Characterisation of a cysteine protease from poultry red mites and its potential use as a vaccine for chickens

Poultry red mites (PRMs, Dermanyssus gallinae) are ectoparasites that negatively affect farmed chickens, leading to serious economic losses worldwide. Acaricides have been used to control PRMs in poultry houses. However, some PRMs have developed resistance to acaricides, and therefore different approaches are required to manage the problems caused by PRMs. Vaccination of chickens is one of the methods being considered to reduce the number of PRMs in poultry houses. In a previous study, a cysteine protease, Deg-CPR-1, was identified as a candidate vaccine against PRMs distributed in Europe. In this study, we investigated the characteristics of Deg-CPR-1. A phylogenetic analysis revealed that Deg-CPR-1 is closely related to the digestive cysteine proteases of other mite species, and it was classified into a cluster different from that of chicken cathepsins. Deg-CPR-1 of PRMs in Japan has an amino acid substitution compared with that of PRMs in Europe, but it showed efficacy as a vaccine, consistent with previous findings. Deg-CPR-1 exhibited cathepsin L-like enzyme activity. In addition, the Deg-CPR-1 mRNA was expressed in the midgut and in all stages of PRMs that feed on blood. These results imply that Deg-CPR-1 in the midgut may have important functions in physiological processes, and the inhibition of its expression may contribute to the efficacy of a Deg-CPR-1-based vaccine. Further research is required to fully understand the mechanisms of vaccine efficacy.

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Molecular Characterization of a Novel Cathepsin L in Macrobrachium nipponense and Its Function in Ovary Maturation

Frontiers in Endocrinology ◽

10.3389/fendo.2021.816813 ◽

2022 ◽

Vol 12 ◽

Author(s):

Sufei Jiang ◽

Yiwei Xiong ◽

Wenyi Zhang ◽

Junpeng Zhu ◽

Dan Cheng ◽

...

Keyword(s):

Cathepsin L ◽

Cysteine Proteases ◽

Macrobrachium Nipponense ◽

Reading Frame ◽

Physiological Processes ◽

Gonad Somatic Index ◽

Oriental River Prawn ◽

Ovary Maturation

Cathepsin L genes, which belonged to cysteine proteases, were a series of multifunctional protease and played important roles in a lot of pathological and physiological processes. In this study, we analyzed the characteristics a cathepsin L (named Mn-CL2) in the female oriental river prawn, Macrobrachium nipponense which was involved in ovary maturation. The Mn-CL2 was1,582 bp in length, including a 978 bp open reading frame that encoded 326 amino acids. The Mn-CL2 was classified into the cathepsin L group by phylogenetic analysis. Real-time PCR (qPCR) analysis indicated that Mn-CL2 was highly expressed in the hepatopancreas and ovaries of female prawns. During the different ovarian stages, Mn-CL2 expression in the hepatopancreas and ovaries peaked before ovarian maturation. In situ hybridization studies revealed that Mn-CL2 was localized in the oocyte of the ovary. Injection of Mn-CL2 dsRNA significantly reduced the expression of vitellogenin. Changes in the gonad somatic index also confirmed the inhibitory effects of Mn-CL2 dsRNA on ovary maturation. These results suggest that Mn-CL2 has a key role in promoting ovary maturation.

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Presence of Anti-cystatin C–positive Dendritic Cells or Macrophages and Localization of Cysteine Proteases in the Apical Bud of the Enamel Organ in the Rat Incisor

Journal of Histochemistry & Cytochemistry ◽

10.1369/jhc.4a6533.2005 ◽

2005 ◽

Vol 53 (5) ◽

pp. 643-651 ◽

Cited By ~ 1

Author(s):

Sumio Nishikawa

Keyword(s):

Dendritic Cells ◽

Cystatin C ◽

Cysteine Protease ◽

Cathepsin L ◽

Cysteine Proteases ◽

Cysteine Protease Inhibitor ◽

Enamel Organ ◽

Apical Bud ◽

Apical Buds ◽

Proliferation And Differentiation

Cystatin C, a cysteine protease inhibitor, was examined in the apical buds of rat incisors by immunohistochemistry, because in transition and maturation zones most of the dendritic cells in the papillary layer are anti-cystatin C–positive. Anti-cystatin C–labeled cells were sparse and localized to the proliferation and differentiation zones, constituting the apical bud of 5-week-old rat incisors. These cells were considered macrophages or dendritic cells, based on their reactivity with OX6 and ED1, as well as their ultrastructure. Basement membrane at the periphery of apical bud was also labeled by anti-cystatin C antibody. The apical buds included a few apoptotic fragments and weak reactivity with antibody to cathepsin L, a cysteine protease. Reactivity to anti-cystatin C and anti-cathepsin ∗∗∗L antibodies was also detected in the apical bud of newborn rat incisors. These results suggest that the cystatin C–positive macrophages or dendritic cells are involved in normal incisor formation. They may be related to the clearance of apoptotic cells or protection from putative cysteine protease activity.

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A cysteine protease inhibitor blocks SARS-CoV-2 infection of human and monkey cells

10.1101/2020.10.23.347534 ◽

2020 ◽

Cited By ~ 1

Author(s):

Drake M. Mellott ◽

Chien-Te Tseng ◽

Aleksandra Drelich ◽

Pavla Fajtová ◽

Bala C. Chenna ◽

...

Keyword(s):

Protease Inhibitor ◽

Host Cell ◽

Cysteine Protease ◽

Cleavage Site ◽

Cathepsin L ◽

Cysteine Proteases ◽

Protein Processing ◽

Spike Protein ◽

Cysteine Protease Inhibitor ◽

Viral Infectivity

ABSTRACTK777 is a di-peptide analog that contains an electrophilic vinyl-sulfone moiety and is a potent, covalent inactivator of cathepsins. Vero E6, HeLa/ACE2, Caco-2, A549/ACE2, and Calu-3, cells were exposed to SARS-CoV-2, and then treated with K777. K777 reduced viral infectivity with EC50 values of inhibition of viral infection of: 74 nM for Vero E6, <80 nM for A549/ACE2, and 4 nM for HeLa/ACE2 cells. In contrast, Calu-3 and Caco-2 cells had EC50 values in the low micromolar range. No toxicity of K777 was observed for any of the host cells at 10-100 μM inhibitor. K777 did not inhibit activity of the papain-like cysteine protease and 3CL cysteine protease, encoded by SARS-CoV-2 at concentrations of ≤ 100 μM. These results suggested that K777 exerts its potent anti-viral activity by inactivation of mammalian cysteine proteases which are essential to viral infectivity. Using a propargyl derivative of K777 as an activity-based probe, K777 selectively targeted cathepsin B and cathepsin L in Vero E6 cells. However only cathepsin L cleaved the SARS-CoV-2 spike protein and K777 blocked this proteolysis. The site of spike protein cleavage by cathepsin L was in the S1 domain of SARS-CoV-2, differing from the cleavage site observed in the SARS CoV-1 spike protein. These data support the hypothesis that the antiviral activity of K777 is mediated through inhibition of the activity of host cathepsin L and subsequent loss of viral spike protein processing.SIGNIFICANCEThe virus causing COVID-19 is highly infectious and has resulted in a global pandemic. We confirm that a cysteine protease inhibitor, approved by the FDA as a clinical-stage compound, inhibits SARS-CoV-2 infection of several human and monkey cell lines with notable(nanomolar) efficacy. The mechanism of action of this inhibitor is identified as a specific inhibition of host cell cathepsin L. This in turn inhibits host cell processing of the coronaviral spike protein, a step required for cell entry. Neither of the coronaviral proteases are inhibited, and the cleavage site of spike protein processing is different from that reported in other coronaviruses. Hypotheses to explain the differential activity of the inhibitor with different cell types are discussed.

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The Intestinal Protozoan Parasite Entamoeba histolytica Contains 20 Cysteine Protease Genes, of Which Only a Small Subset Is Expressed during In Vitro Cultivation

Eukaryotic Cell ◽

10.1128/ec.2.3.501-509.2003 ◽

2003 ◽

Vol 2 (3) ◽

pp. 501-509 ◽

Cited By ~ 124

Author(s):

Iris Bruchhaus ◽

Brendan J. Loftus ◽

Neil Hall ◽

Egbert Tannich

Keyword(s):

Entamoeba Histolytica ◽

Cysteine Protease ◽

Cathepsin L ◽

Protozoan Parasite ◽

Cysteine Proteases ◽

Small Subset ◽

In Vitro Cultivation ◽

Intestinal Protozoan ◽

Parasite Life Cycle

ABSTRACT Cysteine proteases are known to be important pathogenicity factors of the protozoan parasite Entamoeba histolytica. So far, a total of eight genes coding for cysteine proteases have been identified in E. histolytica, two of which are absent in the closely related nonpathogenic species E. dispar. However, present knowledge is restricted to enzymes expressed during in vitro cultivation of the parasite, which might represent only a subset of the entire repertoire. Taking advantage of the current E. histolytica genome-sequencing efforts, we analyzed databases containing more than 99% of all ameba gene sequences for the presence of cysteine protease genes. A total of 20 full-length genes was identified (including all eight genes previously reported), which show 10 to 86% sequence identity. The various genes obviously originated from two separate ancestors since they form two distinct clades. Despite cathepsin B-like substrate specificities, all of the ameba polypeptides are structurally related to cathepsin L-like enzymes. None of the previously described enzymes but 7 of the 12 newly identified proteins are unique compared to cathepsins of higher eukaryotes in that they are predicted to have transmembrane or glycosylphosphatidylinositol anchor attachment domains. Southern blot analysis revealed that orthologous sequences for all of the newly identified proteases are present in E. dispar. Interestingly, the majority of the various cysteine protease genes are not expressed in E. histolytica or E. dispar trophozoites during in vitro cultivation. Therefore, it is likely that at least some of these enzymes are required for infection of the human host and/or for completion of the parasite life cycle.

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Cysteine Protease Inhibitor (AcStefin) Is Required for Complete Cyst Formation of Acanthamoeba

Eukaryotic Cell ◽

10.1128/ec.00308-12 ◽

2013 ◽

Vol 12 (4) ◽

pp. 567-574 ◽

Cited By ~ 17

Author(s):

Jung-Yub Lee ◽

Su-Min Song ◽

Eun-Kyung Moon ◽

Yu-Ran Lee ◽

Bijay Kumar Jha ◽

...

Keyword(s):

Protease Inhibitor ◽

Cysteine Protease ◽

Protease Activity ◽

Cathepsin L ◽

Cyst Formation ◽

Cysteine Proteases ◽

Cysteine Protease Inhibitor ◽

Content Type ◽

Human Cathepsin ◽

Interfering Rna

ABSTRACTThe encystation ofAcanthamoebaleads to the formation of resilient cysts from vegetative trophozoites. This process is essential for parasite survival under unfavorable conditions, such as those associated with starvation, low temperatures, and biocides. Furthermore, cysteine proteases have been implicated in the massive turnover of intracellular components required for encystation. Thus, strict modulation of the activities of cysteine proteases is required to protectAcanthamoebafrom intracellular damage. However, mechanisms underlying the control of protease activity during encystation have not been established inAcanthamoeba. In the present study, we identified and characterizedAcanthamoebacysteine protease inhibitor (AcStefin), which was found to be highly expressed during encystation and to be associated with lysosomes by fluorescence microscopy. Recombinant AcStefin inhibited various cysteine proteases, including human cathepsin B, human cathepsin L, and papain. Transfection with small interfering RNA against AcStefin increased cysteine protease activity during encystation and resulted in incomplete cyst formation, reduced excystation efficiency, and a significant reduction in cytoplasmic area. Taken together, these results indicate that AcStefin is involved in the modulation of cysteine proteases and that it plays an essential role during the encystation ofAcanthamoeba.

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Cathepsin L Inhibitors with Activity against the Liver Fluke Identified From a Focus Library of Quinoxaline 1,4-di-N-Oxide Derivatives

Molecules ◽

10.3390/molecules24132348 ◽

2019 ◽

Vol 24 (13) ◽

pp. 2348 ◽

Cited By ~ 2

Author(s):

Florencia Ferraro ◽

Alicia Merlino ◽

Jorge Gil ◽

Hugo Cerecetto ◽

Ileana Corvo ◽

...

Keyword(s):

Cathepsin L ◽

Md Simulations ◽

Cysteine Proteases ◽

Current Treatment ◽

Economic Losses ◽

New Chemical Entities ◽

Ligand Interactions ◽

Bovine Spermatozoa ◽

Low Cytotoxicity

Infections caused by Fasciola species are widely distributed in cattle and sheep causing significant economic losses, and are emerging as human zoonosis with increasing reports of human cases, especially in children in endemic areas. The current treatment is chemotherapeutic, triclabendazole being the drug of preference since it is active against all parasite stages. Due to the emergence of resistance in several countries, the discovery of new chemical entities with fasciolicidal activity is urgently needed. In our continuous search for new fasciolicide compounds, we identified and characterized six quinoxaline 1,4-di-N-oxide derivatives from our in-house library. We selected them from a screening of novel inhibitors against FhCL1 and FhCL3 proteases, two essential enzymes secreted by juvenile and adult flukes. We report compounds C7, C17, C18, C19, C23, and C24 with an IC50 of less than 10 µM in at least one cathepsin. We studied their binding kinetics in vitro and their enzyme-ligand interactions in silico by molecular docking and molecular dynamic (MD) simulations. These compounds readily kill newly excysted juveniles in vitro and have low cytotoxicity in a Hep-G2 cell line and bovine spermatozoa. Our findings are valuable for the development of new chemotherapeutic approaches against fascioliasis, and other pathologies involving cysteine proteases.

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Major histocompatibility complex class II-associated p41 invariant chain fragment is a strong inhibitor of lysosomal cathepsin L.

Journal of Experimental Medicine ◽

10.1084/jem.183.4.1331 ◽

1996 ◽

Vol 183 (4) ◽

pp. 1331-1338 ◽

Cited By ~ 137

Author(s):

T Bevec ◽

V Stoka ◽

G Pungercic ◽

I Dolenc ◽

V Turk

Keyword(s):

Major Histocompatibility Complex ◽

Major Histocompatibility Complex Class ◽

Cysteine Protease ◽

Cathepsin L ◽

Cysteine Proteases ◽

Class Ii ◽

Invariant Chain ◽

Complex Class ◽

Major Histocompatibility ◽

Histocompatibility Complex

The invariant chain (Ii) is associated with major histocompatibility complex class II molecules during early stages of their intracellular transport. In an acidic endosomal/lysosomal compartment, it is proteolytically cleaved and removed from class II heterodimers. Participation of aspartic and cysteine proteases has been observed in in vitro degradation of Ii, but the specific enzymes responsible for its in vivo processing are as yet undefined. We have previously isolated a noncovalent complex of the lysosomal cysteine protease cathepsin L with a peptide fragment derived from the p41 form of Ii from human kidney. Here we show that this Ii fragment, which is identical to the alternatively spliced segment of p41, is a very potent competitive inhibitor of cathepsin L (equilibrium inhibition constant Ki = 1.7 X 10(-12) M). It inhibits two other cysteine proteases, cathepsin H and papain, but to much lesser extent. Cysteine proteases cathepsins B, C, and S, as well as representatives of serine, aspartic, and metalloproteases, are not inhibited at all. These findings suggest a novel role for p41 in the regulation of various proteolytic activities during antigen processing and presentation. The Ii inhibitory fragment shows no sequence homology with the known cysteine protease inhibitors, and may, therefore, represent a new class.

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Cryptostatin, a chagasin-family cysteine protease inhibitor of Cryptosporidium parvum

Parasitology ◽

10.1017/s0031182012000297 ◽

2012 ◽

Vol 139 (8) ◽

pp. 1029-1037 ◽

Cited By ~ 13

Author(s):

J.-M. KANG ◽

H.-L. JU ◽

J.-R. YU ◽

W.-M. SOHN ◽

B.-K. NA

Keyword(s):

Cryptosporidium Parvum ◽

Cysteine Protease ◽

Cathepsin L ◽

Sodium Dodecyl ◽

Cysteine Proteases ◽

Cysteine Protease Inhibitor ◽

Immunogold Electron Microscopy ◽

Electron Microscopy Analysis ◽

Wide Ph Range ◽

Human Cathepsin

SUMMARYCysteine proteases of pathogenic protozoan parasites play pivotal roles in the life cycle of parasites, but strict regulation of their activities is also essential for maintenance of parasite physiology and interaction with hosts. In this study, we identified and characterized cryptostatin, a novel inhibitor of cysteine protease (ICP) of Cryptosporidium parvum. Cryptostatin showed low sequence identity to other chagasin-family ICPs, but 3 motifs (NPTTG, GXGG, and RPW/F motifs), which are evolutionarily conserved in chagasin-family ICPs, were found in the sequence. The overall structure of cryptostatin consisted of 8 β-strands that progressed in parallel and closely resembled the immunoglobulin fold. Recombinant cryptostatin inhibited various cysteine proteases, including papain, human cathepsin B, human cathepsin L, and cryptopain-1, with Ki's in the picomolar range. Cryptostatin was active over a wide pH range and was highly stable under physiological conditions. The protein was thermostable and retained its inhibitory activity even after incubation at 95°C. Cryptostatin formed tight complexes with cysteine proteases, so the complexes remained intact in the presence of sodium dodecyl sulfate and β-mercaptoethanol, but they were disassembled by boiling. An immunogold electron microscopy analysis demonstrated diffused localization of cryptostatin within oocystes and meronts, but not within trophozoites, which suggests a possible role for cryptostatin in host cell invasion by C. parvum.

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Identification and design of vinyl sulfone inhibitors against Cryptopain-1 – a cysteine protease from cryptosporidiosis-causing Cryptosporidium parvum

10.1101/332965 ◽

2018 ◽

Author(s):

Arpita Banerjee

Keyword(s):

Cryptosporidium Parvum ◽

Cysteine Protease ◽

Drug Targets ◽

Computational Study ◽

Cathepsin L ◽

Cysteine Proteases ◽

Vinyl Sulfone ◽

Docking Simulations ◽

Stunted Growth ◽

Ligand Interactions

AbstractCryptosporidiosis, a disease marked by diarrhea in adults and stunted growth in children, is associated with the unicellular protozoan pathogen Cryptosporidium; often the species parvum. Cryptopain-1, a cysteine protease characterized in the genome of Cryptosporidium parvum, had been earlier shown to be inhibited by a vinyl sulfone compound called K11777 (or K-777). Cysteine proteases have long been established as valid drug targets, which can be covalently and selectively inhibited by vinyl sulfones. This computational study was initiated to identify purchasable vinyl sulfone compounds, which could possibly inhibit cryptopain-1 with higher efficacy than K11777. Docking simulations screened a number of such possibly better inhibitors. The work was furthered to probe the enzymatic pocket of cryptopain-1, through in-silico mutations, to derive a map of receptor-ligand interactions in the docked complexes. The idea was to provide crucial clues to aid the design of inhibitors, which would be able to bind the protease well by making favorable interactions with important residues of the enzyme. The analyses dictated placement of ligands towards the front of the enzymatic cleft, and disfavored interactions deep within. The S1’ and S2 subsites of the enzyme preferred to remain occupied by polar ligand subgroups. Reasonably distanced ring systems and polar backbones of ligands were desired across the cleft. Large as well as inflexible subgroups were not tolerated. Double ringed systems such as substituted napthalene, especially in S1, were exceptions though. The S2 subsite, which is typically a specificity determinant in papain (C1) family cysteine proteases such as cathepsin L-like cryptopain-1, can possibly accommodate polar and hydrophobic ligand subgroups alike.

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Bioinformatics analysis and characterization of a secretory cystatin from Thelohanellus kitauei

10.21203/rs.3.rs-26747/v2 ◽

2020 ◽

Author(s):

Fengli Zhang ◽

Yalin Yang ◽

Chenchen Gao ◽

Yuanyuan Yao ◽

Rui Xia ◽

...

Keyword(s):

Binding Energy ◽

Inhibitory Activity ◽

Cathepsin B ◽

Cathepsin L ◽

Cysteine Proteases ◽

Economic Losses ◽

Amino Acid Residues ◽

Gene Encoding ◽

Multiple Sequence ◽

Cystatin Gene

Abstract Thelohanellus kitauei , is a group of obligate parasitic Myxozoans, which causes intestinal giant-cystic disease of common carp ( Cyprinus carpio) and has resulted in significant economic losses in carp farms. Cystatin secreted by parasites can regulate the immune response of host to facilitate parasite’s survival. In this study, the secretory TK-cystatin gene, encoding a protein of 120 amino acid residues (13.65 kDa), was cloned from T. kitauei genome. Phylogenetic analysis showed that TK-cystatin gene is closely related to the cystatin-A from Hydra vulgaris . Multiple sequence alignment revealed that TK-cystatin had three conserved motifs: N-terminal G 19 G 20 , Q 73 VVAG 77 , and C-terminal L 102 P 103 . Molecular docking between TK-cystatin and three cysteine proteases showed a lower binding energy (-13 kal/mol) with cathepsin L whereas a higher binding energy (-8.6 kal/mol) with cathepsin B. TK-cystatin gene was expressed in Escherichia coli . Activity assays revealed that TK-cystatin has stronger inhibitory activity on endopeptidases (papain and cathepsin L) and weaker inhibitory activity on exopeptidase (cathepsin B). TK-cystatin was stable under the condition of acidity or alkalinity or below 57 °C. This study laid a foundation for the design and development of the anti-TK-cystatin vaccine in carp culture in the future.

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