat-G and HNE were synergistic in solubilizing human lung elastin. We therefore measured the ability of Cat-G and HNE to solubilize several radiolabeled elastins. The combination of Cat-G and HNE did not solubilize significantly more hamster lung elastin (23%) than the sum of their individual activities.(ABSTRACT TRUNCATED AT 250 WORDS)

Quantitative study of secretory cell metaplasia induced by human neutrophil elastase in the large bronchi of hamsters

To explore the time course and the mechanism of development of bronchial secretory cell metaplasia (SCM) induced by human neutrophil elastase (HNE), anesthetized hamsters were injected intratracheally with 300 micrograms highly purified HNE in 0.5 ml saline solution; saline-injected and untreated animals served as controls. At 3, 8, 16, and 21 days after treatment, animals were killed and their lungs fixed by vascular perfusion. Samples from the hilar region of the left lung, containing the main axial airway and its proximal branches, were embedded in Epon-Araldite, and 1 micron sections were stained with methylene blue. Epithelial cells with a luminal border were categorized into three cell types and expressed as a percent of total cells counted (mean 1900 per animal); cells containing at least three mucin granules were classified as secretory, ciliated cells displayed cilia or basal bodies, and cells with none of these characteristics were classified as indeterminate. Percentages of the three cell types in saline-treated animals, at all time points, were comparable to those in the untreated controls. With HNE treatment the secretory cell percentages were higher at 16 days (mean +/- SEM, 36.4% +/- 3.2%) and at 21 days (35.7% +/- 2.9%) than in the untreated animals (18.2% +/- 1.8%, P less than 0.05). The percentage of the indeterminate cells in the HNE group was decreased at days 8, 16, and 21 (7.2% +/- 1.6%, 5.0% +/- 1.4%, and 8.2% +/- 2.5%, respectively) compared with that in the untreated group (21.7% +/- 2.5%, P less than 0.05).(ABSTRACT TRUNCATED AT 250 WORDS)

Proteolytic activity of human neutrophil elastase and porcine pancreatic trypsin causes bronchial secretory cell metaplasia in hamsters

The authors wished to determine whether secretory cell metaplasia (SCM) induced in the bronchi of hamsters by human neutrophil elastase (HNE) was enzymatically mediated. We also wished to determine whether SCM could be induced by a proteolytic enzyme devoid of elastolytic activity. Accordingly, groups of weight-matched hamsters were given a single intratracheal instillation of 0.5 ml of saline solution containing one of the following: 300 micrograms of HNE purified from blood neutrophils, n = 14; 300 micrograms of HNE inactivated with Suc-Ala-Ala-Pro-Val chloromethyl ketone (CMK), n = 10; 500 micrograms of porcine pancreatic trypsin treated with CMK to eliminate residual active elastase, n = 10; 500 micrograms of trypsin inactivated by tosyl lysine chloromethyl ketone, n = 10; 2 micrograms CMK, n = 10; and saline alone, n = 10. Seven untreated animals served as additional controls. Twenty-one days post treatment, 5-6 micron paraffin-embedded sections, from the left lung hilar region, stained by Alcian blue and periodic acid-Schiff reaction were graded on a five-point scale for determination of the secretory cell index, which reflects SCM. Both elastase and trypsin produced severe SCM: mean +/- SEM secretory cell indices were 2.96 +/- 0.11 and 2.72 +/- 0.19, respectively, compared with values of 0.90 +/- 0.35 for the untreated group and 0.93 +/- 0.46 for the saline group (p less than .05). The secretory cell indices of the groups treated with inactivated elastase or trypsin were comparable to those of the saline-treated and untreated groups.(ABSTRACT TRUNCATED AT 250 WORDS)

Serum antielastase and neutrophil elastase levels in PiM phenotype cigarette smokers with airflow obstruction

In order to assess blood factors which might explain why some cigarette smokers develop airflow obstruction while others do not, we compared two groups of PiM phenotype volunteers matched for age, sex and total pack-years of cigarette smoking; one group had airflow obstruction and the other did not. Functional levels of alpha-2-macroglobulin (alpha-2-M) and alpha-1-protease inhibitor (alpha-1-PI) were separately assessed by a protease binding procedure. Neutrophils were isolated from blood by counterflow centrifugation, and their elastase content was assayed with 3H-elastin-SDS (sodium dodecyl sulfate). The obstructed and nonobstructed groups were not different with respect to functional or immunoreactive levels of alpha-1-PI and alpha-2-M or elastase levels in their neutrophils. We do not find imbalances of circulating elastase or antielastase levels in PiM phenotype smokers with airflow obstruction.

Alveolar macrophage modulation of proteolysis by neutrophil elastase in extracellular matrix

An extracellular connective tissue matrix, made up of components found in the pulmonary alveolar interstitium, was generated in vitro and used as a culture surface and substrate for proteolysis by human alveolar macrophages (AM) and neutrophil elastase (NE). The ability of human AM to modulate NE-mediated degradation of elastin and collagen in the surrounding matrix was studied to gain insights into the inflammatory process that accompanies the pathogenesis of emphysema in humans. Neutrophil elastase that had been internalized by AM showed a diminished but more prolonged time course of matrix proteolysis than did a similar amount of NE added to the matrix in the absence of AM. Collagen and elastin degradation were quantitated by release of hydroxylysine and desmosine, respectively, into the culture medium. Significantly more hydroxylysine and desmosine were released by AM that had internalized NE than by AM or by culture medium alone. When 14 X 10(6) AM were added to the extracellular matrix, followed 2 h later by addition of 2 micrograms of NE, collagen and elastin degradation measured at 24 h were not significantly different from that which occurred when matrix was incubated with NE in the absence of AM. Collagen degradation, determined in the same cultures during the period from 24 to 96 h, was significantly greater when matrix was incubated with both AM and NE. These findings suggest that AM can release previously internalized NE in an enzymatically active form and that AM may enhance collagen degradation in matrix that was also exposed to NE.