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6. Common coding variant in SERPINA1 increases the risk for large artery stroke

Author

Malik, R, Dau, T, Gonik, M, Sivakumar, A, Deredge, DJ, Edeleva, EV, Götzfried, J, Van Der Laan, SW, Pasterkamp, G, Beaufort, N, Seixas, S, Bevan, S, Lincz, LF, Holliday, EG, Burgess, AI, Rannikmäe, K, Minnerup, J, Kriebel, J, Waldenberger, M, Müller-Nurasyid, M, Lichtner, P, Saleheen, D, Woo, D, Debette, S, Maguire, J, Cole, JW, Majersik, J, Jimenez-Conde, J, Lee, JM, Rost, N, Pare, G, Jern, C, Lindgren, AG, Cardenas, IF, Rothwell, PM, Levi, C, Attia, J, Sudlow, CLM, Braun, D, Markus, HS, Wintrode, PL, Berger, K, Jenne, DE, and Dichgans, M

Subjects
Repressor Proteins, Stroke, alpha 1-Antitrypsin, Humans, Deuterium Exchange Measurement, Leukocyte Elastase, 3' Untranslated Regions, Polymorphism, Single Nucleotide, Histone Deacetylases, Mass Spectrometry, Genetic Association Studies, Plaque, Atherosclerotic
Abstract

Large artery atherosclerotic stroke (LAS) shows substantial heritability not explained by previous genome-wide association studies. Here, we explore the role of coding variation in LAS by analyzing variants on the HumanExome BeadChip in a total of 3,127 cases and 9,778 controls from Europe, Australia, and South Asia. We report on a nonsynonymous single-nucleotide variant in serpin family A member 1 (SERPINA1) encoding alpha-1 antitrypsin [AAT; p.V213A; P = 5.99E-9, odds ratio (OR) = 1.22] and confirm histone deacetylase 9 (HDAC9) as a major risk gene for LAS with an association in the 3?-UTR (rs2023938; P = 7.76E-7, OR = 1.28). Using quantitative microscale thermophoresis, we show that M1 (A213) exhibits an almost twofold lower dissociation constant with its primary target human neutrophil elastase (NE) in lipoprotein-containing plasma, but not in lipid-free plasma. Hydrogen/deuterium exchange combined with mass spectrometry further revealed a significant difference in the global flexibility of the two variants. The observed stronger interaction with lipoproteins in plasma and reduced global flexibility of the Val-213 variant most likely improve its local availability and reduce the extent of proteolytic inactivation by other proteases in atherosclerotic plaques. Our results indicate that the interplay between AAT, NE, and lipoprotein particles is modulated by the gate region around position 213 in AAT, far away from the unaltered reactive center loop (357-360). Collectively, our findings point to a functionally relevant balance between lipoproteins, proteases, and AAT in atherosclerosis.

Published
2017

7. Activation of human pro-urokinase by unrelated proteases secreted by Pseudomonas aeruginosa.

Author

Beaufort, N., Seweryn, P., Bentzmann, S. de, Tang, A., Kellermann, J., Grebenchtchikov, N.J., Schmitt, M., Sommerhoff, C.P., Pidard, D., Magdolen, V., Beaufort, N., Seweryn, P., Bentzmann, S. de, Tang, A., Kellermann, J., Grebenchtchikov, N.J., Schmitt, M., Sommerhoff, C.P., Pidard, D., and Magdolen, V.

Abstract

Contains fulltext : 87870.pdf (publisher's version ) (Closed access), Pathogenic bacteria, including Pseudomonas aeruginosa, interact with and engage the host plasminogen (Plg) activation system, which encompasses the urokinase (uPA)-type Plg activator, and is involved in extracellular proteolysis, including matrilysis and fibrinolysis. We hypothesized that secreted bacterial proteases might contribute to the activation of this major extracellular proteolytic system, thereby participating in bacterial dissemination. We report that LasB, a thermolysin-like metalloprotease secreted by Ps. aeruginosa, converts the human uPA zymogen into its active form (kcat=4.9 s-1, Km=8.9 microM). Accordingly, whereas the extracellular secretome from the LasB-expressing pseudomonal strain PAO1 efficiently activates pro-uPA, the secretome from the isogenic LasB-deficient strain PDO240 is markedly less potent in pro-uPA activation. Still, both secretomes induce some metalloprotease-independent activation of the human zymogen. The latter involves a serine protease, which we identified via both recombinant protein expression in Escherichia coli and purification from pseudomonal cultures as protease IV (PIV; kcat=0.73 s-1, Km=6.2 microM). In contrast, neither secretomes nor the pure proteases activate Plg. Along with this, LasB converts Plg into mini-Plg and angiostatin, whereas, as reported previously, it processes the uPA receptor, inactivates the plasminogen activator inhibitor 1, and activates pro-matrix metalloproteinase 2. PIV does not target these factors at all. To conclude, LasB and PIV, although belonging to different protease families and displaying quite different substrate specificities, both activate the urokinase-type precursor of the Plg activation cascade. Direct pro-uPA activation, as also reported for other bacterial proteases, might be a frequent phenomenon that contributes to bacterial virulence.

Published
2010

8. Kallikrein-related peptidase 4: a new activator of the aberrantly expressed protease-activated receptor 1 in colon cancer cells.

Author

Gratio, V., Beaufort, N., Seiz, L., Maier, J., Virca, G.D., Debela, M., Grebenchtchikov, N.J., Magdolen, V., Darmoul, D., Gratio, V., Beaufort, N., Seiz, L., Maier, J., Virca, G.D., Debela, M., Grebenchtchikov, N.J., Magdolen, V., and Darmoul, D.

Abstract

1 maart 2010, Contains fulltext : 87875.pdf (publisher's version ) (Open Access), Certain serine proteases are considered to be signaling molecules that act through protease-activated receptors (PARs). Our recent studies have implicated PAR1 and PAR4 (thrombin receptors) and PAR2 (trypsin receptor) in human colon cancer growth. Here we analyzed the expression of KLK4, a member of the kallikrein-related peptidase (KLK) family of serine proteases and explored whether this member can activate PAR1 and PAR2 in human colon cancer cells. Immunohistochemistry showed KLK4 expression in human colon adenocarcinomas and its absence in normal epithelia. KLK4 (1 micromol/L) initiated loss of PAR1 and PAR2 from the HT29 cell surface as well as increased intracellular calcium transients in HT29 cells. This KLK4-induced Ca2+ flux was abrogated after an initial challenge of the cells with TRAP (SFLLR-NH2; 100 micromol/L), which is known to desensitize PAR1 and PAR2. Interestingly, PAR1 blocking antibody, which inhibits cleavage and activation by thrombin, dramatically reduced KLK4-induced Ca2+ influx, but blocking cleavage of PAR2 failed to attenuate the KLK4-induced Ca2+ flux. Consistently, desensitization with AP1 (TFFLR-NH2), targeting PAR1, attenuated most of the Ca2+ flux induced by KLK4. KLK4 also induced a rapid and significant ERK1/2 phosphorylation in HT29 cells. Our results demonstrate, for the first time, that KLK4 is aberrantly expressed in colon cancer and capable of inducing PAR1 signaling in cancer cells. These data suggest that KLK4 signaling via PAR1 may represent a novel pathway in colon tumorigenesis.

Published
2010

10. Rational correction of pathogenic conformational defects in HTRA1.

Author

Beaufort N, Ingendahl L, Merdanovic M, Schmidt A, Podlesainski D, Richter T, Neumann T, Kuszner M, Vetter IR, Stege P, Burston SG, Filipovic A, Ruiz-Blanco YB, Bravo-Rodriguez K, Mieres-Perez J, Beuck C, Uebel S, Zobawa M, Schillinger J, Malik R, Todorov-Völgyi K, Rey J, Roberti A, Hagemeier B, Wefers B, Müller SA, Wurst W, Sanchez-Garcia E, Zimmermann A, Hu XY, Clausen T, Huber R, Lichtenthaler SF, Schmuck C, Giese M, Kaiser M, Ehrmann M, and Dichgans M

Subjects
Animals, Humans, Mice, Protein Conformation, Protein Multimerization, HEK293 Cells, Brain metabolism, Brain pathology, Mutation, Loss of Function Mutation, High-Temperature Requirement A Serine Peptidase 1 metabolism, High-Temperature Requirement A Serine Peptidase 1 genetics
Abstract

Loss-of-function mutations in the homotrimeric serine protease HTRA1 cause cerebral vasculopathy. Here, we establish independent approaches to achieve the functional correction of trimer assembly defects. Focusing on the prototypical R274Q mutation, we identify an HTRA1 variant that promotes trimer formation thus restoring enzymatic activity in vitro. Genetic experiments in Htra1 R274Q mice further demonstrate that expression of this protein-based corrector in trans is sufficient to stabilize HtrA1-R274Q and restore the proteomic signature of the brain vasculature. An alternative approach employs supramolecular chemical ligands that shift the monomer-trimer equilibrium towards proteolytically active trimers. Moreover, we identify a peptidic ligand that activates HTRA1 monomers. Our findings open perspectives for tailored protein repair strategies., (© 2024. The Author(s).)

Published
2024
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11. Genetically proxied HTRA1 protease activity and circulating levels independently predict risk of ischemic stroke and coronary artery disease.

Author

Malik R, Beaufort N, Li J, Tanaka K, Georgakis MK, He Y, Koido M, Terao C, Japan B, Anderson CD, Kamatani Y, Zand R, and Dichgans M

Subjects
Humans, Female, Male, Middle Aged, Japan epidemiology, Risk Assessment, Aged, Risk Factors, Polymorphism, Single Nucleotide, Phenotype, United Kingdom epidemiology, Loss of Function Mutation, High-Temperature Requirement A Serine Peptidase 1 genetics, Ischemic Stroke genetics, Ischemic Stroke blood, Ischemic Stroke epidemiology, Coronary Artery Disease genetics, Coronary Artery Disease blood, Coronary Artery Disease epidemiology, Genetic Predisposition to Disease, Genome-Wide Association Study
Abstract

Genetic variants in HTRA1 are associated with stroke risk. However, the mechanisms mediating this remain largely unknown, as does the full spectrum of phenotypes associated with genetic variation in HTRA1. Here we show that rare HTRA1 variants are linked to ischemic stroke in the UK Biobank and BioBank Japan. Integrating data from biochemical experiments, we next show that variants causing loss of protease function associated with ischemic stroke, coronary artery disease and skeletal traits in the UK Biobank and MyCode cohorts. Moreover, a common variant modulating circulating HTRA1 mRNA and protein levels enhances the risk of ischemic stroke and coronary artery disease while lowering the risk of migraine and macular dystrophy in genome-wide association study, UK Biobank, MyCode and BioBank Japan data. We found no interaction between proxied HTRA1 activity and levels. Our findings demonstrate the role of HTRA1 for cardiovascular diseases and identify two mechanisms as potential targets for therapeutic interventions., (© 2024. The Author(s), under exclusive licence to Springer Nature Limited.)

Published
2024
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12. Proteomics of mouse brain endothelium uncovers dysregulation of vesicular transport pathways during aging.

Author

Todorov-Völgyi K, González-Gallego J, Müller SA, Beaufort N, Malik R, Schifferer M, Todorov MI, Crusius D, Robinson S, Schmidt A, Körbelin J, Bareyre F, Ertürk A, Haass C, Simons M, Paquet D, Lichtenthaler SF, and Dichgans M

Subjects
Mice, Animals, Brain metabolism, Endothelium metabolism, Apolipoproteins E metabolism, Endothelial Cells metabolism, Proteomics methods
Abstract

Age-related decline in brain endothelial cell (BEC) function contributes critically to neurological disease. Comprehensive atlases of the BEC transcriptome have become available, but results from proteomic profiling are lacking. To gain insights into endothelial pathways affected by aging, we developed a magnetic-activated cell sorting-based mouse BEC enrichment protocol compatible with proteomics and resolved the profiles of protein abundance changes during aging. Unsupervised cluster analysis revealed a segregation of age-related protein dynamics with biological functions, including a downregulation of vesicle-mediated transport. We found a dysregulation of key regulators of endocytosis and receptor recycling (most prominently Arf6), macropinocytosis and lysosomal degradation. In gene deletion and overexpression experiments, Arf6 affected endocytosis pathways in endothelial cells. Our approach uncovered changes not picked up by transcriptomic studies, such as accumulation of vesicle cargo and receptor ligands, including Apoe. Proteomic analysis of BECs from Apoe-deficient mice revealed a signature of accelerated aging. Our findings provide a resource for analysing BEC function during aging., (© 2024. The Author(s), under exclusive licence to Springer Nature America, Inc.)

Published
2024
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13. Genetically proxied HTRA1 protease activity and circulating levels independently predict risk of ischemic stroke and coronary artery disease.

Author

Dichgans M, Malik R, Beaufort N, Tanaka K, Georgakis M, He Y, Koido M, Terao C, Anderson C, and Kamatani Y

Abstract

HTRA1 has emerged as a major risk gene for stroke and cerebral small vessel disease with both rare and common variants contributing to disease risk. However, the precise mechanisms mediating this risk remain largely unknown as does the full spectrum of phenotypes associated with genetic variation in HTRA1 in the general population. Using a family-history informed approach, we first show that rare variants in HTRA1 are linked to ischemic stroke in 425,338 European individuals from the UK Biobank with replication in 143,149 individuals from the Biobank Japan. Integrating data from biochemical experiments on 76 mutations occurring in the UK Biobank, we next show that rare variants causing loss of protease function in vitro associate with ischemic stroke, coronary artery disease, and skeletal traits. In addition, a common causal variant (rs2672592) modulating circulating HTRA1 mRNA and protein levels enhances the risk of ischemic stroke, small vessel stroke, and coronary artery disease while lowering the risk of migraine and age-related macular dystrophy in GWAS and UK Biobank data from > 2,000,000 individuals. There was no evidence of an interaction between genetically proxied HTRA1 activity and levels. Our findings demonstrate a central role of HTRA1 for human disease including stroke and coronary artery disease and identify two independent mechanisms that might qualify as targets for future therapeutic interventions., Competing Interests: COMPETING INTERESTS C.D.A. has received sponsored research support from Bayer AG, and has consulted for ApoPharma, unrelated to the content of this manuscript. All other authors declare no competing interests.

Published
2023
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15. Proteomic profiling in cerebral amyloid angiopathy reveals an overlap with CADASIL highlighting accumulation of HTRA1 and its substrates.

Author

Zellner A, Müller SA, Lindner B, Beaufort N, Rozemuller AJM, Arzberger T, Gassen NC, Lichtenthaler SF, Kuster B, Haffner C, and Dichgans M

Subjects
Aged, Aged, 80 and over, Brain pathology, CADASIL pathology, Cerebral Amyloid Angiopathy pathology, Chromatography, Liquid, Female, Humans, Male, Middle Aged, Proteomics, Tandem Mass Spectrometry, Brain metabolism, CADASIL metabolism, Cerebral Amyloid Angiopathy metabolism, High-Temperature Requirement A Serine Peptidase 1 metabolism, Proteome metabolism
Abstract

Cerebral amyloid angiopathy (CAA) is an age-related condition and a major cause of intracerebral hemorrhage and cognitive decline that shows close links with Alzheimer's disease (AD). CAA is characterized by the aggregation of amyloid-β (Aβ) peptides and formation of Aβ deposits in the brain vasculature resulting in a disruption of the angioarchitecture. Capillaries are a critical site of Aβ pathology in CAA type 1 and become dysfunctional during disease progression. Here, applying an advanced protocol for the isolation of parenchymal microvessels from post-mortem brain tissue combined with liquid chromatography tandem mass spectrometry (LC-MS/MS), we determined the proteomes of CAA type 1 cases (n = 12) including a patient with hereditary cerebral hemorrhage with amyloidosis-Dutch type (HCHWA-D), and of AD cases without microvascular amyloid pathology (n = 13) in comparison to neurologically healthy controls (n = 12). ELISA measurements revealed microvascular Aβ 1-40 levels to be exclusively enriched in CAA samples (mean: > 3000-fold compared to controls). The proteomic profile of CAA type 1 was characterized by massive enrichment of multiple predominantly secreted proteins and showed significant overlap with the recently reported brain microvascular proteome of patients with cerebral autosomal-dominant arteriopathy with subcortical infarcts and leukoencephalopathy (CADASIL), a hereditary cerebral small vessel disease (SVD) characterized by the aggregation of the Notch3 extracellular domain. We found this overlap to be largely attributable to the accumulation of high-temperature requirement protein A1 (HTRA1), a serine protease with an established role in the brain vasculature, and several of its substrates. Notably, this signature was not present in AD cases. We further show that HTRA1 co-localizes with Aβ deposits in brain capillaries from CAA type 1 patients indicating a pathologic recruitment process. Together, these findings suggest a central role of HTRA1-dependent protein homeostasis in the CAA microvasculature and a molecular connection between multiple types of brain microvascular disease., (© 2022. The Author(s).)

Published
2022
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16. Rab31-dependent regulation of transforming growth factor ß expression in breast cancer cells.

Author

Soelch S, Beaufort N, Loessner D, Kotzsch M, Reuning U, Luther T, Kirchner T, and Magdolen V

Subjects
Breast Neoplasms metabolism, Breast Neoplasms pathology, Cell Line, Tumor, Female, Humans, Transforming Growth Factor beta1 metabolism, rab GTP-Binding Proteins metabolism, Breast Neoplasms genetics, Epithelial-Mesenchymal Transition genetics, Transforming Growth Factor beta1 genetics, rab GTP-Binding Proteins genetics
Abstract

Background: The small GTP-binding protein Rab31 plays an important role in the modulation of tumor biological-relevant processes, including cell proliferation, adhesion, and invasion. As an underlying mechanism, Rab31 is presumed to act as a molecular switch between a more proliferative and an invasive phenotype. This prompted us to analyze whether Rab31 overexpression in breast cancer cells affects expression of genes involved in epithelial-to-mesenchymal transition (EMT)-like processes when compared to Rab31 low-expressing cells., Methods: Commercially available profiler PCR arrays were applied to search for differentially expressed genes in Rab31 high- and low-expressing CAMA-1 breast cancer cells. Differential expression of selected candidate genes in response to Rab31 overexpression in CAMA-1 cells was validated by independent qPCR and protein assays., Results: Gene expression profiling of key genes involved in EMT, or its reciprocal process MET, identified 9 genes being significantly up- or down-regulated in Rab31 overexpressing CAMA-1 cells, with the strongest effects seen for TGFB1, encoding TGF-ß1 (> 25-fold down-regulation in Rab31 overexpressing cells). Subsequent validation analyses by qPCR revealed a strong down-regulation of TGFB1 mRNA levels in response to increased Rab31 expression not only in CAMA-1 cells, but also in another breast cancer cell line, MDA-MB-231. Using ELISA and Western blot analysis, a considerable reduction of both intracellular and secreted TGF-ß1 antigen levels was determined in Rab31 overexpressing cells compared to vector control cells. Furthermore, reduced TGF-ß activity was observed upon Rab31 overexpression in CAMA-1 cells using a sensitive TGF-ß bioassay. Finally, the relationship between Rab31 expression and the TGF-ß axis was analyzed by another profiler PCR array focusing on genes involved in TGF-ß signaling. We found 12 out of 84 mRNAs significantly reduced and 7 mRNAs significantly increased upon Rab31 overexpression., Conclusions: Our results demonstrate that Rab31 is a potent modulator of the expression of TGF-ß and other components of the TGF-ß signaling pathway in breast cancer cells., (© 2021. The Author(s).)

Published
2021
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17. Whole-exome sequencing reveals a role of HTRA1 and EGFL8 in brain white matter hyperintensities.

Author

Malik R, Beaufort N, Frerich S, Gesierich B, Georgakis MK, Rannikmäe K, Ferguson AC, Haffner C, Traylor M, Ehrmann M, Sudlow CLM, and Dichgans M

Subjects
Female, HEK293 Cells, Humans, Male, Middle Aged, United Kingdom epidemiology, Brain diagnostic imaging, Calcium-Binding Proteins genetics, EGF Family of Proteins genetics, High-Temperature Requirement A Serine Peptidase 1 genetics, White Matter diagnostic imaging, Exome Sequencing methods
Abstract

White matter hyperintensities (WMH) are among the most common radiological abnormalities in the ageing population and an established risk factor for stroke and dementia. While common variant association studies have revealed multiple genetic loci with an influence on their volume, the contribution of rare variants to the WMH burden in the general population remains largely unexplored. We conducted a comprehensive analysis of this burden in the UK Biobank using publicly available whole-exome sequencing data (n up to 17 830) and found a splice-site variant in GBE1, encoding 1,4-alpha-glucan branching enzyme 1, to be associated with lower white matter burden on an exome-wide level [c.691+2T>C, β = -0.74, standard error (SE) = 0.13, P = 9.7 × 10-9]. Applying whole-exome gene-based burden tests, we found damaging missense and loss-of-function variants in HTRA1 (frequency of 1 in 275 in the UK Biobank population) to associate with an increased WMH volume (P = 5.5 × 10-6, false discovery rate = 0.04). HTRA1 encodes a secreted serine protease implicated in familial forms of small vessel disease. Domain-specific burden tests revealed that the association with WMH volume was restricted to rare variants in the protease domain (amino acids 204-364; β = 0.79, SE = 0.14, P = 9.4 × 10-8). The frequency of such variants in the UK Biobank population was 1 in 450. The WMH volume was brought forward by ∼11 years in carriers of a rare protease domain variant. A comparison with the effect size of established risk factors for WMH burden revealed that the presence of a rare variant in the HTRA1 protease domain corresponded to a larger effect than meeting the criteria for hypertension (β = 0.26, SE = 0.02, P = 2.9 × 10-59) or being in the upper 99.8% percentile of the distribution of a polygenic risk score based on common genetic variants (β = 0.44, SE = 0.14, P = 0.002). In biochemical experiments, most (6/9) of the identified protease domain variants resulted in markedly reduced protease activity. We further found EGFL8, which showed suggestive evidence for association with WMH volume (P = 1.5 × 10-4, false discovery rate = 0.22) in gene burden tests, to be a direct substrate of HTRA1 and to be preferentially expressed in cerebral arterioles and arteries. In a phenome-wide association study mapping ICD-10 diagnoses to 741 standardized Phecodes, rare variants in the HTRA1 protease domain were associated with multiple neurological and non-neurological conditions including migraine with aura (odds ratio = 12.24, 95%CI: 2.54-35.25; P = 8.3 × 10-5]. Collectively, these findings highlight an important role of rare genetic variation and the HTRA1 protease in determining WMH burden in the general population., (© The Author(s) (2021). Published by Oxford University Press on behalf of the Guarantors of Brain. All rights reserved. For permissions, please email: journals.permissions@oup.com.)

Published
2021
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18. Stroke Genetics: Turning Discoveries into Clinical Applications.

Author

Dichgans M, Beaufort N, Debette S, and Anderson CD

Subjects
Humans, Mendelian Randomization Analysis methods, Pharmacogenetics methods, Risk Factors, Stroke epidemiology, Genetic Predisposition to Disease genetics, Polymorphism, Single Nucleotide genetics, Stroke genetics
Abstract

The field of medical and population genetics in stroke is moving at a rapid pace and has led to unanticipated opportunities for discovery and clinical applications. Genome-wide association studies have highlighted the role of specific pathways relevant to etiologically defined subtypes of stroke and to stroke as a whole. They have further offered starting points for the exploration of novel pathways and pharmacological strategies in experimental systems. Mendelian randomization studies continue to provide insights in the causal relationships between exposures and outcomes and have become a useful tool for predicting the efficacy and side effects of drugs. Additional applications that have emerged from recent discoveries include risk prediction based on polygenic risk scores and pharmacogenomics. Among the topics currently moving into focus is the genetics of stroke outcome. While still at its infancy, this field is expected to boost the development of neuroprotective agents. We provide a brief overview on recent progress in these areas.

Published
2021
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19. Common coding variant in SERPINA1 increases the risk for large artery stroke.

Author

Malik R, Dau T, Gonik M, Sivakumar A, Deredge DJ, Edeleva EV, Götzfried J, van der Laan SW, Pasterkamp G, Beaufort N, Seixas S, Bevan S, Lincz LF, Holliday EG, Burgess AI, Rannikmäe K, Minnerup J, Kriebel J, Waldenberger M, Müller-Nurasyid M, Lichtner P, Saleheen D, Rothwell PM, Levi C, Attia J, Sudlow CL, Braun D, Markus HS, Wintrode PL, Berger K, Jenne DE, and Dichgans M

Subjects
3' Untranslated Regions, Deuterium Exchange Measurement, Genetic Association Studies, Humans, Leukocyte Elastase metabolism, Mass Spectrometry, Plaque, Atherosclerotic genetics, Stroke etiology, alpha 1-Antitrypsin metabolism, Histone Deacetylases genetics, Plaque, Atherosclerotic complications, Polymorphism, Single Nucleotide, Repressor Proteins genetics, Stroke genetics, alpha 1-Antitrypsin genetics
Abstract

Large artery atherosclerotic stroke (LAS) shows substantial heritability not explained by previous genome-wide association studies. Here, we explore the role of coding variation in LAS by analyzing variants on the HumanExome BeadChip in a total of 3,127 cases and 9,778 controls from Europe, Australia, and South Asia. We report on a nonsynonymous single-nucleotide variant in serpin family A member 1 ( SERPINA1 ) encoding alpha-1 antitrypsin [AAT; p.V213A; P = 5.99E-9, odds ratio (OR) = 1.22] and confirm histone deacetylase 9 ( HDAC9 ) as a major risk gene for LAS with an association in the 3'-UTR (rs2023938; P = 7.76E-7, OR = 1.28). Using quantitative microscale thermophoresis, we show that M1 (A213) exhibits an almost twofold lower dissociation constant with its primary target human neutrophil elastase (NE) in lipoprotein-containing plasma, but not in lipid-free plasma. Hydrogen/deuterium exchange combined with mass spectrometry further revealed a significant difference in the global flexibility of the two variants. The observed stronger interaction with lipoproteins in plasma and reduced global flexibility of the Val-213 variant most likely improve its local availability and reduce the extent of proteolytic inactivation by other proteases in atherosclerotic plaques. Our results indicate that the interplay between AAT, NE, and lipoprotein particles is modulated by the gate region around position 213 in AAT, far away from the unaltered reactive center loop (357-360). Collectively, our findings point to a functionally relevant balance between lipoproteins, proteases, and AAT in atherosclerosis.

Published
2017
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20. Heterozygous HTRA1 mutations are associated with autosomal dominant cerebral small vessel disease.

Author

Verdura E, Hervé D, Scharrer E, Amador Mdel M, Guyant-Maréchal L, Philippi A, Corlobé A, Bergametti F, Gazal S, Prieto-Morin C, Beaufort N, Le Bail B, Viakhireva I, Dichgans M, Chabriat H, Haffner C, and Tournier-Lasserve E

Subjects
Adult, Aged, Aged, 80 and over, Female, Heterozygote, High-Temperature Requirement A Serine Peptidase 1, High-Throughput Nucleotide Sequencing methods, Humans, Male, Middle Aged, CADASIL genetics, Genetic Predisposition to Disease, Mutation genetics, Serine Endopeptidases genetics
Abstract

Cerebral small vessel disease represents a heterogeneous group of disorders leading to stroke and cognitive impairment. While most small vessel diseases appear sporadic and related to age and hypertension, several early-onset monogenic forms have also been reported. However, only a minority of patients with familial small vessel disease carry mutations in one of known small vessel disease genes. We used whole exome sequencing to identify candidate genes in an autosomal dominant small vessel disease family in which known small vessel disease genes had been excluded, and subsequently screened all candidate genes in 201 unrelated probands with a familial small vessel disease of unknown aetiology, using high throughput multiplex polymerase chain reaction and next generation sequencing. A heterozygous HTRA1 variant (R166L), absent from 1000 Genomes and Exome Variant Server databases and predicted to be deleterious by in silico tools, was identified in all affected members of the index family. Ten probands of 201 additional unrelated and affected probands (4.97%) harboured a heterozygous HTRA1 mutation predicted to be damaging. There was a highly significant difference in the number of likely deleterious variants in cases compared to controls (P = 4.2 × 10(-6); odds ratio = 15.4; 95% confidence interval = 4.9-45.5), strongly suggesting causality. Seven of these variants were located within or close to the HTRA1 protease domain, three were in the N-terminal domain of unknown function and one in the C-terminal PDZ domain. In vitro activity analysis of HTRA1 mutants demonstrated a loss of function effect. Clinical features of this autosomal dominant small vessel disease differ from those of CARASIL and CADASIL by a later age of onset and the absence of the typical extraneurological features of CARASIL. They are similar to those of sporadic small vessel disease, except for their familial nature. Our data demonstrate that heterozygous HTRA1 mutations are an important cause of familial small vessel disease, and that screening of HTRA1 should be considered in all patients with a hereditary small vessel disease of unknown aetiology., (© The Author (2015). Published by Oxford University Press on behalf of the Guarantors of Brain. All rights reserved. For Permissions, please email: journals.permissions@oup.com.)

Published
2015
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21. A novel HTRA1 exon 2 mutation causes loss of protease activity in a Pakistani CARASIL patient.

Author

Khaleeli Z, Jaunmuktane Z, Beaufort N, Houlden H, Haffner C, Brandner S, Dichgans M, and Werring D

Subjects
Adult, Female, High-Temperature Requirement A Serine Peptidase 1, Humans, Magnetic Resonance Imaging, Pakistan, Alopecia diagnosis, Alopecia genetics, Cerebral Infarction diagnosis, Cerebral Infarction genetics, Exons genetics, Leukoencephalopathies diagnosis, Leukoencephalopathies genetics, Mutation genetics, Peptide Hydrolases metabolism, Serine Endopeptidases genetics, Spinal Diseases diagnosis, Spinal Diseases genetics
Published
2015
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22. Reply to Liu et al.: Loss of TGF-β signaling in CARASIL pathogenesis.

Author

Beaufort N, Scharrer E, Lux V, Ehrmann M, Haffner C, and Dichgans M

Subjects
Animals, Humans, Alopecia genetics, Cerebral Infarction genetics, Latent TGF-beta Binding Proteins physiology, Leukoencephalopathies genetics, Serine Endopeptidases physiology, Spinal Diseases genetics, Transforming Growth Factor beta1 physiology
Published
2015
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23. Cerebral small vessel disease-related protease HtrA1 processes latent TGF-β binding protein 1 and facilitates TGF-β signaling.

Author

Beaufort N, Scharrer E, Kremmer E, Lux V, Ehrmann M, Huber R, Houlden H, Werring D, Haffner C, and Dichgans M

Subjects
Alopecia metabolism, Animals, Brain metabolism, Cells, Cultured, Cerebral Infarction metabolism, Connective Tissue Growth Factor biosynthesis, Connective Tissue Growth Factor genetics, Fibroblasts metabolism, Fibronectins metabolism, Gene Expression Regulation, HEK293 Cells, High-Temperature Requirement A Serine Peptidase 1, Humans, Latent TGF-beta Binding Proteins genetics, Leukoencephalopathies metabolism, Mice, Mice, Knockout, Mutation, Missense, Point Mutation, Protein Binding, Protein Interaction Mapping, Protein Processing, Post-Translational, RNA, Messenger biosynthesis, RNA, Messenger genetics, Recombinant Fusion Proteins metabolism, Serine Endopeptidases deficiency, Serine Endopeptidases genetics, Serpin E2 biosynthesis, Serpin E2 genetics, Signal Transduction, Skin, Spinal Diseases metabolism, Transfection, Alopecia genetics, Cerebral Infarction genetics, Latent TGF-beta Binding Proteins physiology, Leukoencephalopathies genetics, Serine Endopeptidases physiology, Spinal Diseases genetics, Transforming Growth Factor beta1 physiology
Abstract

High temperature requirement protein A1 (HtrA1) is a primarily secreted serine protease involved in a variety of cellular processes including transforming growth factor β (TGF-β) signaling. Loss of its activity causes cerebral autosomal recessive arteriopathy with subcortical infarcts and leukoencephalopathy (CARASIL), an inherited form of cerebral small vessel disease leading to early-onset stroke and premature dementia. Dysregulated TGF-β signaling is considered to promote CARASIL pathogenesis, but the underlying molecular mechanisms are incompletely understood. Here we present evidence from mouse brain tissue and embryonic fibroblasts as well as patient skin fibroblasts for a facilitating role of HtrA1 in TGF-β pathway activation. We identify latent TGF-β binding protein 1 (LTBP-1), an extracellular matrix protein and key regulator of TGF-β bioavailability, as a novel HtrA1 target. Cleavage occurs at physiological protease concentrations, is prevented under HtrA1-deficient conditions as well as by CARASIL mutations and disrupts both LTBP-1 binding to fibronectin and its incorporation into the extracellular matrix. Hence, our data suggest an attenuation of TGF-β signaling caused by a lack of HtrA1-mediated LTBP-1 processing as mechanism underlying CARASIL pathogenesis.

Published
2014
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24. Sequestration of latent TGF-β binding protein 1 into CADASIL-related Notch3-ECD deposits.

Author

Kast J, Hanecker P, Beaufort N, Giese A, Joutel A, Dichgans M, Opherk C, and Haffner C

Subjects
CADASIL metabolism, Case-Control Studies, Female, HEK293 Cells, Humans, Male, Mutation genetics, Protein Structure, Tertiary, Receptor, Notch3, Receptors, Notch genetics, Sequence Analysis, Protein, Silver Staining, Statistics, Nonparametric, Transfection, Brain metabolism, CADASIL pathology, Latent TGF-beta Binding Proteins metabolism, Receptors, Notch metabolism
Abstract

Introduction: Cerebral autosomal dominant arteriopathy with subcortical infarcts and leukoencephalopathy (CADASIL) represents the most common hereditary form of cerebral small vessel disease characterized by early-onset stroke and premature dementia. It is caused by mutations in the transmembrane receptor Notch3, which promote the aggregation and accumulation of the Notch3 extracellular domain (Notch3-ECD) within blood vessel walls. This process is believed to mediate the abnormal recruitment and dysregulation of additional factors including extracellular matrix (ECM) proteins resulting in brain vessel dysfunction. Based on recent evidence indicating a role for the transforming growth factor-β (TGF-β) pathway in sporadic and familial small vessel disease we studied fibronectin, fibrillin-1 and latent TGF-β binding protein 1 (LTBP-1), three ECM constituents involved in the regulation of TGF-β bioavailability, in post-mortem brain tissue from CADASIL patients and control subjects., Results: Fibronectin and fibrillin-1 were found to be enriched in CADASIL vessels without co-localizing with Notch3-ECD deposits, likely as a result of fibrotic processes secondary to aggregate formation. In contrast, LTBP-1 showed both an accumulation and a striking co-localization with Notch3-ECD deposits suggesting specific recruitment into aggregates. We also detected increased levels of the TGF-β prodomain (also known as latency-associated peptide, LAP) indicating dysregulation of the TGF-β pathway in CADASIL development. In vitro analyses revealed a direct interaction between LTBP-1 and Notch3-ECD and demonstrated a specific co-aggregation of LTBP-1 with mutant Notch3., Conclusion: We propose LTBP-1 as a novel component of Notch3-ECD deposits and suggest its involvement in pathological processes triggered by Notch3-ECD aggregation.

Published
2014
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25. Function and clinical relevance of kallikrein-related peptidases and other serine proteases in gynecological cancers.

Author

Dorn J, Beaufort N, Schmitt M, Diamandis EP, Goettig P, and Magdolen V

Subjects
Female, Humans, Serine Proteases, Biomarkers, Tumor, Genital Neoplasms, Female, Kallikreins
Abstract

Gynecological cancers, including malignant tumors of the ovaries, the endometrium and the cervix, account for approximately 10% of tumor-associated deaths in women of the Western world. For screening, diagnosis, prognosis, and therapy response prediction, the group of enzymes known as serine (Ser-)proteases show great promise as biomarkers. In the present review, following a summary of the clinical facts regarding malignant tumors of the ovaries, the endometrium and the cervix, and characterization of the most important Ser-proteases, we thoroughly review the current state of knowledge relating to the use of proteases as biomarkers of the most frequent gynecological cancers. Within the Ser-protease group, the kallikrein-related peptidase (KLK) family, which encompasses a subgroup of 15 members, holds particular promise, with some acting via a tumor-promoting mechanism and others behaving as protective factors. Further, the urokinase-type plasminogen activator (uPA) and its inhibitor PAI-1 (plasminogen activator inhibitor-1) seem to play an unfavorable role in gynecological tumors, while down-regulation of high-temperature requirement proteins A 1, 2 and 3 (HtrA1,2,3) is associated with malignant disease and cancer progression. Expression/activity levels of other Ser-proteases, including the type II transmembrane Ser-proteases (TTSPs) matriptase, hepsin (TMPRSS1), and the hepsin-related protease (TMPRSS3), as well as the glycosyl-phosphatidylinositol (GPI)-anchored Ser-proteases prostasin and testisin, may be of clinical relevance in gynecological cancers. In conclusion, proteases are a rich source of biomarkers of gynecological cancer, though the enzymes' exact roles and functions merit further investigation.

Published
2014
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26. Disruption of the endothelial barrier by proteases from the bacterial pathogen Pseudomonas aeruginosa: implication of matrilysis and receptor cleavage.

Author

Beaufort N, Corvazier E, Mlanaoindrou S, de Bentzmann S, and Pidard D

Subjects
Cell Adhesion, Cell Death, Cell Line, Cell Survival, Endothelial Cells pathology, Endothelium, Vascular metabolism, Endothelium, Vascular microbiology, Extracellular Matrix metabolism, Humans, Membrane Transport Proteins metabolism, Metalloendopeptidases metabolism, Proteolysis, Pseudomonas Infections, Pseudomonas aeruginosa pathogenicity, Receptors, Urokinase Plasminogen Activator metabolism, Secretory Vesicles enzymology, Secretory Vesicles metabolism, Tight Junctions metabolism, Bacterial Proteins metabolism, Endothelial Cells metabolism, Endothelial Cells microbiology, Peptide Hydrolases metabolism, Pseudomonas aeruginosa enzymology
Abstract

Within the vasculature, uncontrolled pericellular proteolysis can lead to disruption of cell-to-cell and cell-to-matrix interactions and subsequent detachment-induced cell apoptosis, or anoikis, contributing to inflammatory vascular diseases, with the endothelium as the major target. Most studies so far have focused on endogenous proteinases. However, during bloodstream infections, bacterial proteinases may also trigger endothelial anoikis. We thus investigated the potential apoptotic activity of the proteinases secreted by the haematotropic opportunistic pathogen, Pseudomonas aeruginosa, and particularly its predominant metalloproteinase, LasB. For this, we used the secretome of the LasB-expressing pseudomonal strain, PAO1, and compared it with that from the isogenic, LasB-deficient strain (PAO1∆lasB), as well as with purified LasB. Secretomes were tested for apoptotic activity on cultured human endothelial cells derived from the umbilical vein or from the cerebral microvasculature. We found that the PAO1 secretome readily induced endothelial cell anoikis, as did secretomes of LasB-positive clinical pseudomonal isolates, while the PAO1∆lasB secretome had only a limited impact on endothelial adherence and viability. Notably, purified LasB reproduced most of the effects of the LasB-containing secretomes, and these were drastically reduced in the presence of the LasB-selective inhibitor, phosphoramidon. A precocious and extensive LasB-dependent degradation of several proteins associated with the endothelial extracellular matrix, fibronectin and von Willebrand factor, was observed by immunofluorescence and/or immunoblotting analysis of cell cultures. Moreover, the PAO1 secretome, but not that from PAO1∆lasB, specifically induced rapid endoproteolysis of two major interendothelial junction components, VE-cadherin and occludin, as well as of the anti-anoikis, integrin-associated urokinase receptor, uPAR. Taken as a prototype for exogenous haemorrhagic proteinases, pseudomonal LasB thus appears to induce endothelial anoikis not only via matrilysis, as observed for many pro-apoptotic proteinases, but also via cleavage of some essential cell-to-cell and cell-to-matrix adhesion receptors implicated in the maintenance of the endothelial barrier.

Published
2013
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27. In vitro and in vivo evidence for the role of elastase shedding of CD163 in human atherothrombosis.

Author

Moreno JA, Ortega-Gómez A, Delbosc S, Beaufort N, Sorbets E, Louedec L, Esposito-Farèse M, Tubach F, Nicoletti A, Steg PG, Michel JB, Feldman L, and Meilhac O

Subjects
Acute Coronary Syndrome blood, Aged, Angina, Stable blood, Carotid Artery Diseases enzymology, Cells, Cultured, Female, Haptoglobins metabolism, Hemoglobins metabolism, Hemorrhage enzymology, Humans, Macrophages enzymology, Male, Middle Aged, alpha 1-Antitrypsin metabolism, Antigens, CD metabolism, Antigens, Differentiation, Myelomonocytic metabolism, Coronary Artery Disease enzymology, Coronary Thrombosis enzymology, Leukocyte Elastase metabolism, Plaque, Atherosclerotic enzymology, Receptors, Cell Surface metabolism
Abstract

Aims: CD163 is a macrophage receptor for haemoglobin-haptoglobin (Hb-Hp) complexes, responsible for the clearance of haemoglobin. We hypothesized that production of soluble CD163 (sCD163) may be due to proleolytic shedding of membrane CD163 by neutrophil elastase, reported to be increased in culprit atherosclerotic plaques. We analysed the relationship between CD163 solubilization and elastase in vitro, in macrophage culture, ex vivo in human atherosclerotic plaque samples, and in vivo, in plasma of patients with coronary artery disease., Methods and Results: Neutrophil elastase was shown to enhance CD163 shedding and to decrease the uptake of Hb-Hp complexes by cultured macrophages. In addition, cultured carotid endarterectomy samples showing features of intraplaque haemorrhage released more sCD163 and elastase/α1-antitrypsin (α1-AT) complexes than non-haemorrhagic plaques (n= 44). Plasma levels of sCD163 and neutrophil elastase (complexed with α1-AT) were measured in patients with an acute coronary syndrome (ACS, n= 42), stable angina pectoris (SAP, n= 28), or normal coronary angiograms without subclinical atherosclerosis (n= 21). Acute coronary syndrome patients had higher sCD163 and elastase/α1-AT complexes plasma concentrations than subjects without coronary atherosclerosis. Circulating sCD163 and elastase/α1-AT complexes were positively correlated in patients with ACS (r = 0.56, P< 0.0002) and SAP (r = 0.62, P< 0.0005)., Conclusion: Our results suggest that neutrophil elastase promotes CD163 shedding, resulting in a decreased clearance of Hb by macrophages, which may favour plaque destabilization. This may be reflected by increased plasma levels of sCD163 and elastase/α1-AT complexes which are positively correlated in patients with coronary artery disease.

Published
2012
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28. The thermolysin-like metalloproteinase and virulence factor LasB from pathogenic Pseudomonas aeruginosa induces anoikis of human vascular cells.

Author

Beaufort N, Corvazier E, Hervieu A, Choqueux C, Dussiot M, Louedec L, Cady A, de Bentzmann S, Michel JB, and Pidard D

Subjects
Bacterial Proteins genetics, Cell Adhesion, Cells, Cultured, Collagen Type I metabolism, Endothelial Cells drug effects, Endothelial Cells microbiology, Fibronectins metabolism, Gene Deletion, Humans, Metalloendopeptidases genetics, Myofibroblasts drug effects, Myofibroblasts microbiology, Receptors, Urokinase Plasminogen Activator metabolism, Virulence Factors genetics, Vitronectin metabolism, Anoikis, Bacterial Proteins metabolism, Metalloendopeptidases metabolism, Pseudomonas aeruginosa enzymology, Pseudomonas aeruginosa pathogenicity, Virulence Factors metabolism
Abstract

Disruption of cell/ECM interactions resulting from uncontrolled pericellular proteolysis leads to detachment-induced cell apoptosis (anoikis), contributing to the morbid evolution of inflammatory vascular diseases. During cardiovascular infections, bacterial proteinases might induce vascular cells to enter a similar pathway. We focused on LasB, the predominant metalloproteinase secreted by the haematotropic pathogen Pseudomonas aeruginosa. While the exosecretome of the LasB-deficient pseudomonal strain PAO1lasBΔ had limited impact on human vascular cell adherence and viability, secretomes from the LasB-expressing reference strain, PAO1, or clinical isolates from patients with cardiac infection all induced anoikis, as did purified LasB. Immunofluorescence and/or immunoblotting analysis of heart valve myofibroblast cultures or whole tissue revealed an extensive, LasB-dependent degradation of ECM-associated fibronectin and vitronectin, that preceded cell de-adherence, whereas type I collagen showed limited degradation. Moreover, LasB produced a rapid endoproteolysis of the cell-associated urokinase receptor/uPAR, leaving a truncated receptor that is unable to support cell adherence and survival via interactions with vitronectin and integrins. Conversely, major myofibroblast integrins showed no or only minor alterations. Thus, among P. aeruginosa-secreted metalloproteinases, LasB can induce vascular cell anoikis through simultaneous proteolysis of ECM components and cell receptors, suggesting the uPAR-vitronectin axis as a major target in this process., (© 2011 Blackwell Publishing Ltd.)

Published
2011
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29. Overexpression of the urokinase receptor mRNA splice variant uPAR-del4/5 affects tumor-associated processes of breast cancer cells in vitro and in vivo.

Author

Sato S, Kopitz C, Grismayer B, Beaufort N, Reuning U, Schmitt M, Luther T, Kotzsch M, Krüger A, and Magdolen V

Subjects
Animals, Blotting, Western, Breast Neoplasms metabolism, Breast Neoplasms pathology, Cell Line, Tumor, Cell Proliferation, Enzyme-Linked Immunosorbent Assay, Female, Fluorescent Antibody Technique, Humans, Mice, Neoplasm Invasiveness, Neoplasm Metastasis, Neoplasm Transplantation, RNA, Messenger genetics, Sequence Deletion, Alternative Splicing, Breast Neoplasms genetics, Receptors, Urokinase Plasminogen Activator genetics
Abstract

uPAR, the three-domain membrane receptor of the serine protease urokinase, plays a crucial role in tumor growth and metastasis. Several mRNA splice variants of this receptor have been reported. One of these, uPAR-del4/5, lacking exons 4 and 5, and thus encoding a uPAR form lacking domain DII, is specifically overexpressed in breast cancer and represents a statistically independent prognostic factor for distant metastasis-free survival in breast cancer patients. The aim of the present study was to examine the molecular and cellular properties of the encoded uPAR-del4/5 protein. To investigate the impact of the uPAR-del4/5 overexpression on in vitro and in vivo aspects of tumor progression (e.g., proliferation, adhesion, invasion, metastatic seeding, and/or metastatic growth), we combined the analysis of transfected cancer cell lines with a murine xenograft tumor model. Increased expression of uPAR-del4/5 in human cancer cells led to reduced adhesion to several extracellular matrix proteins and decreased invasion through Matrigel, while cell proliferation was not affected in vitro. Moreover, invasion of uPAR-del4/5 overexpressing cells was not altered by addition of urokinase, while that of uPAR-wild-type overexpressing cells was drastically increased. Accordingly, we observed that, in contrast to uPAR-wild-type, uPAR-del4/5 does not interact with urokinase. On the other hand, when overexpressed in human breast cancer cells, uPAR-del4/5 distinctly impaired metastatic dissemination and growth in vivo. We demonstrate that the uPAR-del4/5 mRNA splice variant mediates tumor-relevant biological processes in vitro and in vivo. Our results thus illustrate how tumor-specific alternative splicing can distinctly impact the biology of the tumor.

Published
2011
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30. Activation of human pro-urokinase by unrelated proteases secreted by Pseudomonas aeruginosa.

Author

Beaufort N, Seweryn P, de Bentzmann S, Tang A, Kellermann J, Grebenchtchikov N, Schmitt M, Sommerhoff CP, Pidard D, and Magdolen V

Subjects
Humans, Kinetics, Plasminogen metabolism, Pseudomonas aeruginosa metabolism, Recombinant Proteins genetics, Recombinant Proteins metabolism, Substrate Specificity, Urokinase-Type Plasminogen Activator genetics, Bacterial Proteins metabolism, Peptide Hydrolases metabolism, Pseudomonas aeruginosa enzymology, Urokinase-Type Plasminogen Activator metabolism
Abstract

Pathogenic bacteria, including Pseudomonas aeruginosa, interact with and engage the host plasminogen (Plg) activation system, which encompasses the urokinase (uPA)-type Plg activator, and is involved in extracellular proteolysis, including matrilysis and fibrinolysis. We hypothesized that secreted bacterial proteases might contribute to the activation of this major extracellular proteolytic system, thereby participating in bacterial dissemination. We report that LasB, a thermolysin-like metalloprotease secreted by Ps. aeruginosa, converts the human uPA zymogen into its active form (kcat=4.9 s-1, Km=8.9 microM). Accordingly, whereas the extracellular secretome from the LasB-expressing pseudomonal strain PAO1 efficiently activates pro-uPA, the secretome from the isogenic LasB-deficient strain PDO240 is markedly less potent in pro-uPA activation. Still, both secretomes induce some metalloprotease-independent activation of the human zymogen. The latter involves a serine protease, which we identified via both recombinant protein expression in Escherichia coli and purification from pseudomonal cultures as protease IV (PIV; kcat=0.73 s-1, Km=6.2 microM). In contrast, neither secretomes nor the pure proteases activate Plg. Along with this, LasB converts Plg into mini-Plg and angiostatin, whereas, as reported previously, it processes the uPA receptor, inactivates the plasminogen activator inhibitor 1, and activates pro-matrix metalloproteinase 2. PIV does not target these factors at all. To conclude, LasB and PIV, although belonging to different protease families and displaying quite different substrate specificities, both activate the urokinase-type precursor of the Plg activation cascade. Direct pro-uPA activation, as also reported for other bacterial proteases, might be a frequent phenomenon that contributes to bacterial virulence.

Published
2010
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31. Interdependence of kallikrein-related peptidases in proteolytic networks.

Author

Beaufort N, Plaza K, Utzschneider D, Schwarz A, Burkhart JM, Creutzburg S, Debela M, Schmitt M, Ries C, and Magdolen V

Subjects
Enzyme Activation, Gene Expression Regulation, Enzymologic, Humans, Kallikreins genetics, Matrix Metalloproteinase 3 metabolism, Neoplasms enzymology, Serine Endopeptidases metabolism, Urokinase-Type Plasminogen Activator, Enzyme Precursors metabolism, Kallikreins metabolism
Abstract

Human kallikrein-related peptidases (KLKs) are 15 homologous serine proteases involved in several (patho)physiological processes, including cancer. Secreted as precursors, they are activated upon proteolytic release of a short pro-peptide. We searched for interconnection of KLKs within extracellular proteolytic networks leading to activation of protease zymogens and found that (i) pro-KLK activation by other KLKs is scarce, with the exception of pro-KLK11, which is efficiently activated by KLK4 and 5; (ii) pro-KLK4 is activated by matrix metalloproteinase 3; and (iii) trypsin-like KLKs efficiently activate the serine protease urokinase. Our observations provide new insights into the regulation of these important tumor-associated proteases.

Published
2010
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32. Kallikrein-related peptidase 4: a new activator of the aberrantly expressed protease-activated receptor 1 in colon cancer cells.

Author

Gratio V, Beaufort N, Seiz L, Maier J, Virca GD, Debela M, Grebenchtchikov N, Magdolen V, and Darmoul D

Subjects
Calcium Signaling, Cell Membrane metabolism, Enzyme Activation, Extracellular Signal-Regulated MAP Kinases metabolism, HT29 Cells, Humans, Intracellular Space metabolism, Receptor, PAR-2 metabolism, Colonic Neoplasms enzymology, Colonic Neoplasms pathology, Kallikreins metabolism, Receptor, PAR-1 metabolism
Abstract

Certain serine proteases are considered to be signaling molecules that act through protease-activated receptors (PARs). Our recent studies have implicated PAR1 and PAR4 (thrombin receptors) and PAR2 (trypsin receptor) in human colon cancer growth. Here we analyzed the expression of KLK4, a member of the kallikrein-related peptidase (KLK) family of serine proteases and explored whether this member can activate PAR1 and PAR2 in human colon cancer cells. Immunohistochemistry showed KLK4 expression in human colon adenocarcinomas and its absence in normal epithelia. KLK4 (1 micromol/L) initiated loss of PAR1 and PAR2 from the HT29 cell surface as well as increased intracellular calcium transients in HT29 cells. This KLK4-induced Ca2+ flux was abrogated after an initial challenge of the cells with TRAP (SFLLR-NH2; 100 micromol/L), which is known to desensitize PAR1 and PAR2. Interestingly, PAR1 blocking antibody, which inhibits cleavage and activation by thrombin, dramatically reduced KLK4-induced Ca2+ influx, but blocking cleavage of PAR2 failed to attenuate the KLK4-induced Ca2+ flux. Consistently, desensitization with AP1 (TFFLR-NH2), targeting PAR1, attenuated most of the Ca2+ flux induced by KLK4. KLK4 also induced a rapid and significant ERK1/2 phosphorylation in HT29 cells. Our results demonstrate, for the first time, that KLK4 is aberrantly expressed in colon cancer and capable of inducing PAR1 signaling in cancer cells. These data suggest that KLK4 signaling via PAR1 may represent a novel pathway in colon tumorigenesis.

Published
2010
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34. Structures and specificity of the human kallikrein-related peptidases KLK 4, 5, 6, and 7.

Author

Debela M, Beaufort N, Magdolen V, Schechter NM, Craik CS, Schmitt M, Bode W, and Goettig P

Subjects
Amino Acid Sequence, Animals, Enzyme Activation, Gene Expression Regulation, Enzymologic, Humans, Kallikreins genetics, Models, Molecular, Protein Structure, Tertiary, Substrate Specificity, Kallikreins chemistry, Kallikreins metabolism
Abstract

Human kallikrein-related peptidases (KLKs) are (chymo)-trypsin-like serine proteinases that are expressed in a variety of tissues such as prostate, ovary, breast, testis, brain, and skin. Although their physiological functions have been only partly elucidated, many of the KLKs appear to be useful prognostic cancer markers, showing distinct correlations between their expression levels and different stages of cancer. Recent advances in the purification of 'new type' recombinant KLKs allowed solution of the crystal structures of KLK4, KLK5, KLK6, and KLK7. Along with these data, enzyme kinetic studies and extended substrate specificity profiling have led to an understanding of the non-prime-side substrate preferences of KLK4, 5, 6, and 7. The shape and polarity of the specificity pockets S1-S4 explain well their substrate preferences. KLK4, 5, and 6 exhibit trypsin-like specificity, with a strong preference for Arg at the P1 position of substrates. In contrast, KLK7 displays a unique chymotrypsin-like specificity for Tyr, which is also preferred at P2. All four KLKs show little specificity for P3 residues and have a tendency to accept hydrophobic residues at P4. Interestingly, for KLK4, 5, and 7 extended charged surface regions were observed that most likely serve as exosites for physiological substrates.

Published
2008
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35. The human fibrinolytic system is a target for the staphylococcal metalloprotease aureolysin.

Author

Beaufort N, Wojciechowski P, Sommerhoff CP, Szmyd G, Dubin G, Eick S, Kellermann J, Schmitt M, Potempa J, and Magdolen V

Subjects
Base Sequence, Culture Media, Conditioned, DNA Primers, Humans, Kinetics, Plasminogen Activator Inhibitor 1 metabolism, Polymerase Chain Reaction, Staphylococcus aureus enzymology, Staphylococcus aureus pathogenicity, Urokinase-Type Plasminogen Activator metabolism, Virulence, Bacterial Proteins metabolism, Fibrinolysis, Metalloendopeptidases metabolism, Metalloproteases metabolism, Staphylococcus aureus metabolism
Abstract

The major opportunistic pathogen Staphylococcus aureus utilizes the human fibrinolytic system for invasion and spread via plasmin(ogen) binding and non-proteolytic activation. Because S. aureus secretes several proteases recently proposed as virulence factors, we explored whether these enzymes could add to the activation of the host's fibrinolytic system. Exposure of human pro-urokinase [pro-uPA (where uPA is urokinase-type plasminogen activator)] to conditioned growth media from staphylococcal reference strains results in an EDTA-sensitive conversion of the single-chain zymogen into its two-chain active form, an activity not observed in an aureolysin-deficient strain. Using purified aureolysin, we verified the capacity of this thermolysin-like metalloprotease to activate pro-uPA, with a 2.6 x 10(3) M(-1) x s(-1) catalytic efficiency. Moreover, activation also occurs in the presence of human plasma, as well as in conditioned growth media from clinical isolates. Finally, we establish that aureolysin (i) converts plasminogen into angiostatin and mini-plasminogen, the latter retaining its capacity to be activated by uPA and to hydrolyse fibrin, (ii) degrades the plasminogen activator inhibitor-1, and (iii) abrogates the inhibitory activity of alpha(2)-antiplasmin. Altogether, we propose that, in parallel with the staphylokinase-dependent activation of plasminogen, aureolysin may contribute significantly to the activation of the fibrinolytic system by S. aureus, and thus may promote bacterial spread and invasion.

Published
2008
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36. The Pseudomonas aeruginosa LasB metalloproteinase regulates the human urokinase-type plasminogen activator receptor through domain-specific endoproteolysis.

Author

Leduc D, Beaufort N, de Bentzmann S, Rousselle JC, Namane A, Chignard M, and Pidard D

Subjects
Amino Acid Sequence, Bacterial Proteins genetics, Cell Line, Epithelial Cells microbiology, Flow Cytometry, Gene Deletion, Humans, Immunoblotting, Metalloendopeptidases genetics, Molecular Sequence Data, Monocytes microbiology, Protein Binding, Receptors, Cell Surface chemistry, Receptors, Urokinase Plasminogen Activator, Recombinant Proteins metabolism, Urokinase-Type Plasminogen Activator metabolism, Vitronectin metabolism, Bacterial Proteins metabolism, Metalloendopeptidases metabolism, Pseudomonas aeruginosa enzymology, Receptors, Cell Surface metabolism
Abstract

Pseudomonas aeruginosa is an opportunistic pathogen in human lungs, where its secretable LasB metalloproteinase can be a virulence factor. The urokinase-type plasminogen activator receptor (uPAR) participates in pericellular proteolysis and the adherence/migration of epithelial cells and leukocytes recruited during infection and shows functional regulation by various proteinases via limited endoproteolysis occurring within its three domains (D1 to D3). We thus examined the proteolytic activity of LasB on uPAR by using recombinant uPAR as well as uPAR-expressing, human monocytic, and bronchial epithelial cell lines. Protein immunoblotting and flow immunocytometry using a panel of domain-specific anti-uPAR antibodies showed that LasB is able to cleave uPAR both within the sequence linking D1 to D2 and at the carboxy terminus of D3. Comparison of LasB-producing and LasB-deficient bacterial strains indicated that LasB is entirely responsible for the uPAR cleavage ability of P. aeruginosa. Based on amino-terminal protein microsequencing and mass spectrometry analysis of the cleavage of peptides mimicking the uPAR sequences targeted by LasB, cleavage sites were determined to be Ala(84)-Val(85) and Thr(86)-Tyr(87) (D1-D2) and Gln(279)-Tyr(280) (D3). Such a dual cleavage of uPAR led to the removal of amino-terminal D1, the generation of a truncated D2D3 species, and the shedding of D2D3 from cells. This proteolytic processing of uPAR was found to (i) drastically reduce the capacity of cells to bind urokinase and (ii) abrogate the interaction between uPAR and the matrix adhesive protein vitronectin. The LasB proteinase is thus endowed with a high potential for the alteration of uPAR expression and functioning on inflammatory cells during infections by P. aeruginosa.

Published
2007
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37. The human airway trypsin-like protease modulates the urokinase receptor (uPAR, CD87) structure and functions.

Author

Beaufort N, Leduc D, Eguchi H, Mengele K, Hellmann D, Masegi T, Kamimura T, Yasuoka S, Fend F, Chignard M, and Pidard D

Subjects
Cell Adhesion, Cell Movement, DNA Primers, Humans, Inflammation pathology, Lung pathology, Lung physiology, Lung physiopathology, Polymerase Chain Reaction, Receptors, Cell Surface genetics, Receptors, Urokinase Plasminogen Activator, Recombinant Proteins metabolism, Vimentin physiology, Inflammation physiopathology, Receptors, Cell Surface chemistry, Receptors, Cell Surface physiology, Respiratory Mucosa physiology, Serine Endopeptidases metabolism
Abstract

The human airway trypsin-like protease (HAT) is a respiratory epithelium-associated, type II transmembrane serine protease, which is also detected as an extracellular enzyme in lung fluids during airway inflammatory disorders. We have evaluated its capacity to affect the urokinase-type plasminogen activator receptor (uPAR), a membrane glycolipid-anchored, three-domain (D1D2D3) glycoprotein that plays a crucial role in innate immunity and inflammation by supporting cell migration and matrix degradation, with structure and biological properties that can be regulated via limited endoproteolysis. With the use of immunoblotting, flow immunocytometry, and ELISA analyses applied to a recombinant uPAR protein and to uPAR-expressing monocytic and human bronchial epithelial cells, it was shown that exposure of uPAR to soluble HAT in the range of 10-500 nM resulted in the proteolytic processing of the full-length (D1D2D3) into the truncated (D2D3) species, with cleavage occurring in the D1 to D2 linker sequence after arginine residues at position 83 and 89. Using immunohistochemistry, we found that both HAT and uPAR were expressed in the human bronchial epithelium. Moreover, transient cotransfection in epithelial cells showed that membrane coexpression of the two partners produced a constitutive and extensive shedding of the D1 domain, occurring for membrane-associated HAT concentrations in the nanomolar range. Because the truncated receptor was found to be unable to bind two of the major uPAR ligands, the adhesive matrix protein vitronectin and the serine protease urokinase, it thus appears that proteolytic regulation of uPAR by HAT is likely to modulate cell adherence and motility, as well as tissue remodeling during the inflammatory response in the airways.

Published
2007
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38. Interplay of human tissue kallikrein 4 (hK4) with the plasminogen activation system: hK4 regulates the structure and functions of the urokinase-type plasminogen activator receptor (uPAR).

Author

Beaufort N, Debela M, Creutzburg S, Kellermann J, Bode W, Schmitt M, Pidard D, and Magdolen V

Subjects
Dose-Response Relationship, Drug, Humans, Kallikreins chemistry, Kallikreins metabolism, Receptors, Cell Surface drug effects, Receptors, Urokinase Plasminogen Activator, Structure-Activity Relationship, Kallikreins pharmacology, Receptors, Cell Surface chemistry, Receptors, Cell Surface physiology
Abstract

The plasminogen activation system is involved in cancer progression and metastasis. Among other proteolytic factors, it includes the serine protease urokinase-type plasminogen activator (uPA) and its three-domain (D1D2D3) receptor uPAR (CD87), which focuses plasminogen activation to the cell surface. The function of uPAR is regulated in part through shedding of domain D1 by proteases, e.g., uPA itself or plasmin. Human tissue kallikrein 4 (hK4), which is highly expressed in prostate and ovarian tumor tissue, was previously shown to cleave and activate the pro-enzyme forms of prostate-specific antigen (PSA, tissue kallikrein hK3) and uPA. Here we demonstrate that uPAR is also a target for hK4, being cleaved in the D1-D2 linker sequence and, to a lesser extent, in its D3 juxtamembrane domain. hK4 may thus modulate the tumor-associated uPA/uPAR-system activity by either activating the pro-enzyme form of uPA or cleaving the cell surface-associated uPA receptor.

Published
2006
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39. Plasmin cleaves the juxtamembrane domain and releases truncated species of the urokinase receptor (CD87) from human bronchial epithelial cells.

Author

Beaufort N, Leduc D, Rousselle JC, Namane A, Chignard M, and Pidard D

Subjects
Bronchi cytology, Enzyme-Linked Immunosorbent Assay, Epithelial Cells metabolism, Humans, Receptors, Urokinase Plasminogen Activator, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, Bronchi metabolism, Fibrinolysin metabolism, Receptors, Cell Surface metabolism
Abstract

The three-domain (D1D2D3) urokinase receptor (CD87) is highly susceptible to cleavage within the D1-D2 linker sequence, but also within the juxtamembrane region by yet poorly characterized proteinases, allowing the release of D1 and D2D3 species in various (patho)physiological body fluids. Using immunoblot analysis and ELISA applied to a recombinant soluble CD87 and to CD87-expressing epithelial cells, we establish that exogenous or in situ generated plasmin proteolyzes CD87 in the D1-D2 linker and D3 carboxyterminal sequences, producing a major soluble D2D3 species. Mass spectrometry analysis of the fragmentation of CD87-related synthetic peptides, and aminoterminal sequencing of D2D3 reveal Arg83, Arg89, and Arg281 as residues targeted by plasmin within human CD87.

Published
2004
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40. Proteolytic regulation of the urokinase receptor/CD87 on monocytic cells by neutrophil elastase and cathepsin G.

Author

Beaufort N, Leduc D, Rousselle JC, Magdolen V, Luther T, Namane A, Chignard M, and Pidard D

Subjects
Amino Acid Sequence, Binding, Competitive, Cathepsin G, Cathepsins metabolism, Cell Membrane enzymology, Drug Synergism, Humans, Hydrolysis, Immunoblotting, Leukocyte Elastase isolation & purification, Leukocyte Elastase metabolism, Membrane Proteins chemistry, Membrane Proteins metabolism, Molecular Sequence Data, Monocytes metabolism, Neutrophils metabolism, Peptide Fragments metabolism, Protein Binding, Protein Structure, Tertiary, Receptors, Cell Surface chemistry, Receptors, Urokinase Plasminogen Activator, Recombinant Proteins chemistry, Recombinant Proteins metabolism, Serine Endopeptidases, Solubility, U937 Cells, Cathepsins chemistry, Leukocyte Elastase chemistry, Monocytes enzymology, Neutrophils enzymology, Receptors, Cell Surface metabolism, Urokinase-Type Plasminogen Activator metabolism
Abstract

The urokinase receptor (CD87) participates to the pericellular proteolytic potential of migrating cells and to the recruitment of leukocytes during inflammation. It consists of three structurally homologous domains, with the C-terminal domain D3 attached to cell membranes through a GPI anchor. CD87 is susceptible to an endoproteolytic processing removing the N-terminal domain D1 and generating truncated D2D3 membrane species, thus modulating CD87-associated functions. Full-length or truncated CD87 can be also released from cells via juxtamembrane cleavage by phospholipases and/or by yet unidentified proteinases. Using a recombinant CD87 and the CD87-positive monocytic U937 cell line and isolated blood monocytes, we show by protein immunoblotting and flow immunocytometry that the human neutrophil serine-proteinases elastase and cathepsin G cleave CD87 within the D1-D2 linker sequence, while in addition cathepsin G is highly efficient in cleaving the C terminus of D3. The combination of cathepsin G and elastase provided by degranulated neutrophils results in enzymatic cooperation leading to the release from monocytic cells of a truncated D2D3 species resembling that previously described in pathological body fluids. Using mass spectrometry analysis, the proteolytic fragmentation of synthetic peptides mapping the D1-D2 linker and D3 C-terminal domains identifies potential cleavage sites for each enzyme and suggests the existence of a mechanism regulating the CD87(D1-D2)-associated chemotactic activity. Finally, isolated or combined elastase and cathepsin G drastically reduce the capacity of cells to bind urokinase. Secretable leukocyte serine-proteinases are thus endowed with high potential for the regulation of CD87 expression and function on inflammatory cells.

Published
2004
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