Your search keyword '"Matriptase"' showing total 934 results

1. Use of protease substrate specificity screening in the rational design of selective protease inhibitors with unnatural amino acids: Application to HGFA, matriptase, and hepsin.

Author

Mahoney, Matthew W., Helander, Jonathan, Kooner, Anoopjit S., Norman, Mariah, Damalanka, Vishnu C., De Bona, Paolo, Kasperkiewicz, Paulina, Rut, Wioletta, Poreba, Marcin, Kashipathy, Maithri M., Battaile, Kevin P., Lovell, Scott, O'Donoghue, Anthony J., Craik, Charles S., Drag, Marcin, and Janetka, James W.

Abstract

Inhibition of the proteolytic processing of hepatocyte growth factor (HGF) and macrophage stimulating protein (MSP) is an attractive approach for the drug discovery of novel anticancer therapeutics which prevent tumor progression and metastasis. Here, we utilized an improved and expanded version of positional scanning of substrate combinatorial libraries (PS‐SCL) technique called HyCoSuL to optimize peptidomimetic inhibitors of the HGF/MSP activating serine proteases, HGFA, matriptase, and hepsin. These inhibitors have an electrophilic ketone serine trapping warhead and thus form a reversible covalent bond to the protease. We demonstrate that by varying the P2, P3, and P4 positions of the inhibitor with unnatural amino acids based on the protease substrate preferences learned from HyCoSuL, we can predictably modify the potency and selectivity of the inhibitor. We identified the tetrapeptide JH‐1144 (8) as a single digit nM inhibitor of HGFA, matriptase and hepsin with excellent selectivity over Factor Xa and thrombin. These unnatural peptides have increased metabolic stability relative to natural peptides of similar structure. The tripeptide inhibitor PK‐1‐89 (2) has excellent pharmacokinetics in mice with good compound exposure out to 24 h. In addition, we obtained an X‐ray structure of the inhibitor MM1132 (15) bound to matriptase revealing an interesting binding conformation useful for future inhibitor design. [ABSTRACT FROM AUTHOR]

Published

2024

2. Matriptase as a potential biomarker and therapeutic target in newly diagnosed type 2 diabetes mellitus.

Author

Demir, Ismail, Yilmaz, Ismail, Horoz, Ersan, Calik, Bulent, and Bilgir, Oktay

Abstract

Background: Type 2 diabetes mellitus (T2DM) is a chronic metabolic disorder that affects the processing of carbohydrates, proteins, and lipids. In T2DM, metabolic dysregulation occurs through various pathways caused by increased levels of many adipokines and inflammatory chemokines. Impaired insulin-glucose metabolism occurs in tissues. The proteolytic enzyme matriptase is thought to be closely related to glucose metabolism due to its glycolization sites. Aim: Our study aimed to evaluate the correlation between matriptase, a proteolytic enzyme, and metabolic parameters in individuals recently diagnosed with T2DM. We also sought to investigate the potential involvement of matriptase in the development of diabetes. Methods: We measured all participants' metabolic laboratory parameters, including basic biochemical tests, hemograms, high-sensitivity C-reactive protein (hsCRP), and matriptase levels. Results: Our results showed a significant increase in circulating matriptase levels in individuals with T2DM compared to the control group. Furthermore, individuals with metabolic syndrome had significantly higher matriptase levels than those without in the T2DM and control groups. We also observed that T2DM patients had elevated levels of Homeostatic Model Assessment for Insulin Resistance (HOMA-IR), hsCRP, and matriptase, which displayed a positive correlation. Conclusion: Our study is the first to report elevated levels of matriptase in individuals with newly diagnosed T2DM and/or metabolic syndrome. Additionally, we found a significant positive correlation between matriptase levels and metabolic and inflammatory parameters, indicating a potential role for matriptase in the pathogenesis of T2DM and glucose metabolism. Further research on matriptase could lead to its recognition as a novel target for investigation. [ABSTRACT FROM AUTHOR]

Published

2024

3. Conditional activation of an anti-IgM antibody-drug conjugate for precise B cell lymphoma targeting.

Author

Schoenfeld, Katrin, Harwardt, Julia, Habermann, Jan, Elter, Adrian, and Kolmar, Harald

Subjects

B cell lymphoma, ANTIBODY-drug conjugates, IMMUNOGLOBULIN M, NON-Hodgkin's lymphoma, CANCER cells, CELL populations

Abstract

Cancerous B cells are almost indistinguishable from their non-malignant counterparts regarding their surface antigen expression. Accordingly, the challenge to be faced consists in elimination of the malignant B cell population while maintaining a functional adaptive immune system. Here, we present an IgM-specific antibody-drug conjugate masked by fusion of the epitope-bearing IgM constant domain. Antibody masking impaired interaction with soluble pentameric as well as cell surface-expressed IgM molecules rendering the antibody cytotoxically inactive. Binding capacity of the anti-IgM antibody drug conjugate was restored upon conditional protease-mediated demasking which consequently enabled target-dependent antibody internalization and subsequent induction of apoptosis in malignant B cells. This easily adaptable approach potentially provides a novel mechanism of clonal B cell lymphoma eradication to the arsenal available for non-Hodgkin's lymphoma treatment. [ABSTRACT FROM AUTHOR]

Published

2023

4. The proteolysis of ZP proteins is essential to control cell membrane structure and integrity of developing tracheal tubes in Drosophila

Author

Leonard Drees, Susi Schneider, Dietmar Riedel, Reinhard Schuh, and Matthias Behr

Subjects

aneurysms, cell membrane, extracellular matrix, Matriptase, TGFβ, trachea, Medicine, Science, Biology (General), QH301-705.5

Abstract

Membrane expansion integrates multiple forces to mediate precise tube growth and network formation. Defects lead to deformations, as found in diseases such as polycystic kidney diseases, aortic aneurysms, stenosis, and tortuosity. We identified a mechanism of sensing and responding to the membrane-driven expansion of tracheal tubes. The apical membrane is anchored to the apical extracellular matrix (aECM) and causes expansion forces that elongate the tracheal tubes. The aECM provides a mechanical tension that balances the resulting expansion forces, with Dumpy being an elastic molecule that modulates the mechanical stress on the matrix during tracheal tube expansion. We show in Drosophila that the zona pellucida (ZP) domain protein Piopio interacts and cooperates with the ZP protein Dumpy at tracheal cells. To resist shear stresses which arise during tube expansion, Piopio undergoes ectodomain shedding by the Matriptase homolog Notopleural, which releases Piopio-Dumpy-mediated linkages between membranes and extracellular matrix. Failure of this process leads to deformations of the apical membrane, tears the apical matrix, and impairs tubular network function. We also show conserved ectodomain shedding of the human TGFβ type III receptor by Notopleural and the human Matriptase, providing novel findings for in-depth analysis of diseases caused by cell and tube shape changes.

Published

2023

5. Conditional activation of an anti-IgM antibody-drug conjugate for precise B cell lymphoma targeting

Author

Katrin Schoenfeld, Julia Harwardt, Jan Habermann, Adrian Elter, and Harald Kolmar

Subjects

B cell receptor, antibody-drug conjugate, masked antibody, conditional activated antibody, MMP-9, matriptase, Immunologic diseases. Allergy, RC581-607

Abstract

Cancerous B cells are almost indistinguishable from their non-malignant counterparts regarding their surface antigen expression. Accordingly, the challenge to be faced consists in elimination of the malignant B cell population while maintaining a functional adaptive immune system. Here, we present an IgM-specific antibody-drug conjugate masked by fusion of the epitope-bearing IgM constant domain. Antibody masking impaired interaction with soluble pentameric as well as cell surface-expressed IgM molecules rendering the antibody cytotoxically inactive. Binding capacity of the anti-IgM antibody drug conjugate was restored upon conditional protease-mediated demasking which consequently enabled target-dependent antibody internalization and subsequent induction of apoptosis in malignant B cells. This easily adaptable approach potentially provides a novel mechanism of clonal B cell lymphoma eradication to the arsenal available for non-Hodgkin's lymphoma treatment.

Published

2023

6. Exosome-Mediated Activation of the Prostasin-Matriptase Serine Protease Cascade in B Lymphoma Cells.

Author

Chen, Li-Mei and Chai, Karl X.

Subjects

*RNA metabolism, *DISEASE progression, *REVERSE transcriptase polymerase chain reaction, *FLOW cytometry, *EXOSOMES, *XENOGRAFTS, *ANIMAL experimentation, *WESTERN immunoblotting, *ONE-way analysis of variance, *B cell lymphoma, *PROTEOLYTIC enzymes, *GENE expression, *T-test (Statistics), *DESCRIPTIVE statistics, *RESEARCH funding, *MICE

Abstract

Simple Summary: Prostasin and matriptase are serine proteases co-expressed on the cell membrane in almost all epithelial cells. They reciprocally activate each other to maintain epithelial integrity. In cancers, matriptase is an oncoprotein with key roles in tumor initiation and progression, whereas prostasin acts in the opposite way. A subgroup of Burkitt lymphoma ectopically over-express matriptase without co-expressing prostasin. Reducing the matriptase expression level via small interfering RNAs in the lymphoma cells reduced tumor growth in vitro and in vivo. We hypothesized that an endowment of prostasin in the lymphoma cells can regulate the expression and function of matriptase. We show that prostasin can be introduced to the cancer cells via exosomes to initiate the prostasin–matriptase protease activation cascade and remove matriptase. The method of assembling this protease cascade in B cells via exosomes could be further exploited in animal models for developing alternative treatments for lymphoma. Prostasin and matriptase are extracellular membrane serine proteases with opposing effects in solid epithelial tumors. Matriptase is an oncoprotein that promotes tumor initiation and progression, and prostasin is a tumor suppressor that reduces tumor invasion and metastasis. Previous studies have shown that a subgroup of Burkitt lymphoma have high levels of ectopic matriptase expression but no prostasin. Reducing the matriptase level via small interfering RNAs in B lymphoma cells impeded tumor xenograft growth in mice. Here, we report a novel approach to matriptase regulation in B cancer cells by prostasin via exosomes to initiate a prostasin–matriptase protease activation cascade. The activation and shedding of matriptase were monitored by measuring its quantity and trypsin-like serine protease activity in conditioned media. Sustained activation of the protease cascade in the cells was achieved by the stable expression of prostasin. The B cancer cells with prostasin expression presented phenotypes consistent with its tumor suppressor role, such as reduced growth and increased apoptosis. Prostasin exosomes could be developed as an agent to initiate the prostasin–matriptase cascade for treating B lymphoma with further studies in animal models. [ABSTRACT FROM AUTHOR]

Published

2023

7. HAI-1 is required for the novel role of FGFBP1 in maintenance of cell morphology and F-actin rearrangement in human keratinocytes.

Author

Lu, Dajun D., Huang, Nanxi, Li, Sheng-Wen A., Fang, Jessica R., Lai, Chih-Hsin, Wang, Jehng-Kang, Chan, Khee-Siang, Johnson, Michael D., and Lin, Chen-Yong

Subjects

CELL morphology, F-actin, TANDEM mass spectrometry, KERATINOCYTES, PROTEIN-protein interactions

Abstract

Formation and maintenance of skin barrier function require tightly controlled membrane-associated proteolysis, in which the integral membrane Kunitz-type serine protease inhibitor, HAI-1, functions as the primary inhibitor of the membrane-associated serine proteases, matriptase and prostasin. Previously, HAI-1 loss in HaCaT human keratinocytes resulted in an expected increase in prostasin proteolysis but a paradoxical decrease in matriptase proteolysis. The paradoxical decrease in shed active matriptase is further investigated in this study with an unexpected discovery of novel functions of fibroblast growth factor-binding protein 1 (FGFBP1), which acts as an extracellular ligand that can rapidly elicit F-actin rearrangement and subsequently affect the morphology of human keratinocytes. This novel growth factor-like function is in stark contrast to the canonical activity of this protein through interactions with FGFs for its pathophysiological functions. This discovery began with the observation that HAI-1 KO HaCaT cells lose the characteristic cobblestone morphology of the parental cells and exhibit aberrant F-actin formation along with altered subcellular targeting of matriptase and HAI-2. The alterations in cell morphology and F-actin status caused by targeted HAI-1 deletion can be restored by treatment with conditioned medium from parental HaCaT cells, in which FGFBP1 was identified by tandem mass spectrometry. Recombinant FGFBP1 down to 1 ng/ml was able to revert the changes caused by HAI-1 loss. Our study reveals a novel function of FGFBP1 in the maintenance of keratinocyte morphology, which depends on HAI-1. [ABSTRACT FROM AUTHOR]

Published

2023

8. The roles of proteases in prostate cancer.

Author

Koistinen, Hannu, Kovanen, Ruusu‐Maaria, Hollenberg, Morley D., Dufour, Antoine, Radisky, Evette S., Stenman, Ulf‐Håkan, Batra, Jyotsna, Clements, Judith, Hooper, John D., Diamandis, Eleftherios, Schilling, Oliver, Rannikko, Antti, and Mirtti, Tuomas

Subjects

*ANDROGEN receptors, *PROTEOLYTIC enzymes, *PROSTATE cancer, *MEMBRANE proteins, *CASTRATION-resistant prostate cancer, *PEPTIDASE, *SERINE proteinases

Abstract

Since the proposition of the pro‐invasive activity of proteolytic enzymes over 70 years ago, several roles for proteases in cancer progression have been established. About half of the 473 active human proteases are expressed in the prostate and many of the most well‐characterized members of this enzyme family are regulated by androgens, hormones essential for development of prostate cancer. Most notably, several kallikrein‐related peptidases, including KLK3 (prostate‐specific antigen, PSA), the most well‐known prostate cancer marker, and type II transmembrane serine proteases, such as TMPRSS2 and matriptase, have been extensively studied and found to promote prostate cancer progression. Recent findings also suggest a critical role for proteases in the development of advanced and aggressive castration‐resistant prostate cancer (CRPC). Perhaps the most intriguing evidence for this role comes from studies showing that the protease‐activated transmembrane proteins, Notch and CDCP1, are associated with the development of CRPC. Here, we review the roles of proteases in prostate cancer, with a special focus on their regulation by androgens. [ABSTRACT FROM AUTHOR]

Published

2023

9. In Vitro Pharmacokinetic Behavior of Antiviral 3-Amidinophenylalanine Derivatives in Rat, Dog and Monkey Hepatocytes.

Author

Lányi, Katalin, Monostory, Katalin, Steinmetzer, Torsten, Jerzsele, Ákos, and Pászti-Gere, Erzsébet

Subjects

LIVER cells, KRA, MONKEYS, SERINE proteinases, DOGS

Abstract

Type II transmembrane serine proteases represent pharmacological targets for blocking entry and spread of influenza or coronaviruses. In this study, the depletion rates of the 3-amidinophenylalanine (3-APhA)-derived matriptase/TMPRSS2 inhibitors MI-463, MI-472, MI-485 or MI-1900 were determined by LC-MS/MS measurements over a period of 300 min using suspensions of rat, dog and cynomolgus monkey primary hepatocytes. From these in vitro pharmacokinetic (PK) experiments, intrinsic clearance values (Clint) were evaluated, and in vivo pharmacokinetic parameters (hepatic clearance, hepatic extraction ratio and bioavailability) were predicted. It was found that rat hepatocytes were the most active in the metabolism of 3-APhA derivatives (Clint 31.9–37.8 mL/min/kg), whereas dog and monkey cells displayed somewhat lower clearance of these compounds (Clint 6.6–26.7 mL/min/kg). These data support elucidation of important PK properties of anti-TMPRSS2/anti-matriptase 3-APhAs using mammalian hepatocyte models and thus contribute to the optimization of lead compounds. [ABSTRACT FROM AUTHOR]

Published

2023

10. Differential subcellular distribution renders HAI-2 a less effective protease inhibitor than HAI-1 in the control of extracellular matriptase proteolytic activity

Author

Yi-Lin Chiu, Yi-Ying Wu, Robert B. Barndt, Yu-Wen Lin, Hou-Ping Sytwo, Amy Cheng, Kacy Yang, Khee-Siang Chan, Jehng-Kang Wang, Michael D. Johnson, and Chen-Yong Lin

Subjects

HAI-1, HAI-2, Matriptase, Neoplastic B-cells, Proteolytic activity, Medicine (General), R5-920, Genetics, QH426-470

Abstract

The integral membrane, Kunitz-type serine protease inhibitors HAI-1 and HAI-2, can suppress the proteolytic activity of the type 2 transmembrane serine protease matriptase with high specificity and potency. High levels of extracellular matriptase proteolytic activity have, however, been observed in some neoplastic B-cells with high levels of endogenous HAI-2, indicating that HAI-2 may be an ineffective matriptase inhibitor at the cellular level. The different effectiveness of the HAIs in the control of extracellular matriptase proteolytic activity is examined here. Upon inducing matriptase zymogen activation in the HAI Teton Daudi Burkitt lymphoma cells, which naturally express matriptase with very low levels of HAI-2 and no HAI-1, nascent active matriptase was rapidly inhibited or shed as an enzymatically active enzyme. With increasing HAI-1 expression, cellular matriptase-HAI-1 complex increased, and extracellular active matriptase decreased proportionally. Increasing HAI-2 expression, however, resulted in cellular matriptase-HAI-2 complex levels reaching a plateau, while extracellular active matriptase remained high. In contrast to this differential effect, both HAI-1 and HAI-2, even at very low levels, were shown to promote the expression and cell-surface translocation of endogenous matriptase. The difference in the suppression of extracellular active matriptase by the two closely related serine protease inhibitors could result from the primarily cell surface expression of HAI-1 compared to the mainly intracellular localization of HAI-2. The HAIs, therefore, resemble one another with respect to promoting matriptase expression and surface translocation but differ in their effectiveness in the control of extracellular matriptase enzymatic activity.

Published

2022

11. Role of the polycystic kidney disease domain in matriptase chaperone activity and localization of hepatocyte growth factor activator inhibitor‐1.

Author

Yamashita, Fumiki, Kaieda, Takashi, Shimomura, Takeshi, Kawaguchi, Makiko, Lin, Chen‐Yong, Johnson, Michael D, Tanaka, Hiroyuki, Kiwaki, Takumi, Fukushima, Tsuyoshi, and Kataoka, Hiroaki

Subjects

*POLYCYSTIC kidney disease, *MOLECULAR chaperones, *HEPATOCYTE growth factor, *EPITHELIAL cells, *CATALYTIC activity, *HEAT shock proteins

Abstract

Hepatocyte growth factor activator inhibitor‐1 (HAI‐1, also known as SPINT1) is an inhibitor of matriptase, a type‐2 transmembrane protease widely expressed in epithelial cells. HAI‐1 also functions as a chaperone to maintain the processing and localization of matriptase required for epithelial integrity. However, mechanisms underpinning the chaperone function remain to be elucidated. Here, we show that the first Kunitz domain (KD1) and the adjacent polycystic kidney disease (PKD) domain‐like internal domain of HAI‐1 are essential for the chaperone function. In HEK293T cells, which do not express endogenous HAI‐1 or matriptase, forced matriptase overexpression was unsuccessful unless sufficient HAI‐1 was co‐expressed. Among mutant HAI‐1 constructs, HAI‐1 with inactivation mutation in KD1 (HAI‐1mKD1) or HAI‐1 lacking the PKD domain (HAI‐1dPKD) was unable to support matriptase expression, and neither mutant formed a complex with activated matriptase. Matriptase did not localize to the cell surface when co‐expressed with HAI‐1dPKD. Moreover, HAI‐1dPKD accumulated in the cytoplasm of HEK293T and HaCaT cells rather than localizing to the cell surface, presumably due to misfolding as judged by altered antibody recognition. On the other hand, activationlocked and activity‐incompetent matriptase were stable and readily overexpressed and localized to the cell surface without HAI‐1. Therefore, the observed matriptase instability was caused by its own catalytic activity in the absence of inhibitory HAI‐1. The matriptase chaperone function of HAI‐1 is thus mediated primarily by the inhibition of undesired intracellular matriptase activity, and the PKD domain is essential for the proper folding and trafficking of inhibitory HAI‐1 and its chaperone function. [ABSTRACT FROM AUTHOR]

Published

2022

12. Insufficiency of hepatocyte growth factor activator inhibitor‐1 confers lymphatic invasion of tongue carcinoma cells.

Author

Izumi, Aya, Yamamoto, Koji, Kawaguchi, Makiko, Yamashita, Fumiki, Fukushima, Tsuyoshi, Kiwaki, Takumi, Tanaka, Hiroyuki, Yamashita, Yoshihiro, and Kataoka, Hiroaki

Abstract

Hepatocyte growth factor (HGF) activator inhibitor type‐1 (HAI‐1), encoded by the SPINT1 gene, is a transmembrane protease inhibitor that regulates membrane‐anchored serine proteases, particularly matriptase. Here, we explored the role of HAI‐1 in tongue squamous cell carcinoma (TSCC) cells. An immunohistochemical study of HAI‐1 in surgically resected TSCC revealed the cell surface immunoreactivity of HAI‐1 in the main portion of the tumor. The immunoreactivity decreased in the infiltrative front, and this decrease correlated with enhanced lymphatic invasion as judged by podoplanin immunostaining. In vitro homozygous deletion of SPINT1 (HAI‐1KO) in TSCC cell lines (HSC3 and SAS) suppressed the cell growth rate but significantly enhanced invasion in vitro. The loss of HAI‐1 resulted in enhanced pericellular activities of proteases, such as matriptase and urokinase‐type plasminogen activator, which induced activation of HGF/MET signaling in the co‐culture with pro‐HGF‐expressing fibroblasts and plasminogen‐dependent plasmin generation, respectively. The enhanced plasminogen‐dependent plasmin generation was abrogated partly by matriptase silencing. Culture supernatants of HAI‐1KO cells had enhanced potency for converting the proform of vascular endothelial growth factor‐C (VEGF‐C), a lymphangiogenesis factor, into the mature form in a plasminogen‐dependent manner. Furthermore, HGF significantly stimulated VEGF‐C expression in TSCC cells. Orthotopic xenotransplantation into nude mouse tongue revealed enhanced lymphatic invasion of HAI‐1KO TSCC cells compared to control cells. Our results suggest that HAI‐1 insufficiency leads to dysregulated pericellular protease activity, which eventually orchestrates robust activation of protease‐dependent growth factors, such as HGF and VEGF‐C, in a tumor microenvironment to contribute to TSCC progression. [ABSTRACT FROM AUTHOR]

Published

2022

13. Gene-associated methylation status of ST14 as a predictor of survival and hormone receptor positivity in breast Cancer

Author

Yang-Hong Dai, Ying-Fu Wang, Po-Chien Shen, Cheng-Hsiang Lo, Jen-Fu Yang, Chun-Shu Lin, Hsing-Lung Chao, and Wen-Yen Huang

Subjects

ST14, Matriptase, DNA methylation, Breast Cancer, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract Background Genomic profiles of specific gene sets have been established to guide personalized treatment and prognosis for patients with breast cancer (BC). However, epigenomic information has not yet been applied in a clinical setting. ST14 encodes matriptase, a proteinase that is widely expressed in BC with reported prognostic value. Methods In this present study, we evaluated the effect of ST14 DNA methylation (DNAm) on overall survival (OS) of patients with BC as a representative example to promote the use of the epigenome in clinical decisions. We analyzed publicly available genomic and epigenomic data from 1361 BC patients. Methylation was characterized by the β-value from CpG probes based on sequencing with the Illumina Human 450 K platform. Results A high mean DNAm (β > 0.6779) across 34 CpG probes for ST14, as the gene-associated methylation (GAM) pattern, was associated with a longer OS after adjusting age, stage, histology and molecular features in Cox model (p value

Published

2021

14. Matriptase regulates c-Met mediated proliferation and invasion in inflammatory breast cancer

Author

Zoratti, Gina L, Tanabe, Lauren M, Hyland, Thomas E, Duhaime, Michael J, Colombo, Éloïc, Leduc, Richard, Marsault, Eric, Johnson, Michael D, Lin, Chen-Yong, Boerner, Julie, Lang, Julie E, and List, Karin

Subjects

Biomedical and Clinical Sciences, Oncology and Carcinogenesis, Cancer, Rare Diseases, Breast Cancer, 2.1 Biological and endogenous factors, Aetiology, 5.1 Pharmaceuticals, Development of treatments and therapeutic interventions, Cell Culture Techniques, Cell Line, Tumor, Cell Membrane, Cell Proliferation, Female, Hepatocyte Growth Factor, Humans, Immunohistochemistry, Inflammatory Breast Neoplasms, Neoplasm Invasiveness, Protein Precursors, Proteolysis, Proto-Oncogene Proteins c-met, RNA Interference, RNA, Small Interfering, Serine Endopeptidases, Signal Transduction, inflammatory breast cancer, matriptase, type II transmembrane serine proteases, Oncology and carcinogenesis

Abstract

The poor prognosis for patients with inflammatory breast cancer (IBC) compared to patients with other types of breast cancers emphasizes the need to better understand the molecular underpinnings of this disease with the goal of developing effective targeted therapeutics. Dysregulation of matriptase expression, an epithelial-specific member of the type II transmembrane serine protease family, has been demonstrated in many different cancer types. To date, no studies have assessed the expression and potential pro-oncogenic role of matriptase in IBC. We examined the functional relationship between matriptase and the HGF/c-MET signaling pathway in the IBC cell lines SUM149 and SUM190, and in IBC patient samples. Matriptase and c-Met proteins are localized on the surface membrane of IBC cells and their expression is strongly correlated in infiltrating cancer cells and in the cancer cells of lymphatic emboli in patient samples. Abrogation of matriptase expression by silencing with RNAi or inhibition of matriptase proteolytic activity with a synthetic inhibitor impairs the conversion of inactive pro-HGF to active HGF and subsequent c-Met-mediated signaling, leading to efficient impairment of proliferation and invasion of IBC cells. These data show the potential of matriptase inhibitors as a novel targeted therapy for IBC, and lay the groundwork for the development and testing of such drugs.

Published

2016

15. In Vitro Pharmacokinetic Behavior of Antiviral 3-Amidinophenylalanine Derivatives in Rat, Dog and Monkey Hepatocytes

Author

Katalin Lányi, Katalin Monostory, Torsten Steinmetzer, Ákos Jerzsele, and Erzsébet Pászti-Gere

Subjects

antiviral, cynomolgus monkey, 3-amidinophenylalanine, depletion rate, matriptase, TMPRSS2, Biology (General), QH301-705.5

Abstract

Type II transmembrane serine proteases represent pharmacological targets for blocking entry and spread of influenza or coronaviruses. In this study, the depletion rates of the 3-amidinophenylalanine (3-APhA)-derived matriptase/TMPRSS2 inhibitors MI-463, MI-472, MI-485 or MI-1900 were determined by LC-MS/MS measurements over a period of 300 min using suspensions of rat, dog and cynomolgus monkey primary hepatocytes. From these in vitro pharmacokinetic (PK) experiments, intrinsic clearance values (Clint) were evaluated, and in vivo pharmacokinetic parameters (hepatic clearance, hepatic extraction ratio and bioavailability) were predicted. It was found that rat hepatocytes were the most active in the metabolism of 3-APhA derivatives (Clint 31.9–37.8 mL/min/kg), whereas dog and monkey cells displayed somewhat lower clearance of these compounds (Clint 6.6–26.7 mL/min/kg). These data support elucidation of important PK properties of anti-TMPRSS2/anti-matriptase 3-APhAs using mammalian hepatocyte models and thus contribute to the optimization of lead compounds.

Published

2023

16. Use of protease substrate specificity screening in the rational design of selective protease inhibitors with unnatural amino acids: Application to HGFA, matriptase, and hepsin.

Author

Mahoney MW, Helander J, Kooner AS, Norman M, Damalanka VC, De Bona P, Kasperkiewicz P, Rut W, Poreba M, Kashipathy MM, Battaile KP, Lovell S, O'Donoghue AJ, Craik CS, Drag M, and Janetka JW

Subjects

Substrate Specificity, Humans, Drug Design, Amino Acids chemistry, Amino Acids metabolism, Protease Inhibitors chemistry, Protease Inhibitors pharmacology, Protease Inhibitors metabolism, Serine Proteinase Inhibitors chemistry, Serine Proteinase Inhibitors pharmacology, Animals, Hepatocyte Growth Factor metabolism, Hepatocyte Growth Factor chemistry, Hepatocyte Growth Factor antagonists & inhibitors, Serine Endopeptidases chemistry, Serine Endopeptidases metabolism

Abstract

Inhibition of the proteolytic processing of hepatocyte growth factor (HGF) and macrophage stimulating protein (MSP) is an attractive approach for the drug discovery of novel anticancer therapeutics which prevent tumor progression and metastasis. Here, we utilized an improved and expanded version of positional scanning of substrate combinatorial libraries (PS-SCL) technique called HyCoSuL to optimize peptidomimetic inhibitors of the HGF/MSP activating serine proteases, HGFA, matriptase, and hepsin. These inhibitors have an electrophilic ketone serine trapping warhead and thus form a reversible covalent bond to the protease. We demonstrate that by varying the P2, P3, and P4 positions of the inhibitor with unnatural amino acids based on the protease substrate preferences learned from HyCoSuL, we can predictably modify the potency and selectivity of the inhibitor. We identified the tetrapeptide JH-1144 (8) as a single digit nM inhibitor of HGFA, matriptase and hepsin with excellent selectivity over Factor Xa and thrombin. These unnatural peptides have increased metabolic stability relative to natural peptides of similar structure. The tripeptide inhibitor PK-1-89 (2) has excellent pharmacokinetics in mice with good compound exposure out to 24 h. In addition, we obtained an X-ray structure of the inhibitor MM1132 (15) bound to matriptase revealing an interesting binding conformation useful for future inhibitor design., (© 2024 The Protein Society.)

Published

2024

17. Pericellular Activation of Peptide Growth Factors by Serine Proteases

Author

Kataoka, Hiroaki, Fukushima, Tsuyoshi, Shinomiya, Nariyoshi, Series editor, Kataoka, Hiroaki, Series editor, Shimada, Yutaka, Series editor, and Xie, Qian, editor

Published

2018

18. Membrane-Anchored Serine Proteases: Host Cell Factors in Proteolytic Activation of Viral Glycoproteins

Author

Böttcher-Friebertshäuser, Eva, Böttcher-Friebertshäuser, Eva, editor, Garten, Wolfgang, editor, and Klenk, Hans Dieter, editor

Published

2018

19. Matriptase activation of Gq drives epithelial disruption and inflammation via RSK and DUOX

Author

Jiajia Ma, Claire A Scott, Ying Na Ho, Harsha Mahabaleshwar, Katherine S Marsay, Changqing Zhang, Christopher KJ Teow, Ser Sue Ng, Weibin Zhang, Vinay Tergaonkar, Lynda J Partridge, Sudipto Roy, Enrique Amaya, and Tom J Carney

Subjects

Matriptase, RSK, inflammation, Hai1, Par2, Gq, Medicine, Science, Biology (General), QH301-705.5

Abstract

Epithelial tissues are primed to respond to insults by activating epithelial cell motility and rapid inflammation. Such responses are also elicited upon overexpression of the membrane-bound protease, Matriptase, or mutation of its inhibitor, Hai1. Unrestricted Matriptase activity also predisposes to carcinoma. How Matriptase leads to these cellular outcomes is unknown. We demonstrate that zebrafish hai1a mutants show increased H2O2, NfκB signalling, and IP3R -mediated calcium flashes, and that these promote inflammation, but do not generate epithelial cell motility. In contrast, inhibition of the Gq subunit in hai1a mutants rescues both the inflammation and epithelial phenotypes, with the latter recapitulated by the DAG analogue, PMA. We demonstrate that hai1a has elevated MAPK pathway activity, inhibition of which rescues the epidermal defects. Finally, we identify RSK kinases as MAPK targets disrupting adherens junctions in hai1a mutants. Our work maps novel signalling cascades mediating the potent effects of Matriptase on epithelia, with implications for tissue damage response and carcinoma progression.

Published

2021

20. Gene-associated methylation status of ST14 as a predictor of survival and hormone receptor positivity in breast Cancer.

Author

Dai, Yang-Hong, Wang, Ying-Fu, Shen, Po-Chien, Lo, Cheng-Hsiang, Yang, Jen-Fu, Lin, Chun-Shu, Chao, Hsing-Lung, and Huang, Wen-Yen

Subjects

*BREAST cancer, *HORMONE receptors, *OVERALL survival, *CANCER prognosis, *PROGNOSIS

Abstract

Background: Genomic profiles of specific gene sets have been established to guide personalized treatment and prognosis for patients with breast cancer (BC). However, epigenomic information has not yet been applied in a clinical setting. ST14 encodes matriptase, a proteinase that is widely expressed in BC with reported prognostic value.Methods: In this present study, we evaluated the effect of ST14 DNA methylation (DNAm) on overall survival (OS) of patients with BC as a representative example to promote the use of the epigenome in clinical decisions. We analyzed publicly available genomic and epigenomic data from 1361 BC patients. Methylation was characterized by the β-value from CpG probes based on sequencing with the Illumina Human 450 K platform.Results: A high mean DNAm (β > 0.6779) across 34 CpG probes for ST14, as the gene-associated methylation (GAM) pattern, was associated with a longer OS after adjusting age, stage, histology and molecular features in Cox model (p value < 0.001). A high GAM status was also associated with a higher XBP1 expression level and higher proportion of hormone-positive BC (p value < 0.001). Pathway analysis revealed that altered GAM was related to matrisome-associated pathway.Conclusions: Here we show the potential role of ST14 DNAm in BC prognosis and warrant further study. [ABSTRACT FROM AUTHOR]

Published

2021

21. Protease activated receptor 2 and matriptase expression in the joints of cats with and without osteoarthritis.

Author

Ariffin, Siti M Zainal, Bennett, David, Ferrell, William R, Lockhart, John C, Dunning, Lynette, Clements, Dylan N, Lascelles, B Duncan X, Ibrahim, Tengku A Tengku, and Johnston, Pamela

Abstract

Objectives: The aim of this study was to determine the presence of protease-activated receptor 2 (PAR2) and matriptase proteins and quantify PAR2 and matriptase mRNA expression in the articular cartilage and synovial membrane of cats with and without osteoarthritis (OA). Methods: A total of 28 articular cartilage samples from adult cats (14 OA and 14 normal), 10 synovial membranes from adult cats (five OA and five normal) and three cartilage samples from 9-week-old fetal cats were used. The presence of PAR2 and matriptase in the cartilage and synovial membrane of the adult samples was detected by immunohistochemical (IHC) staining, while real-time PCR was used for mRNA expression analyses in all samples. Results: PAR2 was detected in all OA and normal articular cartilage and synovial membrane samples but confined to only a few superficial chondrocytes in the normal samples. Matriptase was only detected in OA articular cartilage and synovial membrane samples. PAR2 and matriptase mRNA expression were, however, detected in all cartilage and synovial membrane samples. PAR2 and matriptase mRNA expression levels in OA articular cartilage were five (P <0.001) and 3.3 (P <0.001) times higher than that of the healthy group, respectively. There was no significant difference (P = 0.05) in the OA synovial membrane PAR2 and matriptase mRNA expression compared with the normal samples. Conclusions and relevance: Detection of PAR2 and matriptase proteins and gene expression in feline articular tissues is a novel and important finding, and supports the hypothesis that serine proteases are involved in the pathogenesis of feline OA. The consistent presence of PAR2 and matriptase protein in the cytoplasm of OA chondrocytes suggests a possible involvement of proteases in cartilage degradation. Further investigations into the PAR2 and matriptase pathobiology could enhance our understanding of the proteolytic cascades in feline OA, which might lead to the development of novel therapeutic strategies. [ABSTRACT FROM AUTHOR]

Published

2021

22. Endocytic activation and exosomal secretion of matriptase stimulate the second wave of EGF signaling to promote skin and breast cancer invasion.

Author

Ye, Fang, Yuan, Zhikang, Tang, Ying, Li, Jiamei, Liu, Xingxing, Sun, Xuedi, Chen, Shuang, Ye, Xiaohong, Zeng, Zhiping, Zhang, Xiao-kun, and Zhou, Hu

Abstract

The dysfunction of matriptase, a membrane-anchored protease, is highly related to the progression of skin and breast cancers. Epidermal growth factor (EGF)-induced matriptase activation and cancer invasion are known but with obscure mechanisms. Here, we demonstrate a vesicular-trafficking-mediated interplay between matriptase and EGF signaling in cancer promotion. We found that EGF induces matriptase to undergo endocytosis together with the EGF receptor, followed by acid-induced activation in endosomes. Activated matriptase is then secreted extracellularly on exosomes to catalyze hepatocyte growth factor precursor (pro-HGF) cleavage, resulting in autocrine HGF/c-Met signaling. Matriptase-induced HGF/c-Met signaling represents the second signal wave of EGF, which promotes cancer cell scattering, migration, and invasion. These findings demonstrate a role of vesicular trafficking in efficient activation and secretion of membrane matriptase and a reciprocal regulation of matriptase and EGF signaling in cancer promotion, providing insights into the physiological functions of vesicular trafficking and the molecular pathological mechanisms of skin and breast cancers. [Display omitted] • EGF induces EGFR-facilitated matriptase endocytosis • Matriptase is activated by endosomal acidic conditions and secreted on exosomes • Exosomal matriptase catalyzes pro-HGF maturation to activate the HGF/c-Met pathway • Activated HGF/c-Met pathway—the second signal wave of EGF—induces cancer invasion Ye et al. show that EGF induces matriptase endocytosis together with EGFR for acidic activation in endosomes, followed by exosomal secretion. Exosomal matriptase initiates the second wave of EGF signaling via catalyzing pro-HGF maturation to activate the HGF/c-Met pathway. This vesicle-trafficking-mediated interplay between EGF and matriptase promotes SCC and TNBC invasion. [ABSTRACT FROM AUTHOR]

Published

2024

23. Understanding HAIs: Ally proteins in the fight against cancer.

Author

Nonboe, Annika W., Bald, Zuzanna H., and Vogel, Lotte K.

Subjects

*PROTEINS, *PROTEASE inhibitors, *SERINE

Abstract

Understanding how HAI‐1 and HAI‐2 regulate the epithelial serine protease matriptase may hold the key to curing epithelial‐derived cancer. HAIs are serine protease inhibitors that inhibit matriptase and have a poorly understood effect on the presence of matriptase protein in cells. In this issue of The FEBS Journal, Yamashita et al. provide much‐needed new insights into this effect, describing it as a 'chaperone‐like function' of HAI‐1. However, several observations suggest that matriptase folds correctly without HAIs and that HAIs are not chaperones. We introduce the concept of 'ally proteins' to categorize the poorly understood function of HAIs, distinguishing them from chaperones. Comment on: https://doi.org/10.1111/febs.16348 [ABSTRACT FROM AUTHOR]

Published

2022

24. Expression of protease activating receptor-2 (PAR-2) is positively correlated with the recurrence of non-muscle invasive bladder cancer: an immunohistochemical analysis

Author

Nakahara K, Yamasaki K, Nagai T, Fujii M, Akioka T, Takamori H, Terada N, Mukai S, Sato Y, and Kamoto T

Subjects

PAR-2, matriptase, MET, NMIBC, Diseases of the genitourinary system. Urology, RC870-923

Abstract

Kozue Nakahara,1 Koji Yamasaki,1 Takahiro Nagai,1 Masato Fujii,1 Takahiro Akioka,1 Hiroki Takamori,1 Naoki Terada,1 Shoichiro Mukai,1 Yuichiro Sato,2 Toshiyuki Kamoto11Department of Urology, Faculty of Medicine, University of Miyazaki, Miyazaki, Japan; 2Section of Diagnostic Pathology, Faculty of Medicine, University of Miyazaki, Miyazaki, JapanBackground: Matriptase, which is a Type II transmembrane serine protease, has the potential to activate several growth factors, including pro-hepatocyte growth factor (HGF). A G protein-coupled transmembrane cell-surface receptor and a protease-activated receptor 2 (PAR-2) are also required for activation by matriptase. Activation of PAR-2 has been reported to induce the progression of various cancers. In a previous study, we evaluated the correlation between upregulation of MET phosphorylation with high matriptase expression and worse prognosis in patients with muscle invasive bladder cancer; however, expression of PAR-2, matriptase and MET in non-muscle invasive bladder cancer (NMIBC) has not been evaluated.Materials and methods: We retrospectively analyzed the expression of PAR-2, matriptase and MET using 55 paraffin-embedded specimens obtained from patients with NMIBC by immunohistochemistry.Results: MET was significantly expressed in high-grade urothelial carcinoma (UC) and pathological T1 cancers. High expression of PAR-2 was significantly associated with a worse recurrence rate in NMIBC. In subgroup analysis, the expression of PAR-2 was also correlated with high recurrence rate in low-grade UC. In addition, expression of matriptase tended to correlate with worse recurrence rate in high-grade UC.Conclusion: Increased expression of PAR-2 was significantly correlated with worse recurrence rate in patients with NMIBC. In addition, expression of matriptase also indicated a tendency toward recurrence in high-grade UC, suggesting an important role of matriptase-induced PAR-2 activation in NMIBC.Keywords: PAR-2, matriptase, MET, NMIBC

Published

2019

25. Matriptase cleaves the amyloid-beta peptide 1–42 at Arg-5, Lys-16, and Lys-28

Author

Li-Mei Chen and Karl X. Chai

Subjects

Amyloid, Matriptase, Secretase, Medicine, Biology (General), QH301-705.5, Science (General), Q1-390

Abstract

Abstract Objective The type-II transmembrane extracellular serine protease matriptase was shown to cleave at Arg-102 in the amino-terminal region of the amyloid precursor protein (APP). In this study we determined matriptase cleavage sites in the amyloid-beta (Aβ) peptide region of APP (Asp-597 to Ala-638 in the APP695 isoform). A recombinant human matriptase protease domain was used to cleave a synthetic human Aβ1–42 peptide. The human APP695 or mutants at the candidate matriptase cleavage sites was co-expressed with the human matriptase or its protease-dead mutant in HEK293 cells to evaluate matriptase cleavage of APP. Overexpression of matriptase in the M17 human neuroblastoma cells was performed to determine the effect of matriptase expression on endogenous APP. Results The human Aβ1–42 peptide can be cleaved by the matriptase serine protease domain, at Arg-5, Lys-16, and Lys-28, as determined by matrix-assisted laser desorption ionization time-of-flight mass spectrometry. Co-expression of matriptase but not its protease-dead mutant with APP695 resulted in site-specific cleavages of the latter. Replacement of Arg-601 (Arg-5 in Aβ1–42) by Ala in APP695 prevented matriptase cleavage at this site. Overexpression of matriptase but not its protease-dead mutant in the M17 cells resulted in a significant reduction of the endogenous APP quantity.

Published

2019

26. Aberrant regulation favours matriptase proteolysis in neoplastic B-cells that co-express HAI-2

Author

Yi-Lin Chiu, Yi-Ying Wu, Robert B. Barndt, Yee Hui Yeo, Yu-Wen Lin, Hou-Ping Sytwo, Huan-Cheng Liu, Yuan Xu, Bailing Jia, Jehng-Kang Wang, Michael D. Johnson, and Chen-Yong Lin

Subjects

matriptase, protease inhibition, hai-1, hai-2, b-cell lymphoma, pericellular proteolytic activity, Therapeutics. Pharmacology, RM1-950

Abstract

Matriptase is ectopically expressed in neoplastic B-cells, in which matriptase activity is enhanced by negligible expression of its endogenous inhibitor, hepatocyte growth factor activator inhibitor (HAI)-1. HAI-1, however, is also involved in matriptase synthesis and intracellular trafficking. The lack of HAI-1 indicates that other related inhibitor, such as HAI-2, might be expressed. Here, we show that HAI-2 is commonly co-expressed in matriptase-expressing neoplastic B-cells. The level of active matriptase shed after induction of matriptase zymogen activation in 7 different neoplastic B-cells was next determined and characterised. Our data reveal that active matriptase can only be generated and shed by those cells able to activate matriptase and in a rough correlation with the levels of matriptase protein. While HAI-2 can potently inhibit matriptase, the levels of active matriptase are not proportionally suppressed in those cells with high HAI-2. Our survey suggests that matriptase proteolysis might aberrantly remain high in neoplastic B-cells regardless of the levels of HAI-2.

Published

2019

27. Targeted deletion of HAI-1 increases prostasin proteolysis but decreases matriptase proteolysis in human keratinocytes.

Author

Lu, Dajun D., Gu, Yayun, Li, Sheng-Wen A., Barndt, Robert J., Huang, Shih-Ming, Wang, Jehng-Kang, Su, Hui Chen, Johnson, Michael D., and Lin, Chen-Yong

Subjects

PROTEOLYSIS, KERATINOCYTES, KNOCKOUT mice, PROTEASE inhibitors, PROTEIN expression, HIV protease inhibitors

Abstract

Epidermal differentiation and barrier function require well-controlled matriptase and prostasin proteolysis, in which the Kunitz-type serine protease inhibitor HAI-1 represents the primary enzymatic inhibitor for both proteases. HAI-1, however, also functions as a chaperone-like protein necessary for normal matriptase synthesis and intracellular trafficking. Furthermore, other protease inhibitors, such as antithrombin and HAI-2, can also inhibit matriptase and prostasin in solution or in keratinocytes. It remains unclear, therefore, whether aberrant increases in matriptase and prostasin enzymatic activity would be the consequence of targeted deletion of HAI-1 and so subsequently contribute to the epidermal defects observed in HAI-1 knockout mice. The impact of HAI-1 deficiency on matriptase and prostasin proteolysis was, here, investigated in HaCaT human keratinocytes. Our results show that HAI-1 deficiency causes an increase in prostasin proteolysis via increased protein expression and zymogen activation. It remains unclear, however, whether HAI-1 deficiency increases "net" prostasin enzymatic activity because all of the activated prostasin was detected in complexes with HAI-2, suggesting that prostasin enzymatic activity is still under tight control in HAI-1-deficient keratinocytes. Matriptase proteolysis is, however, unexpectedly suppressed by HAI-1 deficiency, as manifested by decreases in zymogen activation, shedding of active matriptase, and matriptase-dependent prostasin zymogen activation. This suppressed proteolysis results mainly from the reduced ability of HAI-1-deficient HaCaT cells to activate matriptase and the rapid inhibition of nascent active matriptase by HAI-2 and other yet-to-be-identified protease inhibitors. Our study provides novel insights with opposite impacts by HAI-1 deficiency on matriptase versus prostasin proteolysis in keratinocytes. [ABSTRACT FROM AUTHOR]

Published

2021

28. The Value of Multi-parameter MRI in the Differential Diagnosis of Uterine Sarcoma and Benign Uterine Fibroids and the Relationship with the Malignant Degree of Tumor Cells.

Author

BU Dao and HAN Qianqian

Subjects

UTERINE fibroids, UTERINE cancer, CANCER diagnosis, DIFFERENTIAL diagnosis, DIFFUSION coefficients, CONTRAST-enhanced magnetic resonance imaging

Abstract

In this research, 103 uterine sarcoma (US) patients were selected as the observation group, and 103 patients with benign uterine fibroids were selected as the control group. The value of MRI multi-parameters in the differential diagnosis of US and benign uterine fibroids were explored, as well as the relationship between the MRI parameters and the malignancy of tumor cells. The time to peak (TTP) and apparent diffusion coefficient (ADC) of the observation group were lower than those of the control group. TTP and ADC showed a downward trend with the increase of clinical stage, while the relative expression of Topo II α, AgNOR, PDGFα, and Matriptase mRNA showed an increasing trend with the increase of clinical stage. TP, ADC were negatively correlated with TopoII α, AgNOR, PDGFα and Matriptase mRNA relative expression. And the combined AUC value of TTP and ADC was the largest in differential diagnosis of US and benign uterine fibroids. These results indicated that there were significant differences in MRI parameters between US and benign uterine fibroids. TTP and ADC values are directly related to the activities of proliferation molecules and invasion molecules, which can provide data support for clinical differential diagnosis. [ABSTRACT FROM AUTHOR]

Published

2021

29. Proteolytic cleavage of Trop2 at Arg87 is mediated by matriptase and regulated by Val194.

Author

Kamble, Pradnya R., Rane, Sanjana, Breed, Ananya A., Joseph, Shaini, Mahale, Smita D., and Pathak, Bhakti R.

Subjects

*POST-translational modification, *SITE-specific mutagenesis, *PROTEIN stability, *AMINO acids, *MONOMERS

Abstract

Proteolytic processing is an important post‐translational modification affecting protein activity and stability. In the current study, we investigate the N‐terminal cleavage of Trop2, a protein which is overexpressed in many cancers. We demonstrate that Trop2 is cleaved at Arg87 by a transmembrane serine protease, matriptase. Homology modeling and site‐directed mutagenesis of amino acids in close proximity to the matriptase cleavage site reveal the importance of Val194 in regulating Trop2 cleavage. Co‐immunoprecipitation studies confirm that amino acid substitutions at Arg87, Thr88, Lys189, Val194, and His195 do not affect Trop2 dimerization. However, cleavage of wild‐type Trop2 by matriptase is inhibited when it is allowed to dimerize with a V194A mutant monomer, further confirming the role of Val194 in matriptase‐mediated N‐terminal cleavage. [ABSTRACT FROM AUTHOR]

Published

2020

30. Mild acidity likely accelerates the physiological matriptase autoactivation process: a comparative study between spontaneous and acid-induced matriptase zymogen activation.

Author

Jia, Bailing, Thompson, Hamishi A., Barndt, Robert B., Chiu, Yi-Lin, Lee, Mon-Juan, Lee, See-Chi, Wang, Jehng-Kang, Tang, Hung-Jen, Lin, Chen-Yong, and Johnson, Michael D.

Subjects

POST-translational modification, ACIDITY, COMPARATIVE studies, CELL lines, PROTEOLYSIS, ANGIOTENSIN I

Abstract

The pathophysiological functions of matriptase, a type 2 transmembrane serine protease, rely primarily on its enzymatic activity, which is under tight control through multiple mechanisms. Among those regulatory mechanisms, the control of zymogen activation is arguably the most important. Matriptase zymogen activation not only generates the mature active enzyme but also initiates suppressive mechanisms, such as rapid inhibition by HAI-1, and matriptase shedding. These tightly coupled events allow the potent matriptase tryptic activity to fulfill its biological functions at the same time as limiting undesired hazards. Matriptase is converted to the active enzyme via a process of autoactivation, in which the activational cleavage is thought to rely on the interactions of matriptase zymogen molecules and other as yet identified proteins. Matriptase autoactivation can occur spontaneously and is rapidly followed by the formation and then shedding of matriptase-HAI-1 complexes, resulting in the presence of relatively low levels of the complex on cells. Activation can also be induced by several non-protease factors, such as the exposure of cells to a mildly acidic buffer, which rapidly causes high-level matriptase zymogen activation in almost all cell lines tested. In the current study, the structural requirements for this acid-induced zymogen activation are compared with those required for spontaneous activation through a systematic analysis of the impact of 18 different mutations in various structural domains and motifs on matriptase zymogen activation. Our study reveals that both acid-induced matriptase activation and spontaneous activation depend on the maintenance of the structural integrity of the serine protease domain, non-catalytic domains, and posttranslational modifications. The common requirements of both modes of activation suggest that acid-induced matriptase activation may function as a physiological mechanism to induce pericellular proteolysis by accelerating matriptase autoactivation. [ABSTRACT FROM AUTHOR]

Published

2020

31. Matriptase and prostasin proteolytic activities are differentially regulated in normal and wounded skin.

Author

Chang, Shun-Cheng, Chiang, Chien-Ping, Lai, Chih-Hsin, Du, Po-Wen A., Hung, Yu-Sin, Chen, Yu-Hsuan, Yang, Hui-Yu, Fang, Hao-Yu, Lee, Shiao-Pieng, Tang, Hung-Jen, Wang, Jehng-Kang, Johnson, Michael D., and Lin, Chen-Yong

Subjects

HIV protease inhibitors, SKIN, PROTEASE inhibitors, PROTEIN expression, PROTEOLYSIS, GENE expression

Abstract

Orchestrated control of multiple overlapping and sequential processes is required for the maintenance of epidermal homeostasis and the response to and recovery from a variety of skin insults. Previous studies indicate that membrane-associated serine protease matriptase and prostasin play essential roles in epidermal development, differentiation, and barrier formation. The control of proteolysis is a highly regulated process, which depends not only on gene expression but also on zymogen activation and the balance between protease and protease inhibitor. Subcellular localization can affect the accessibility of protease inhibitors to proteases and, thus, also represents an integral component of the control of proteolysis. To understand how membrane-associated proteolysis is regulated in human skin, these key aspects of matriptase and prostasin were determined in normal and injured human skin by immunohistochemistry. This staining shows that matriptase is expressed predominantly in the zymogen form at the periphery of basal and spinous keratinocytes, and prostasin appears to be constitutively activated at high levels in polarized organelle-like structures of the granular keratinocytes in the adjacent quiescent skin. The membrane-associated proteolysis appears to be elevated via an increase in matriptase zymogen activation and prostasin protein expression in areas of skin recovering from epidermal insults. There was no noticeable change observed in other regulatory aspects, including the expression and tissue distribution of their cognate inhibitors HAI-1 and HAI-2. This study reveals that the membrane-associated proteolysis may be a critical epidermal mechanism involved in responding to, and recovering from, damage to human skin. [ABSTRACT FROM AUTHOR]

Published

2020

32. The spatiotemporal control of human matriptase action on its physiological substrates: a case against a direct role for matriptase proteolytic activity in profilaggrin processing and desquamation.

Author

Lin, Chen-Yong, Wang, Jehng-Kang, and Johnson, Michael D.

Subjects

HUMAN behavior, CELL membranes, CONTINUOUS processing, PROTEOLYSIS

Abstract

Studies of human genetic disorders and animal models indicate that matriptase plays essential roles in proteolytic processes associated with profilaggrin processing and desquamation at late stages of epidermal differentiation. The tissue distribution profile and zymogen activation status in human skin, however, suggests that matriptase physiological function in the skin more likely lies in the proliferating and differentiating keratinocytes in the basal and spinous layers. Marked acanthosis with expanded spinous layer and lack of significant changes in intensity and expression pattern for several terminal differentiation markers in the skin of ARIH patients support matriptase's role in earlier rather than the later stages of differentiation. In addition to the tissue distribution, differential subcellular localization further limits the ability of extracellular matriptase proteolytic activity to access the cytosolic non-membrane-bound keratohyalin granules, in which profilaggrin processing occurs. The short lifespan of active matriptase, which results from tightly controlled zymogen activation, rapid inhibition by HAI-1, and shedding from cell surface, indicates that active matriptase likely performs physiological functions via limited proteolysis on its substrates, as needed, rather than via a continuous bulk process. We, here, review these spatiotemporal controls of matriptase proteolytic activity at the biochemical, cellular, and tissue level. Based on this in-depth understanding of how matriptase activity is regulated, we argue that there is no direct involvement of matriptase proteolytic activity in profilaggrin processing and desquamation. The defects in epidermal terminal differentiation associated with matriptase deficiency are likely secondary and are due to putative disruption at earlier stages of differentiation. [ABSTRACT FROM AUTHOR]

Published

2020

33. Matriptase processing of APLP1 ectodomain alters its homodimerization.

Author

Lanchec, Erwan, Désilets, Antoine, Béliveau, François, Fontaine-Carbonneau, Cloé, Laniel, Andréanne, Leduc, Richard, and Lavoie, Christine

Subjects

*AMYLOID beta-protein, *PROTEOLYTIC enzymes, *SECRETASES, *MATRIPTASE, *BIOLUMINESCENCE, *FLUORESCENCE resonance energy transfer, *DIMERIZATION, *DIMERS

Abstract

The amyloid beta peptide (Aβ) is derived from the amyloid precursor protein (APP) by secretase processing. APP is also cleaved by numerous other proteases, such as the type II transmembrane serine protease matriptase, with consequences on the production of Aβ. Because the APP homolog protein amyloid-like protein 1 (APLP1) shares similarities with APP, we sought to determine if matriptase also plays a role in its processing. Here, we demonstrate that matriptase directly interacts with APLP1 and that APLP1 is cleaved in cellulo by matriptase in its E1 ectodomains at arginine 124. Replacing Arg124 with Ala abolished APLP1 processing by matriptase. Using a bioluminescence resonance energy transfer (BRET) assay we found that matriptase reduces APLP1 homodimeric interactions. This study identifies matriptase as the first protease cleaving APLP1 in its dimerization domain, potentially altering the multiple functions associated with dimer formation. [ABSTRACT FROM AUTHOR]

Published

2020

34. Developmental mechanisms driving complex tooth shape in reptiles.

Author

Landova Sulcova, Marie, Zahradnicek, Oldrich, Dumkova, Jana, Dosedelova, Hana, Krivanek, Jan, Hampl, Marek, Kavkova, Michaela, Zikmund, Tomas, Gregorovicova, Martina, Sedmera, David, Kaiser, Jozef, Tucker, Abigail S., and Buchtova, Marcela

Subjects

TEETH, REPTILES, CYTOSKELETON, DENTITION, DENTAL enamel

Abstract

Background: In mammals, odontogenesis is regulated by transient signaling centers known as enamel knots (EKs), which drive the dental epithelium shaping. However, the developmental mechanisms contributing to formation of complex tooth shape in reptiles are not fully understood. Here, we aim to elucidate whether signaling organizers similar to EKs appear during reptilian odontogenesis and how enamel ridges are formed. Results: Morphological structures resembling the mammalian EK were found during reptile odontogenesis. Similar to mammalian primary EKs, they exhibit the presence of apoptotic cells and no proliferating cells. Moreover, expression of mammalian EK‐specific molecules (SHH, FGF4, and ST14) and GLI2‐negative cells were found in reptilian EK‐like areas. 3D analysis of the nucleus shape revealed distinct rearrangement of the cells associated with enamel groove formation. This process was associated with ultrastructural changes and lipid droplet accumulation in the cells directly above the forming ridge, accompanied by alteration of membranous molecule expression (Na/K‐ATPase) and cytoskeletal rearrangement (F‐actin). Conclusions: The final complex shape of reptilian teeth is orchestrated by a combination of changes in cell signaling, cell shape, and cell rearrangement. All these factors contribute to asymmetry in the inner enamel epithelium development, enamel deposition, ultimately leading to the formation of characteristic enamel ridges. Key Findings: Structures resembling the mammalian enamel knot were found during reptile odontogenesis.Reptilian enamel knot area exhibits the presence of apoptotic cells and PCNA‐negative cells.Expression of mammalian EK‐specific molecules (SHH, FGF4 and ST14) and GLI2‐negative cells were found in reptilian EK‐like areas.Rearrangement of the inner enamel epithelium cells is associated with enamel groove formation.Alteration of membranous molecule expression (Na/K‐ATPase) and cytoskeletal rearrangement (F‐actin) occur during enamel ridge formation. [ABSTRACT FROM AUTHOR]

Published

2020

35. Human matriptase/ST 14 proteolytically cleaves H7N9 hemagglutinin and facilitates the activation of influenza A/Shanghai/2/2013 virus in cell culture.

Author

Whittaker, Gary R. and Straus, Marco R.

Subjects

*PANDEMICS, *CELL culture, *HEMAGGLUTININ, *INFLUENZA, *VIRUS diseases, *WESTERN immunoblotting

Abstract

Background: Influenza is a zoonotic disease that infects millions of people each year resulting in hundreds of thousands of deaths, and in turn devastating pandemics. Influenza is caused by influenza viruses, including influenza A virus (IAV). There are many subtypes of IAV but only a few seem to be able to adapt to humans and to cause disease. In 2013, an H7N9 IAV subtype emerged in China that does not cause clinical symptoms in its chicken host but leads to severe infections when transmitted into humans. Since 2013, there have been six epidemic waves of H7N9 with 1567 laboratory‐confirmed human infections and 615 deaths. Pathogenicity of IAV is complex, but a crucial feature contributing to virulence is the activation of the hemagglutinin (HA) fusion protein by host proteases that triggers membrane fusion and leads to subsequent virus propagation. Methods: 293T, VERO, and MDCK cells were used to conduct Western blot analysis, immunofluorescence assays, and pseudoparticle and live virus infections, and to evaluate H7N9 HA cleavage‐activation. Results/Conclusions: We show that human matriptase/ST 14 is able to cleave H7N9 HA. Cleavage of H7N9 HA expressed in cell culture results in fusogenic HA and syncytia formation. In infection studies with viral pseudoparticles carrying matriptase/ST 14‐activated H7N9 HA, we observed a high infectivity of cells. Finally, human matriptase/ST 14 also activated H7N9 live virus which resulted in high infectivity. Our data demonstrate that human matriptase/ST 14 is a likely candidate protease to promote H7N9 infections in humans. [ABSTRACT FROM AUTHOR]

Published

2020

36. A novel mutation in ST14 at a functionally significant amino acid residue expands the spectrum of ichthyosis-hypotrichosis syndrome

Author

Leila Youssefian, Andrew Touati, Amir Hossein Saeidian, Omid Zargari, Sirous Zeinali, Hassan Vahidnezhad, and Jouni Uitto

Subjects

Ichthyosis, Hypotrichosis, Ichthyosis-hypotrichosis syndrome, ST14, Matriptase, Next-generation sequencing, Medicine

Abstract

Abstract Background Mutations in the ST14 gene, encoding the serine protease matriptase, have been associated with ichthyosis-hypotrichosis syndrome (IHS), a Mendelian disorder with skin and hair manifestations which include, in addition to ichthyosis and hypotrichosis, hypohidrosis and follicular atrophoderma. However, the understanding of the specific consequences of mutations in ST14 on the development of this syndrome is incomplete. Results Using a targeted next-generation sequencing array of 38 ichthyosis-associated genes on a large cohort of 180 ichthyosis patients from a primarily consanguineous background, a previously unreported homozygous p.Asp482Asn mutation in ST14 was identified in a patient with IHS. This mutation affects an essential site within a ligand-binding domain of matriptase. Comparison with previous reports of IHS allowed further delineation of the phenotype of IHS in correlation with mutations present in these patients. Histological and ultrastructural analysis of skin and hair identified novel features in this disorder. Conclusions This study correlates genotypic and phenotypic features of the rare disorder, IHS, expands the spectrum of pathology associated with the disorder, and provides clinical evidence of the importance of the Asp482 amino acid, previously shown to have an essential role in matriptase activation.

Published

2017

37. Aberrant regulation favours matriptase proteolysis in neoplastic B-cells that co-express HAI-2.

Author

Chiu, Yi-Lin, Wu, Yi-Ying, Barndt, Robert B., Yeo, Yee Hui, Lin, Yu-Wen, Sytwo, Hou-Ping, Liu, Huan-Cheng, Xu, Yuan, Jia, Bailing, Wang, Jehng-Kang, Johnson, Michael D., and Lin, Chen-Yong

Subjects

*B cells, *PROTEOLYSIS, *HEPATOCYTE growth factor

Abstract

Matriptase is ectopically expressed in neoplastic B-cells, in which matriptase activity is enhanced by negligible expression of its endogenous inhibitor, hepatocyte growth factor activator inhibitor (HAI)-1. HAI-1, however, is also involved in matriptase synthesis and intracellular trafficking. The lack of HAI-1 indicates that other related inhibitor, such as HAI-2, might be expressed. Here, we show that HAI-2 is commonly co-expressed in matriptase-expressing neoplastic B-cells. The level of active matriptase shed after induction of matriptase zymogen activation in 7 different neoplastic B-cells was next determined and characterised. Our data reveal that active matriptase can only be generated and shed by those cells able to activate matriptase and in a rough correlation with the levels of matriptase protein. While HAI-2 can potently inhibit matriptase, the levels of active matriptase are not proportionally suppressed in those cells with high HAI-2. Our survey suggests that matriptase proteolysis might aberrantly remain high in neoplastic B-cells regardless of the levels of HAI-2. [ABSTRACT FROM AUTHOR]

Published

2019

38. Investigation of sphingosin-1-phosphate-triggered matriptase activation using a rat primary hepatocyte model.

Author

Barna, Réka Fanni, Pomothy, Judit Mercédesz, Paréj, Zsuzsanna, and Pásztiné Gere, Erzsébet

Subjects

RATS, CELL death, OXIDATIVE stress, FLUORESCENT dyes, BIOCHEMICAL mechanism of action

Abstract

Sphingosine-1-phosphate (S1P) has been reported as a matriptase activator. The aim of this study was to reveal if S1P can influence hepcidin production. Furthermore, we investigated how S1P can affect the viability and the redox status of primary hepatocytes. Rat primary hepatocytes were cultivated for 72 h and were treated with 50, 200, 1000 ng/ml S1P. Cell-free supernatants were collected every 24 h. Cell viability was tested by a colorimetric method using tetrazolium compound (MTS). The hepcidin levels in the cell-free supernatants were examined with hepcidin sandwich ELISA to determine the effect of S1P on the hepcidin-modulating ability of matriptase. In order to estimate the extent of S1P-generated oxidative stress, extracellular H2O2 measurements were performed by the use of fluorescent dye. Based on the findings, S1P treatment did not cause cell death for 72 h at concentrations up to 1000 ng/ml. S1P did not influence the extracellular H2O2 production for 72 h. The hepcidin levels were significantly suppressed in hepatocytes exposed to S1P treatment. Further studies would be needed to explore the exact mechanism of action of S1P. [ABSTRACT FROM AUTHOR]

Published

2019

39. The roles of proteases in prostate cancer : , Mount Sinai Hospital

Author

Koistinen, Hannu, Kovanen, Ruusu-Maaria, Hollenberg, Morley D., Dufour, Antoine, Radisky, Evette S., Stenman, Ulf-Håkan, Batra, Jyotsna, Clements, Judith, Hooper, John D., Diamandis, Eleftherios, Schilling, Oliver, Rannikko, Antti, Mirtti, Tuomas, Research Programs Unit, Department of Clinical Chemistry and Hematology, Helsinki University Hospital Area, Medicum, HUS Abdominal Center, Clinicum, Urologian yksikkö, Department of Surgery, Research Program in Systems Oncology, HUSLAB, Department of Pathology, and HUS Diagnostic Center

Subjects

Notch, Prostate cancer, Protease-activated receptor, Mmp, Fibroblast activation protein, Klk, Fap, CUB domain-containing protein 1, Proteases, Androgen, Kallikrein-related peptidases, Matrix metalloproteinase, Androgen receptor, Tmprss2, Hepsin, Cdcp1, uPA, 1182 Biochemistry, cell and molecular biology, Trypsin, Urokinase-type plasminogen activator, Par, Peptidases, Matriptase, Ar

Abstract

Since the proposition of the pro-invasive activity of proteolytic enzymes over 70 years ago, several roles for proteases in cancer progression have been established. About half of the 473 active human proteases are expressed in the prostate and many of the most well-characterized members of this enzyme family are regulated by androgens, hormones essential for development of prostate cancer. Most notably, several kallikrein-related peptidases, including KLK3 (prostate-specific antigen, PSA), the most well-known prostate cancer marker, and type II transmembrane serine proteases, such as TMPRSS2 and matriptase, have been extensively studied and found to promote prostate cancer progression. Recent findings also suggest a critical role for proteases in the development of advanced and aggressive castration-resistant prostate cancer (CRPC). Perhaps the most intriguing evidence for this role comes from studies showing that the protease-activated transmembrane proteins, Notch and CDCP1, are associated with the development of CRPC. Here, we review the roles of proteases in prostate cancer, with a special focus on their regulation by androgens.

Published

2023

40. Differential subcellular distribution renders HAI-2 a less effective protease inhibitor than HAI-1 in the control of extracellular matriptase proteolytic activity

Author

Yu-Wen Lin, Jehng-Kang Wang, Michael D. Johnson, Yi-Ying Wu, Hou-Ping Sytwo, Chen-Yong Lin, Kacy Yang, Yi-Lin Chiu, Robert B. Barndt, Amy Cheng, and Khee-Siang Chan

Subjects

0301 basic medicine, animal structures, Cell, Biochemistry, 03 medical and health sciences, 0302 clinical medicine, medicine, Extracellular, Matriptase, Molecular Biology, Genetics (clinical), chemistry.chemical_classification, Serine protease, biology, virus diseases, Cell Biology, Protease inhibitor (biology), Transmembrane protein, Cell biology, 030104 developmental biology, Enzyme, medicine.anatomical_structure, chemistry, 030220 oncology & carcinogenesis, Zymogen activation, biology.protein, medicine.drug

Abstract

The integral membrane, Kunitz-type serine protease inhibitors HAI-1 and HAI-2 can suppress the proteolytic activity of the type 2 transmembrane serine protease matriptase with high specificity and potency. High levels of extracellular matriptase proteolytic activity have, however, been observed in some neoplastic B-cells with high levels of endogenous HAI-2, indicating that HAI-2 may be an ineffective matriptase inhibitor at the cellular level. The different effectiveness of the HAIs in the control of extracellular matriptase proteolytic activity is examined here. Upon inducing matriptase zymogen activation in the HAI Teton Daudi Burkitt lymphoma cells, which naturally express matriptase with very low levels of HAI-2 and no HAI-1, nascent active matriptase was rapidly inhibited or shed as an enzymatically active enzyme. With increasing HAI-1 expression, cellular matriptase-HAI-1 complex increased, and extracellular active matriptase decreased proportionally. Increasing HAI-2 expression, however, resulted in cellular matriptase-HAI-2 complex levels reaching a plateau, while extracellular active matriptase remained high. In contrast to this differential effect, both HAI-1 and HAI-2, even at very low levels, were shown to promote the expression and cell-surface translocation of endogenous matriptase. The difference in the suppression of extracellular active matriptase by the two closely related serine protease inhibitors could result from the primarily cell surface expression of HAI-1 compared to the mainly intracellular localization of HAI-2. The HAIs, therefore, resemble one another with respect to promoting matriptase expression and surface translocation but differ in their effectiveness in the control of extracellular matriptase enzymatic activity.

Published

2022

41. MSP-RON Signaling Is Activated in the Transition From Pancreatic Intraepithelial Neoplasia (PanIN) to Pancreatic Ductal Adenocarcinoma (PDAC)

Author

Ce Li, Susan Morvaridi, Gloria Lam, Chintan Chheda, Yoshiko Kamata, Makoto Katsumata, Mouad Edderkaoui, Xiaopu Yuan, Nicholas Nissen, Stephen J. Pandol, and Qiang Wang

Subjects

MSP/MST1, RON/MST1R, matriptase, pancreas, stellate cell, pancreatic ductal adenocarcinoma, Physiology, QP1-981

Abstract

Pancreatic ductal adenocarcinoma (PDAC) is among the deadliest epithelial malignancies and remains difficult to treat. Pancreatic intraepithelial neoplasias (PanINs) represent the majority of the pre-cancer lesions in the pancreas. The PDAC microenvironment consists of activated pancreatic stellate cells (PSCs) and immune cells, which are thought to contribute to neoplastic transformation. However, the signaling events involved in driving the transition from the neoplastic precursor to the more advanced and aggressive forms in the pancreas are not well understood. Recepteur d’Origine Nantais (RON) is a c-MET family receptor tyrosine kinase that is implicated in playing a role in cell proliferation, migration and other aspects of tumorigenesis. Macrophage stimulating protein (MSP) is the ligand for RON and becomes activated upon proteolytic cleavage by matriptase (also known as ST14), a type II transmembrane serine protease. In the current study, by immunohistochemistry (IHC) analysis of human pancreatic tissues, we found that the expression levels MSP and matriptase are drastically increased during the transition from the preneoplastic PanIN stages to the more advanced and aggressive PDAC. Moreover, RON is highly expressed in both PDAC and in cancer-associated stellate cells. In contrast, MSP, RON, and matriptase are expressed at low levels, if any, in normal pancreas. Our study underscores an emerging role of MSP-RON autocrine and paracrine signaling events in driving malignant progression in the pancreas.

Published

2019

42. Optimization of Ketobenzothiazole-Based Type II Transmembrane Serine Protease Inhibitors to Block H1N1 Influenza Virus Replication.

Author

Colombo É, Désilets A, Hassanzadeh M, Lemieux G, Marois I, Cliche D, Delbrouck JA, Murza A, Jean F, Marsault E, Richter MV, Leduc R, and Boudreault PL

Subjects

Humans, Serine Proteinase Inhibitors pharmacology, Serine Proteases metabolism, Protease Inhibitors pharmacology, Virus Replication, Influenza A Virus, H1N1 Subtype, Influenza A virus physiology, Influenza, Human drug therapy

Abstract

Human influenza viruses cause acute respiratory symptoms that can lead to death. Due to the emergence of antiviral drug-resistant strains, there is an urgent requirement for novel antiviral agents and innovative therapeutic strategies. Using the peptidomimetic ketobenzothiazole protease inhibitor RQAR-Kbt (IN-1, aka N-0100) as a starting point, we report how substituting P2 and P4 positions with natural and unnatural amino acids can modulate the inhibition potency toward matriptase, a prototypical type II transmembrane serine protease (TTSP) that acts as a priming protease for influenza viruses. We also introduced modifications of the peptidomimetics N-terminal groups, leading to significant improvements (from μM to nM, 60 times more potent than IN-1) in their ability to inhibit the replication of influenza H1N1 virus in the Calu-3 cell line derived from human lungs. The selectivity towards other proteases has been evaluated and explained using molecular modeling with a crystal structure recently obtained by our group. By targeting host cell TTSPs as a therapeutic approach, it may be possible to overcome the high mutational rate of influenza viruses and consequently prevent potential drug resistance., (© 2023 The Authors. ChemMedChem published by Wiley-VCH GmbH.)

Published

2024

43. Cell surface–anchored serine proteases in cancer progression and metastasis.

Author

Martin, Carly E. and List, Karin

Abstract

Over the last two decades, a novel subgroup of serine proteases, the cell surface–anchored serine proteases, has emerged as an important component of the human degradome, and several members have garnered significant attention for their roles in cancer progression and metastasis. A large body of literature describes that cell surface–anchored serine proteases are deregulated in cancer and that they contribute to both tumor formation and metastasis through diverse molecular mechanisms. The loss of precise regulation of cell surface–anchored serine protease expression and/or catalytic activity may be contributing to the etiology of several cancer types. There is therefore a strong impetus to understand the events that lead to deregulation at the gene and protein levels, how these precipitate in various stages of tumorigenesis, and whether targeting of selected proteases can lead to novel cancer intervention strategies. This review summarizes current knowledge about cell surface–anchored serine proteases and their role in cancer based on biochemical characterization, cell culture–based studies, expression studies, and in vivo experiments. Efforts to develop inhibitors to target cell surface–anchored serine proteases in cancer therapy will also be summarized. [ABSTRACT FROM AUTHOR]

Published

2019

44. Specifically targeting cancer proliferation and metastasis processes: the development of matriptase inhibitors.

Author

Zuo, Ke, Qi, Yingying, Yuan, Cai, Jiang, Longguang, Xu, Peng, Hu, Jianping, Huang, Mingdong, and Li, Jinyu

Abstract

Matriptase is a type II transmembrane serine protease, which has been suggested to play critical roles in numerous pathways of biological developments. Matriptase is the activator of several oncogenic proteins, including urokinase-type plasminogen activator (uPA), hepatocyte growth factor (HGF) and protease-activated receptor 2 (PAR-2). The activations of these matriptase substrates subsequently lead to the generation of plasmin, matrix metalloproteases (MMPs), and the triggers for many other signaling pathways related to cancer proliferation and metastasis. Accordingly, matriptase is considered an emerging target for the treatments of cancer. Thus far, inhibitors of matriptase have been developed as potential anti-cancer agents, which include small-molecule inhibitors, peptide-based inhibitors, and monoclonal antibodies. This review covers established literature to summarize the chemical and biochemical aspects, especially the inhibitory mechanisms and structure-activity relationships (SARs) of matriptase inhibitors with the goal of proposing the strategies for their future developments in anti-cancer therapy. [ABSTRACT FROM AUTHOR]

Published

2019

45. MSP-RON Signaling Is Activated in the Transition From Pancreatic Intraepithelial Neoplasia (PanIN) to Pancreatic Ductal Adenocarcinoma (PDAC).

Author

Li, Ce, Morvaridi, Susan, Lam, Gloria, Chheda, Chintan, Kamata, Yoshiko, Katsumata, Makoto, Edderkaoui, Mouad, Yuan, Xiaopu, Nissen, Nicholas, Pandol, Stephen J., and Wang, Qiang

Subjects

PANCREATIC duct, ADENOCARCINOMA, PANCREATIC intraepithelial neoplasia, CELL proliferation, PROTEIN-tyrosine kinases

Abstract

Pancreatic ductal adenocarcinoma (PDAC) is among the deadliest epithelial malignancies and remains difficult to treat. Pancreatic intraepithelial neoplasias (PanINs) represent the majority of the pre-cancer lesions in the pancreas. The PDAC microenvironment consists of activated pancreatic stellate cells (PSCs) and immune cells, which are thought to contribute to neoplastic transformation. However, the signaling events involved in driving the transition from the neoplastic precursor to the more advanced and aggressive forms in the pancreas are not well understood. Recepteur d'Origine Nantais (RON) is a c-MET family receptor tyrosine kinase that is implicated in playing a role in cell proliferation, migration and other aspects of tumorigenesis. Macrophage stimulating protein (MSP) is the ligand for RON and becomes activated upon proteolytic cleavage by matriptase (also known as ST14), a type II transmembrane serine protease. In the current study, by immunohistochemistry (IHC) analysis of human pancreatic tissues, we found that the expression levels MSP and matriptase are drastically increased during the transition from the preneoplastic PanIN stages to the more advanced and aggressive PDAC. Moreover, RON is highly expressed in both PDAC and in cancer-associated stellate cells. In contrast, MSP, RON, and matriptase are expressed at low levels, if any, in normal pancreas. Our study underscores an emerging role of MSP-RON autocrine and paracrine signaling events in driving malignant progression in the pancreas. [ABSTRACT FROM AUTHOR]

Published

2019

46. The catalytic, stem, and transmembrane portions of matriptase-2 are required for suppressing the expression of the iron-regulatory hormone hepcidin.

Author

Peizhong Mao, Wortham, Aaron M., Enns, Caroline A., and An-Sheng Zhang

Subjects

*MEMBRANE proteins, *MATRIPTASE, *HEPCIDIN, *TRYPSIN, *SUPPRESSORS of cytokine signaling

Abstract

Matriptase-2 (MT2) is a type-II transmembrane, trypsin-like serine protease that is predominantly expressed in the liver. It is a key suppressor for the expression of hepatic hepcidin, an ironregulatory hormone that is induced via the bone morphogenetic protein signaling pathway. A current model predicts that MT2 suppresses hepcidin expression by cleaving multiple components of the induction pathway. MT2 is synthesized as a zymogen that undergoes autocleavage for activation and shedding. However, the biologically active form of MT2 and, importantly, the contributions of different MT2 domains to its function are largely unknown. Here we examined the activities of truncated MT2 that were generated by site-directed mutagenesis or Gibson assembly master mix, and found that the stem region of MT2 determines the specificity and efficacy for substrate cleavage. The transmembrane domain allowed MT2 activation after reaching the plasma membrane, and the cytoplasmic domain facilitated these processes. Further in vivo rescue studies indicated that the entire extracellular and transmembrane domains of MT2 are required to correct the low-hemoglobin, low-serum iron, and high-hepcidin status in MT2-/- mice. Unlike in cell lines, no autocleavage of MT2 was detected in vivo in the liver, implying that MT2 may also function independently of its proteolytic activity. In conjunction with our previous studies implicating the cytoplasmic domain as an intracellular iron sensor, these observations reveal the importance of each MT2 domain for MT2-mediated substrate cleavage and for its biological function. [ABSTRACT FROM AUTHOR]

Published

2019

47. Overexpression of matriptase in tumor stroma is a poor prognostic indicator of extrahepatic bile duct cancer.

Author

Komatsubara, Toshihide, Oshiro, Hisashi, Sakuma, Yasunaru, Sata, Naohiro, Niki, Toshiro, and Fukushima, Noriyoshi

Subjects

*MATRIPTASE, *CHOLANGIOCARCINOMA, *FIBROBLASTS, *GROWTH factors, *IMMUNOSTAINING

Abstract

Bile duct cancer is known to contain numerous fibroblasts, and reported to recruit cancer‐ associated fibroblasts by secreting platelet‐derived growth factor‐D (PDGF‐D) which needs serine proteases, such as matriptase, to behave as a ligand. However, their expression pattern, and prognostic value have not been clarified. In this study, we investigated the clinicopathological significance of PDGF‐D and matriptase expression in patients with extrahepatic bile duct cancer. The samples were obtained from 256 patients who underwent the surgical resection between 1991 and 2015, and the expression levels of PDGF‐D and matriptase were evaluated immunohistochemically. Staining intensities and distribution were scored, and finally classified into low and high expression groups in cancer cells and stroma respectively. High expression of matriptase in the cancer stroma was detected in 91 tumors (40%). The high stromal matriptase expression was significantly associated with shorter recurrence‐free survival (RFS) and overall survival (OS) (P = 0.0027 and 0.0023, respectively). Multivariate analyses also demonstrated that the stromal matriptase expression level was an independent influential factor in RFS (P = 0.0050) and OS (P = 0.0093). Our findings suggest that the high stromal matriptase expression was strongly associated with tumor progression, recurrence and poor outcomes in patients with extrahepatic bile duct cancer. [ABSTRACT FROM AUTHOR]

Published

2019

48. Conserved function of the matriptase-prostasin proteolytic cascade during epithelial morphogenesis.

Author

Drees, Leonard, Königsmann, Tatiana, Jaspers, Martin H. J., Pflanz, Ralf, Riedel, Dietmar, and Schuh, Reinhard

Subjects

*MATRIPTASE, *PROSTASIN, *PROTEOLYTIC enzymes, *CANCER genetics, *VERTEBRATES

Abstract

Extracellular matrix (ECM) assembly and remodelling is critical during development and organ morphogenesis. Dysregulation of ECM is implicated in many pathogenic conditions, including cancer. The type II transmembrane serine protease matriptase and the serine protease prostasin are key factors in a proteolytic cascade that regulates epithelial ECM differentiation during development in vertebrates. Here, we show by rescue experiments that the Drosophila proteases Notopleural (Np) and Tracheal-prostasin (Tpr) are functional homologues of matriptase and prostasin, respectively. Np mediates morphogenesis and remodelling of apical ECM during tracheal system development and is essential for maintenance of the transepithelial barrier function. Both Np and Tpr degrade the zona pellucida-domain (ZP-domain) protein Dumpy, a component of the transient tracheal apical ECM. Furthermore, we demonstrate that Tpr zymogen and the ZP domain of the ECM protein Piopio are cleaved by Np and matriptase in vitro. Our data indicate that the evolutionarily conserved ZP domain, present in many ECM proteins of vertebrates and invertebrates, is a novel target of the conserved matriptase-prostasin proteolytic cascade. [ABSTRACT FROM AUTHOR]

Published

2019

49. 3‐Cl‐AHPC inhibits pro‐HGF maturation by inducing matriptase/HAI‐1 complex formation.

Author

Ye, Fang, Chen, Shuang, Liu, Xingxing, Ye, Xiaohong, Wang, Keqi, Zeng, Zhiping, Su, Ying, Zhang, Xiao‐kun, and Zhou, Hu

Subjects

MATRIPTASE, SERINE proteinases, HEPATOCYTE growth factor, TRETINOIN, CELLULAR signal transduction

Abstract

Matriptase is an epithelia‐specific membrane‐anchored serine protease, and its dysregulation is highly related to the progression of a variety of cancers. Hepatocyte growth factor activator inhibitor‐1 (HAI‐1) inhibits matriptase activity through forming complex with activated matriptase. The balance of matriptase activation and matriptase/HAI‐1 complex formation determines the intensity and duration of matriptase activity. 3‐Cl‐AHPC, 4‐[3‐(1‐adamantyl)‐4‐hydroxyphenyl]‐3‐chlorocinnamic acid, is an adamantly substituted retinoid‐related molecule and a ligand of retinoic acid receptor γ (RARγ). 3‐Cl‐AHPC is of strong anti‐cancer effect but with elusive mechanisms. In our current study, we show that 3‐Cl‐AHPC time‐ and dose‐ dependently induces matriptase/HAI‐1 complex formation, leading to the suppression of activated matriptase in cancer cells and tissues. Furthermore, 3‐Cl‐AHPC promotes matriptase shedding but without increasing the activity of shed matriptase. Moreover, 3‐Cl‐AHPC inhibits matriptase‐mediated cleavage of pro‐HGF through matriptase/HAI‐1 complex induction, resulting in the suppression of pro‐HGF‐stimulated signalling and cell scattering. Although 3‐Cl‐AHPC binds to RARγ, its induction of matriptase/HAI‐1 complex is not RARγ dependent. Together, our data demonstrates that 3‐Cl‐AHPC down‐regulates matriptase activity through induction of matriptase/HAI‐1 complex formation in a RARγ‐independent manner, providing a mechanism of 3‐Cl‐AHPC anti‐cancer activity and a new strategy to inhibit abnormal matriptase activity via matriptase/HAI‐1 complex induction using small molecules. [ABSTRACT FROM AUTHOR]

Published

2019

50. Matriptase and prostasin are expressed in human skin in an inverse trend over the course of differentiation and are targeted to different regions of the plasma membrane

Author

Chih-Hsin Lai, Shun-Cheng Chang, Yen-Ju Chen, Yi-Jie J. Wang, Ying-Jun J. Lai, Hsiang-Hua D. Chang, Eric B. Berens, Michael D. Johnson, Jehng-Kang Wang, and Chen-Yong Lin

Subjects

Matriptase, Prostasin, Skin, Science, Biology (General), QH301-705.5

Abstract

Matriptase and prostasin, acting as a tightly coupled proteolytic cascade, were reported to be required for epidermal barrier formation in mouse skin. Here we show that, in human skin, matriptase and prostasin are expressed with an inverse pattern over the course of differentiation. Matriptase was detected primarily in epidermal basal keratinocytes and the basaloid cells in the outer root sheath of hair follicles and the sebaceous gland, where prostasin was not detected. In contrast, prostasin was detected primarily in differentiated cells in the epidermal granular layer, the inner root sheath of hair follicles, and the sebaceous gland, where matriptase expression is negligible. While co-expressed in the middle stage of differentiation, prostasin was detected as polarized patches, and matriptase at intercellular junctions. Targeting to different subcellular localizations is also observed in HaCaT human keratinocytes, in which matriptase was detected primarily at intercellular junctions, and prostasin primarily on membrane protrusion. Furthermore, upon induction of zymogen activation, free active prostasin remains cell-associated and free active matriptase is rapidly shed into the extracellular milieu. Our data suggest that matriptase and prostasin likely function as independent entities in human skin rather than as a tightly coupled proteolytic cascade as observed in mouse skin.

Published

2016