Protection of hypoxic cytotoxicity by glucocorticoid in the liver

Induction of hypoxia for 2.5 h in perfused cat livers resulted in a 10-fold increase in cathepsin D and a 15-fold increase in lactic dehydrogenase (LDH) activities in the perfusate and a 42% depression of the clearance rate of particles by the reticuloendothelial system (RES). Addition of 10^–3 M methylprednisolone (MP) to the perfusate only slightly retarded the release of LDH, but significantly (P<0.05) inhibited cathepsin D release by 90% at 150 min. Liver flow did not change during the perfusion period when MP was added to control or hypoxic livers. Similarly, MP did not significantly alter oxygen consumption in perfused livers. However, MP protected against the reduction in carbon clearance during hypoxia without inducing blockade of colloidal carbon clearance. Moreover, opsonization of carbon with autologous plasma did not improve the clearance of colloidal carbon above that observed in nonopsonized experiments. Thus, pharmacologic doses of a synthetic glucocorticoid protected RES cells and release of lysosomal hydrolases during severe hypoxia in isolated perfused cat livers probably by stabilization of cellular and intracellular (lysosomal) membranes.Supported in part by grant HL-17745 from the National Heart and Lung Institute of the NIH.     

Cathepsins in the kidney of olive flounder,Paralichthys olivaceus,and their responses to bacterial infection

Cathepsin activities are responsible for mediating various pathways involved in immune response, including the apoptosis pathway, toll-like receptor (TLR) signaling, cytokine induction and activation of granule serine proteases. In the present study, we investigated cathepsin responses in the kidneys of olive flounder infected with Streptococcus parauberis, analyzing cathepsin expression using a label-free, quantitative proteomic approach in conjunction with quantitative real-time polymerase chain reaction (qRT-PCR). In proteomic analyses, we detected cathepsin B, D, L and S proteins, noting significant decreases and increases in cathepsins B and L, respectively, with infection. Taken together with an evaluation of cathepsin B, D, F, K, L, S and X gene expression in normal and infected kidneys by qRT-PCR, our results indicate that cathepsins B, D, L and S are the dominant lysosomal proteases in the immune system of the teleostei, olive flounder. Cathepsins F, K and X were regarded as minor cathepsins.     

Effect of adjuvant arthritis on collagenase and certain lysosomal enzymes in relation to the catabolism of collagen

The activity of collagenase, cathepsin B1, cathepsin D and Hyaluronidase was determined in skin, bone, liver, kidney, spleen and serum of adjuvant induced arthritic rats during the acute and chronic phase of the disease. Collagenase was assayed directly in tissue extract by a solution method using radioactive labelled substrate. The activity of collagenase, cathepsin B1 and D was found to increase significantly at both phases of the disease. The activity of hyaluronidase decreased significantly in liver, kidney and spleen of arthritic rats, while in skin, bone and serum no significant change was observed. The results are discussed with respect to catabolism of collagen in adjuvant induced arthritis.Prednisolone andl-thyroxine were administered to arthritic rats and the activity of collagenase, cathepsin B1, cathepsin D and hyaluronidase was determined in the treated groups during the acute and chronic phase of the disease. Prednisolone was found to suppress the development of arthritis which, in turn, decreased the increased activity of collagenase and lysosomal enzymes cathepsin B1 and D in tissues and serum of arthritic rats.l-Thyroxine was found to slowly diminish the development of inflammation and its beneficial action was found in mesenchymal tissues and skin of arthritic rats but not in bone.Presented at the Symposium of the Society of Biological Chemists, India, held at New Dehli in October, 1978.     

Influence of application and dosis on the effect of aldadiene-K on the rat brain

Summary In these investigations we could demonstrate that intraperitoneal application of aldadiene-K produced convulsions depending on the dosis of the drug. We also found significant alterations of the activities of the lysosomal enzymes-glucuronidase,-acetylglucosaminidase and cathepsin D in the brain of the 15 months old rats: in the test group the bound activities of the three lysosomal enzymes decreased, in the test group of the 10 weeks old rats only bound and free lysosomal activity of cathepsin D decreased significantly.Aldadiene-K=Aldactone pro injectione®, Boehringer, Mannheim.     

Inflammatory response and cathepsins in silica-exposed Hermansky-Pudlak syndrome model pale ear mice

Hermansky–Pudlak syndrome (HPS) is a hereditary disorder involving the sorting processes of intracellular organelles such as lysosomes of reticuloendothelial cells. Pale ear (ep) mouse is known to have the HPS1 gene mutation, which is seen in patients with HPS and pulmonary fibrosis. As pulmonary fibrosis is not spontaneously observed in ep mice, we hypothesized that external stimuli are necessary for the genetic predisposition of its development. We used silica as the external stimulus to induce the alveolar macrophage‐mediated inflammatory response and evaluated the pathological changes of the lung and biochemical analysis of collagenolytic lysosomal enzymes cathepsins L and B in ep mice. Treatment with silica induced the following: persistent accumulation of activated macrophages; delayed clearance of silica from alveolar spaces; and increased collagen fibers in alveolar tissues, which were shown with trichrome staining in ep mice. The comparison of bronchoalveolar lavage cells between the naïve ep and control mice revealed: decreased enzymatic activities but increased antigenic levels of cathepsins L and B, resulting in significantly lower ratios of activity to antigen; increased ceroid deposits and cathepsin L antigens in lysosomes; and no abnormal forms of cathepsins were detected. After silica instillation, activities of cathepsin L in the ep mice increased but ratios of activity to antigen were still significantly low. These phenomena induced by silica suggest that external stimuli bring forth fibrogenesis in the animal models or humans that have HPS1 gene mutation.     

Simultaneous in vivo assessment of cardiac and hepatic metabolism in the diabetic rat using hyperpolarized MRS

Understanding and assessing diabetic metabolism is vital for monitoring disease progression and improving treatment of patients. In vivo assessments, using MRI and MRS, provide non‐invasive and accurate measurements, and the development of hyperpolarized ¹³C spectroscopy in particular has been demonstrated to provide valuable metabolic data in real time. Until now, studies have focussed on individual organs. However, diabetes is a systemic disease affecting multiple tissues in the body. Therefore, we have developed a technique to simultaneously measure metabolism in both the heart and liver during a single acquisition. A hyperpolarized ¹³C MRS protocol was developed to allow acquisition of metabolic data from the heart and liver during a single scan. This protocol was subsequently used to assess metabolism in the heart and liver of seven control male Wistar rats and seven diabetic rats (diabetes was induced by three weeks of high‐fat feeding and a 30 mg/kg injection of streptozotocin). Using our new acquisition, we observed decreased cardiac and hepatic pyruvate dehydrogenase flux in our diabetic rat model. These diabetic rats also had increased blood glucose levels, decreased insulin, and increased hepatic triglycerides. Decreased production of hepatic [1‐¹³C]alanine was observed in the diabetic group, but this change was not present in the hearts of the same diabetic animals. We have demonstrated the ability to measure cardiac and hepatic metabolism simultaneously, with sufficient sensitivity to detect metabolic alterations in both organs. Further, we have non‐invasively observed the different reactions of the heart and liver to the metabolic challenge of diabetes.     

Expression of cathepsins B, H, K, L, and S during human fetal lung development.

Cathepsins are involved in lysosomal protein degradation, proenzyme activation, antigen processing, and hormone maturation. They are secreted by tumor cells and macrophages and catalyze the remodeling of extracellular matrix proteins. To gain insight into the expression pattern of cathepsins during fetal lung development, the expression of cathepsins B, H, K, L, and S at protein and mRNA levels were evaluated by using immunohistochemistry and in situ hybridization. Early expression of cathepsins B, H, and K was found in epithelial cells of the branching presumptive bronchi (<12th week of gestation). The most intense cathepsin K-specific immunoreactivity was found in developing airways with a lumen. Cathepsin K was found in epithelial cells only, whereas in contrast, cathepsins B and H were detected both in epithelial and interstitial cells. During fetal maturation, interstitial cells displayed cathepsin L immunoreactivity and, in the saccular phase (>26th week of gestation), both cathepsin L and S immunoreactivities. A continuous decline in the proportion of cathepsin H-positive interstitial CD68-positive cells was observed. These discrete temporal and spatial variations in cathepsin expression during organogenesis of the human lung indicate different physiological roles for the individual enzymes in different cell types and developmental stages.     

Bisphosphonate administration alters subcellular localization of vacuolar‐type H+‐ATPase and cathepsin K in osteoclasts during experimental movement of rat molars

This study was designed to clarify the effects of bisphosphonate (BP) administration on structure and functions of osteoclasts in alveolar bone resorption during experimental movement of rat molars. To produce orthodontic force, elastic band was inserted between the upper first and second molars for 4 days, and dissected maxillae were then examined by means of light and electron microscopic immunocytochemistry for vacuolar‐type H⁺‐ATPase and lysosomal cystein proteinase, cathepsin K in osteoclasts. Vacuolar‐type H⁺‐ATPase and cathepsin K in osteoclasts are the most important enzymes for demineralization of apatite crystals and degradation of bone type‐I collagen, respectively. At 1 day before elastic band insertion, BP was administered intraperitoneally. Control rats received the same volume of physiologic saline. In BP‐administered rats, most osteoclasts exhibited either irregularly‐formed ruffled borders and clear zones or only clear zones of various degrees of extension. Subcellular localization and expression of both vacuolar‐type H⁺‐ATPase and cathepsin K was significantly decreased in such osteoclasts with impaired ruffled borders and/or only clear zones by BP administration. In particular, cathepsin K secretion by osteoclasts towards resorption lacunae was markedly inhibited by BP administration. Our results indicate for the first time that BP administration significantly impair the osteoclast structure and reduces expression of both vacuolar‐type H⁺‐ATPase and cathepsin K in osteoclasts during tooth movement. Anat Rec 260:72–80, 2000. © 2000 Wiley‐Liss, Inc.     

Characterization of liver lysosomal enzyme activity in hepatocytes, Kupffer and endothelial cells during aging: effect of dietary restriction

The specific activity of 4 lysosomal enzymes was studied in homogenate, hepatocytes, Kupffer and endothelial cells isolated from the livers of female Sprague-Dawley rats aged 3.5, 12 and 24 months. Cells were obtained by enzymatic digestion and centrifugal elutriation. Cell viability was not affected by age or diet. In hepatocytes, the activities of all enzymes (acid phosphatase, beta-galactosidase, arylsulfatase B and cathepsin D) increased with age in rats fed ad libitum (A) but were not altered significantly by dietary restriction. The activities of all enzymes except acid phosphatase were systematically higher at 3.5 months of age in Kupffer and endothelial cells than in hepatocytes. Acid phosphatase, arylsulfatase B and cathepsin D activities increased with age in both Kupffer and endothelial cells. Beta galactosidase was decreased significantly with age in Kupffer cells but was elevated in endothelial cells. Rats exposed to dietary restriction (R) showed higher activities of beta-galactosidase, arylsulfatase B and cathepsin D when compared to corresponding A animals with the exception of the younger age group. No clear cut pattern was observed in acid phosphatase activity. Thus, the activities of liver lysosomal enzymes increase with age but the pattern of change differs with respect to enzyme and cell populations. The heightened enzyme activity in Kupffer and endothelial cells from R rats may reflect a more efficient phagocytic capacity in these animals.     

Beneficial effects of treadmill training in experimental diabetic nerve regeneration

OBJECTIVES:

We investigated the effects of treadmill training (10 weeks) on hindlimb motor function and nerve morphometric parameters in diabetic rats submitted to sciatic nerve crush.

MATERIALS AND METHOD:

Wistar rats (n = 64) were divided into the following groups: non-diabetic; trained non-diabetic; non-diabetic with sciatic nerve crush; trained non-diabetic with sciatic nerve crush; diabetic; trained diabetic; diabetic with sciatic nerve crush or trained diabetic with sciatic nerve crush. Diabetes was induced by streptozotocin injection (50 mg/kg, iv). Hindlimb motor function was evaluated weekly by assessing sciatic functional indices, and the proximal and distal portions of the sciatic nerve were used for morphometric analysis.

RESULTS:

At 13 weeks post-injury, the distal nerve portion of all injured groups and the proximal nerve portion of the diabetic with sciatic nerve crush group presented altered morphometric parameters such as decreased myelinated fiber diameter (∼7.4±0.3µm vs ∼4.8±0.2µm), axonal diameter (∼5±0.2µm vs ∼3.5±0.1µm) and myelin sheath thickness (∼1.2±0.07µm vs ∼0.65±0.07µm) and an increase in the percentage of area occupied by endoneurium (∼28±3% vs ∼60±3%). In addition, in the non-diabetic with sciatic nerve crush group the proximal nerve portion showed a decreased myelinated fiber diameter (7.4±0.3µm vs 5.8±0.3µm) and myelin sheath thickness (1.29±0.08µm vs 0.92±0.08µm). The non-diabetic with sciatic nerve crush, trained non-diabetic with sciatic nerve crush, diabetic with sciatic nerve crush and trained diabetic with sciatic nerve crush groups showed normal sciatic functional index from the 4^th, 4^th, 9^th and 7^th week post-injury, respectively. Morphometric alterations in the proximal nerve portion of the diabetic with sciatic nerve crush and non-diabetic with sciatic nerve crush groups were either prevented or reverted to values similar to the non-diabetic group by treadmill training.

CONCLUSION:

Diabetic condition promoted delay in sciatic nerve regeneration. Treadmill training is able to accelerate hindlimb motor function recovery in diabetic injured rats and prevent or revert morphometric alterations in proximal nerve portions in non-diabetic and diabetic injured rats.     

Aktivitätsverhalten lysosomaler proteinabbauender Enzyme der Rattenleber bei der Galaktosamin-Hepatitis: Kathepsin D,Kathepsin A und saure Carboxypeptidase

Zusammenfassung In der vorliegenden Arbeit wird über das Verhalten der lysosomalen Enzyme Kathepsin D, Kathepsin A und saure Carboxypeptidase bei einer akut und einer subakut verlaufenden Galaktosamin-Hepatitis der Ratte berichtet. Es werden Rattenlebern nach der Methode von de Duve durch Zentrifugation in ein Lysosomen-Sediment und einen Lysosomen-Überstand fraktioniert. Ein Teil der Leber wird zur Bestimmung der Gesamtaktivität der oben genannten Enzyme homogenisiert. Bei der akuten Hepatitis nehmen nach 25 Std die Enzymaktivitäten in der Lysosomen-Sediment-Fraktion ab, in der Lysosomen-Überstands-Fraktion zu. Die Aktivität dieser Enzyme pro g Leberfrischgewicht nimmt bis auf die von Kathepsin A signifikant ab. Bei der subakuten Galaktosamin-Hepatitis ist nach 8 Tagen ein signifikanter Anstieg der 3 Enzymaktivitäten in der Lysosomen-Überstandsfraktion nachweisbar; er ist im Vergleich zur akuten Schädigung weniger ausgeprägt. Die Aktivitäten von Kathepsin D und A pro g Leberfrischgewicht nehmen zu; diese Zunahme im Verlauf der subakuten Hepatitis könnte Ausdruck einer Regenerationsleistung der Leber sein.Unter der Wirkung von Galaktosamin werden die Lysosomen instabiler.

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Distribution and activity of lysosomal protein catabolicenzymes of rat liver in galactosamine hepatitis: Cathepsin D, cathepsin A and acid carboxypeptidase

Summary Changes of activity and distribution in rat liver of the lysosomal enzymes cathepsin D, cathepsin A, and acid carboxypeptidase are described as a result of D-galactosamine action. Hepatitis was provoked by acute and by prolonged administration of D-galactosamine. A lysosomal pellet and a lysosomal supernatant fraction were prepared from rat liver by centrifugation according to de Duve. Total activity of the respective enzymes mentioned above was assayed in the liver homogenate. A loss of enzyme activities in the lysosomal pellet and an increase in the supernatant fraction was observed after 25 hours in acute hepatitis following D-galactosamine administration. Total activities of cathepsin D and acid carboxypeptidase per gram liver wet weight were significantly decreased. Administration of D-galactosamine over 8 days resulted in a significant increase of the three enzyme activities in the lysosomal supernatant fraction; as compared to the acute hepatitis, however, this increase was less marked. Total activities of cathepsin D and A per gram liver wet weight increased during prolonged D-galactosamine administration; this is interpreted as a result of liver regeneration.D-Galactosamine action in liver leads to more labile lysosomes.

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Mit Unterstützung durch die Deutsche Forschungsgemeinschaft.

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Die Ergebnisse wurden zum großen Teil im Rahmen der Inaugural-Dissertation von Gunther Wangemann gewonnen.     

Cathepsin E Promotes Pulmonary Emphysema via Mitochondrial Fission

Emphysema is characterized by loss of lung elasticity and irreversible air space enlargement, usually in the later decades of life. The molecular mechanisms of emphysema remain poorly defined. We identified a role for a novel cathepsin, cathepsin E, in promoting emphysema by inducing mitochondrial fission. Unlike previously reported cysteine cathepsins, which have been implicated in cigarette smoke-induced lung disease, cathepsin E is a nonlysosomal intracellular aspartic protease whose function has been described only in antigen processing. We examined lung tissue sections of persons with chronic obstructive pulmonary disease, a clinical entity that includes emphysematous change. Human chronic obstructive pulmonary disease lungs had markedly increased cathepsin E protein in the lung epithelium. We generated lung epithelial-targeted transgenic cathepsin E mice and found that they develop emphysema. Overexpression of cathepsin E resulted in increased E3 ubiquitin ligase parkin, mitochondrial fission protein dynamin-related protein 1, caspase activation/apoptosis, and ultimately loss of lung parenchyma resembling emphysema. Inhibiting dynamin-related protein 1, using a small molecule inhibitor in vitro or in vivo, inhibited cathepsin E-induced apoptosis and emphysema. To the best of our knowledge, our study is the first to identify links between cathepsin E, mitochondrial fission, and caspase activation/apoptosis in the pathogenesis of pulmonary emphysema. Our data expand the current understanding of molecular mechanisms of emphysema development and may provide new therapeutic targets.Emphysema is a major subset of chronic obstructive pulmonary disease (COPD) and is defined anatomically as the destruction of the distal lung parenchyma and enlargement of the air spaces. Pulmonary emphysema is one of the main causes of morbidity and death worldwide. The most studied factor in developing COPD has long been recognized to be cigarette smoking. However, only 10% to 20% of heavy smokers develop clinically significant COPD.^1,2 Importantly, recent studies indicate that complementary pathogenic mechanisms, such as proteolytic/antiproteolytic imbalance, oxidative stress, apoptosis, or altered innate immunity, are involved in the development and progression of alveolar destruction.^3–6Cathepsins have been implicated in mediating alveolar destruction via their proteolytic activity. Cathepsins are intracellular hydrolases and include serine proteases (cathepsins A and G), aspartic proteases (cathepsins D and E), and cysteine cathepsins (cathepsins B, C, F, H, K, L, O, S, V, X, and W). Cathepsin E (Cat E), a nonlysosomal intracellular aspartic protease, is homologous to aspartic protease cathepsin D, a major proteolytic activity in the lysosomal component.⁷ Recent studies have reported that Cat E plays an important role in antigen processing via the major histocompatibility complex class II pathway, host defense against cancer cells and invading microorganisms, gastric differentiation, and development of signet-ring cell carcinoma.^8–12 However, Cat E has not been linked to lung disease.Human lung sections from persons with COPD indicated increased expression of Cat E protein in the lung epithelial cells. To investigate if increased expression of lung epithelial Cat E could lead to emphysema, we generated lung-targeted constitutive and inducible Cat E transgenic (Tg) mice. Our data indicated that inducible Cat E Tg mice developed emphysema-like lung changes as early as 1 week. We noted robust caspase 3 activation, and, when mice were administered a caspase inhibitor, emphysema was prevented. To our surprise, we did not find changes in caspases usually associated with caspase 3 activation, such as caspases 8 and 9, in Cat E Tg mice. Instead, we found significant induction of a mitochondrial fission protein, dynamin-related protein 1 (Drp1). When we inhibited Drp1 in Cat E Tg mice with Mdivi-1, a small molecule Drp1 inhibitor, we completely abolished the development of emphysema. Collectively, our data indicate that increased Cat E is a clinically relevant finding in human COPD and invoke a novel role for Cat E in mitochondrial fission-induced emphysema.     

Differential expression patterns of cathepsins B, H, K, L and S in the mouse ovary

Cathepsins B, H, K, L and S belong to a family of lysosomal cysteine proteinases which participate in a variety of proteolytic processes, including degradation of extracellular matrix. Although the presence of cathepsin mRNAs in the ovary has been reported earlier, very little information is available on their temporospatial expression. In the present study, Northern analysis revealed cyclic changes in the mRNA levels for cathepsins B, H, K, L and S during the 4-day oestrous cycle in the mouse ovary. Immunohistochemical localization revealed distinct expression patterns suggesting different functions for the cathepsins studied. Cathepsin B was predominantly seen in the germinal epithelium throughout the oestrous cycle. Upon follicular maturation, an increasing number of granulosa cells became positive for all cathepsins. Strong cathepsin H staining was sharply defined in theca externa which also stained for cathepsins K and S. Corpus luteum was the predominant location of cathepsin L. The distribution of cathepsin S resembled that of cathepsin L. The developing oocyte stained positive for all cathepsins. In-situ hybridization confirmed the differential production of cathepsin mRNAs by granulosa, thecal and luteal cells. These complex temporal and spatial expression patterns at different stages of the oestrous cycle and follicular development suggest divergent functions for specific cathepsins in follicular development, growth and rupture.     

Cathepsin D,but not cathepsin B,releases T cell stimulatory fragments from lysozyme that are functional in the context of multiple murine class II MHC molecules

In this study, the major endosomal/lysosomal proteases cathepsin D and cathepsin B were tested on their ability to release T cell stimulatory peptides from hen egg white lysozyme (HEL) in vitro. Whereas neither enzyme could cleave unreduced HEL under mild conditions, reduced HEL was readily cleaved by cathepsin D but not by cathepsin B. Instead, cathepsin B was found to be very active in the trimming of HEL peptides after their release by cathepsin D. Following high-performance liquid chromatography (HPLC) fractionation, cathepsin D-released HEL fragments were screened for recognition by HEL-specific T cells from three strains of mice, i.e. B10. A (H-2^a), C57BL/6 (H-2^b) and BALB/c (H-2^d). Peptides in a large number of different HPLC fractions triggered significant T cell responses in all three strains. Interestingly, the response profiles of T cells from the three different strains showed marked similarities. Also, several individual synthetic HEL sequences corresponding to selected cathepsin D-released fragments were recognized by murine T cells in the context of all three major histocompatibility complex (MHC) haplotypes tested. Our data suggest that cathepsin D rather than cathepsin B may play a central role in the initial release of HEL fragments during endosomal/lysosomal processing. The relatively long HEL fragments released by cathepsin D, containing about 20—30 amino acid residues, are significantly more promiscuous in murine class II MHC binding than the shorter synthetic HEL sequences previously employed by others for the delineation of HEL epitopes. Extensive documentation of HEL epitopes in previous investigations indicate that this promiscuity cannot be explained by simply assuming that longer peptides contain additional epitopes. Rather, an increased peptide length by itself appears to promote promiscuous MHC binding.     

Interleukin-6 and transforming growth factor-beta 1 control expression of cathepsins B and L in human lung epithelial cells.

Cathepsins B and L are commonly expressed cysteine proteinases that play a major role in lysosomal bulk proteolysis, protein processing, matrix degradation, and tissue remodeling. Cathepsins are also implicated in tumor progression and metastasis, tissue injury, and inflammation. Cells at sites of inflammation often show upregulation and secretion of cathepsins. The regulation of cathepsin expression by inflammatory mediators is not well understood. The aims of this study were to investigate the effect of the cytokines interleukin-1 beta (IL-1 beta), IL-6, IL-10, transforming growth factor-beta 1 (TGF-beta 1), and hepatocyte growth factor (HGF) on expression of cathepsin B and cathepsin L mRNA (quantitative RT-PCR), on protein expression (ELISA, Western blot), and also on enzymatic activity of cathepsins B and L. Investigations were performed using the human lung epithelial cell line A-549. IL-6 was found to induce a concentration-dependent increase in mRNA expression, protein concentration, and enzymatic activity of cathepsin L. Cathepsin B mRNA and protein expression were not affected by IL-6. In contrast, TGF-beta 1 decreased the amount of cathepsin L mRNA and cathepsin B mRNA. At protein level, it was shown that TGF-beta 1 clearly reduced the concentration of cathepsin L but not cathepsin B. The cytokines IL-1 beta, IL-10, and HGF were found to exert no effect on cathepsin B and L expression. In conclusion, these results are the first to show that IL-6 and TGF-beta 1 have opposite effects on the regulation of expression of cathepsins B and L in A-549 human lung epithelial cells. The proinflammatory cytokine IL-6 induced an upregulation of cathepsin L, whereas TGF-beta 1 suppressed cathepsin B and L expression. Further studies are needed to clarify the mechanism that affects cathepsin B and L expression.     

Abnormal profiles of cathepsin C secreted in urine of Papillon Lefevre syndrome patients

BackgroundPapillon Lefevre syndrome (PLS) is an autosomal recessive disorder that results from a mutated gene that encodes a lysosomal peptidase known as cathepsin C (CTSC). The clinical presentation of PLS involves mainly palmoplantar keratosis and periodontitis with a variable degree of severity.Subjectsand methods: Our study included ten patients with a broad spectrum of palmoplantar keratosis and periodontitis severity. CTSC variants were detected by Sanger sequencing. CTSC protein secreted in urine was detected by western blotting.ResultsFive patients have missense variants, Four have nonsense variants, and one has splice variants in CTSC. The activation products of cathepsin C protein (Heavy and light chains) were absent in all patients’ urine samples except one with a significantly reduced level compared to the controls. The dimeric form of CTSC protein was found in all the studied cases. The monomeric form was found in five cases. The products of proteolytic activation of CTSC by other cathepsins (L and S) were found in the urine samples of five of the patients. Each patient had a characteristic pattern of accumulated CTSC protein maturation/activation substrates, intermediates, and products. 40% of the patients had the activation products of other lysosomal cathepsins.ConclusionUrinary CTSC in PLS patients could be used as a diagnostic biomarker for the biochemical screening of the disease. Different variants in CTSC result in different profiles of CTSC secreted in the urine of PLS patients. The profiles of secreted CTSC in urine could be correlated to the severity of palmoplantar keratosis.     

Microinjection of cathepsin d induces caspase-dependent apoptosis in fibroblasts

Recent reports have indicated that enzymes such as cathepsins D and B are translocated from lysosomal compartments to the cytosol early during apoptosis. We have previously noted that a translocation of cathepsins D and B occur before cytochrome c release and caspase activation in cardiomyocytes and human fibroblasts during oxidative stress-induced apoptosis. In the present report, we use a microinjection technique to investigate if cytosolic location of the cathepsins D and B are important for induction of apoptosis. We found that microinjection of cathepsin D into the cytosol of human fibroblasts caused apoptosis, which was detected as changes in distribution of cytochrome c, cell shrinkage, activation of caspases, chromatin condensation, and formation of pycnotic nuclei. No apoptosis was, however, induced by microinjection of cathepsin B. Moreover, apoptosis was prevented in fibroblasts pretreated with a caspase-3-like inhibitor, and also when microinjected with cathepsin D mixed with the cathepsin D inhibitor, pepstatin A. These results show that cytosolic cathepsin D can act as a proapoptotic mediator upstream of cytochrome c release and caspase activation in human fibroblasts.     

Morphological and enzymatic heterogeneity of suramin-induced lysosomal storage disease in some tissues of mice and rats

Suramin-induced lysosomal storage disease reproduced in the rat was extended to the mouse with the attempt to characterize enzymatically and morphologically heterogeneous responses of various organs to the drug. Suramin administration strikingly decreased (3-6 days afterward) the activity of beta-glucuronidase in all tissues studied (kidney, liver, heart, and skeletal muscle). The enzymatic responses were small in the activities of beta-N-acetyl-glucosaminidase. The activity of arylsulfatase A decreased to a varying degree in mouse tissues, but in rats the activity increased in liver and skeletal muscle. The activity of cathepsin D increased in rat tissues. Suramin induced morphological changes characteristic to lysosomal storage diseases in kidney and liver but not in heart and skeletal muscle of both mice and rats. Kidney was appreciably more susceptible to suramin than liver. The occurrence of lysosomal accumulations, membranous lamellar inclusions, and granular material were most prominent in tubular cells of kidney and in Kupffer cells of liver. These cells also presented intensive Alcian blue staining. Interestingly, the enzymatic and morphological responses did not correlate with each other, which may reflect differences in the regulation of lysosomal functions in various cell types.