Your search keyword '"Protease Inhibitor"' showing total 3,898 results

1. Oral 3CL protease inhibitor ensitrelvir suppressed SARS-CoV-2 shedding and infection in a hamster aerosol transmission model

Author

Nakashima, Masaaki, Nobori, Haruaki, Kuroda, Takayuki, Shimba, Alice, Miyagawa, Satoshi, Hayashi, Akane, Matsumoto, Kazumi, Yoshida, Mei, Baba, Kaoru, Kato, Teruhisa, and Fukao, Keita

Published

2024

2. Synergistic inhibition of HIV-1 by Nelfinavir and Epigallocatechin Gallate: A novel nanoemulsion-based therapeutic approach

Author

Gaikwad, Shraddha Y., More, Ashwini, Seniya, Chandrabhan, Verma, Kunal, Chandane-Tak, Madhuri, Nema, Vijay, Kumar, Shobhit, and Mukherjee, Anupam

Published

2025

3. Exploration of P1 and P4 modifications of nirmatrelvir: Design, synthesis, biological evaluation, and X-ray structural studies of SARS-CoV-2 Mpro inhibitors

Author

Ghosh, Arun K., Yadav, Monika, Iddum, Satyanarayana, Ghazi, Somayeh, Lendy, Emma K., Jayashankar, Uttara, Beechboard, Sydney N., Takamatsu, Yuki, Hattori, Shin-ichiro, Amano, Masayuki, Higashi-Kuwata, Nobuyo, Mitsuya, Hiroaki, and Mesecar, Andrew D.

Published

2024

4. Trypsin and Chymotrypsin Inhibitor Activities

Author

Liu, Keshun, Sant'Ana, Anderson S., Series Editor, and Li, Yonghui, editor

Published

2025

5. Purification and characterization of a new protease inhibitor from the seeds of Hibiscus acetosella with potent insecticidal activity against the larvae of Spodoptera litura (Fabricius) Lepidoptera: Noctuidae.

Author

Sajitha, R and Vadakkadath Meethal, Kannan

Abstract

In this study we purified and characterized a Protease Inhibitor (PI) from the seeds of Hibiscus acetosella (HAPI). The inhibitor was purified using ammonium sulphate fractionation, Fast Protein Liquid Chromatography using anion exchanger UNOsphere Q column and trypsin affinity chromatography. The HAPI has a subunit molecular weight of 20 kDa and inhibited trypsin to the extent of 89.81 ± 0.61% and larval gut protease activity of Spodoptera litura to the extent of 84.61 ± 0.97%. The purified inhibitor showed 5690.00 U/mg specific inhibition activity with a fold purity of 158.10 and yield of 2.2 µg per gram of seed. The HAPI was quite stable in the range of pH 7–9 with a maximum activity around pH 8–9, the pH range in the gut of lepidopteran larvae. The inhibitor was found to be stable up to a temperature of 50 C and retained an inhibition of 73.54 ± 0.83% even at 70 °C but declined beyond 80 °C. Further, detergents, oxidizing agents and reducing agents altered the inhibition activity of HAPI. The kinetic analysis revealed that HAPI is a non-competitive inhibitor of trypsin with a Ki of 52 nM. Feeding experiments on S. litura larvae with 1.16 µg of the purified inhibitor twice daily resulted in only 5.5% of the larvae emerged as adults from the treated group as against 97% the larvae emerged as adults from control group indicating its potential in pest control. [ABSTRACT FROM AUTHOR]

Published

2024

6. Kunitz‐type trypsin inhibitor from durian (Durio zibethinus) employs a distinct loop for trypsin inhibition.

Author

Deetanya, Peerapon, Limsardsanakij, Kakanang, Sabat, Grzegorz, Pattaradilokrat, Sittiporn, Chaisuekul, Chatchawan, and Wangkanont, Kittikhun

Abstract

Kunitz‐type trypsin inhibitors are ubiquitous in plants. They have been proposed to be a part of a defense mechanism against herbivores. Trypsin inhibitors also have potential applications in the biotechnology industry, such as in mammalian cell culture. We discovered that durian (Durio zibethinus) seed contains Kunitz‐type trypsin inhibitors as identified by N‐terminal sequencing and mass spectrometry. Eleven new trypsin inhibitors were cloned. The D. zibethinus trypsin inhibitors (DzTIs) that are likely expressed in the seed were produced as recombinant proteins and tested for trypsin inhibitory activity. Their inhibitory activity and crystal structures are similar to the soybean trypsin inhibitor. Surprisingly, a crystal structure of the complex between DzTI‐4, the DzTI with the lowest inhibitory constant, and bovine trypsin revealed that DzTI‐4 utilized a novel tryptophan‐containing β1‐β2 loop to bind trypsin. Site‐direct mutagenesis confirmed the inhibitory role of this loop. DzTI‐4 was not toxic to the HEK293 cells and could be used in place of the soybean trypsin inhibitor for culturing the cells under serum‐free conditions. DzTI‐4 was not toxic to mealworms. However, a mixture of DzTIs extracted from durian seed prevented weight gain in mealworms, suggesting that multiple trypsin inhibitors are required to achieve the antinutritional effect. This study highlights the biochemical diversity of the inhibitory mechanism of Kunitz‐type trypsin inhibitors and provides clues for further application of these inhibitors. [ABSTRACT FROM AUTHOR]

Published

2024

7. Distinct substrate specificities of the three catalytic subunits of the Trichomonas vaginalis proteasome.

Author

Fajtova, Pavla, Hurysz, Brianna M., Miyamoto, Yukiko, Serafim, Mateus Sá M., Jiang, Zhenze, Vazquez, Julia M., Trujillo, Diego F., Liu, Lawrence J., Somani, Urvashi, Almaliti, Jehad, Myers, Samuel A., Caffrey, Conor R., Gerwick, William H., McMinn, Dustin L., Kirk, Christopher J., Boura, Evzen, Eckmann, Lars, and O'Donoghue, Anthony J.

Abstract

The protozoan parasite Trichomonas vaginalis (Tv) causes trichomoniasis, the most common non‐viral sexually transmitted infection in the world. Although Tv has been linked to significant health complications, only two closely related 5‐nitroimidazole drugs are approved for its treatment. The emergence of resistance to these drugs and lack of alternative treatment options poses an increasing threat to public health, making development of novel anti‐Trichomonas compounds an urgent need. The proteasome, a critical enzyme complex found in all eukaryotes has three catalytic subunits, β1, β2, and β5 and has been validated as a drug target to treat trichomoniasis. With the goal of developing tools to study the Tv proteasome, we isolated the enzyme complex and identified inhibitors that preferentially inactivate either one or two of the three catalytic subunits. Using a mass spectrometry‐based peptide digestion assay, these inhibitors were used to define the substrate preferences of the β1, β2 and β5 subunits. Subsequently, three model fluorogenic substrates were designed, each specific for one of the catalytic subunits. This novel substrate profiling methodology will allow for individual subunit characterization of other proteasomes of interest. Using the new substrates, we screened a library of 284 peptide epoxyketone inhibitors against Tv and determined the subunits targeted by the most active compounds. The data show that inhibition of the Tv β5 subunit alone is toxic to the parasite. Taken together, the optimized proteasome subunit substrates will be instrumental for understanding the molecular determinants of proteasome specificity and for accelerating drug development against trichomoniasis. [ABSTRACT FROM AUTHOR]

Published

2024

8. Effects of a Protease Inhibitor Camostat Mesilate on Gut Microbial Function in Patients with Irritable Bowel Syndrome: A Pilot Randomized Placebo-Controlled Study.

Author

Kanazawa, Motoyori, Miyamoto, Kentaro, Kano, Michiko, Inooka, Kyoko, Oka, Kentaro, Takahashi, Motomichi, Mano, Nariyasu, and Fukudo, Shin

Abstract

Introduction: Increased fecal protease activity, which may induce visceral hypersensitivity, has been observed in patients with irritable bowel syndrome (IBS). Serine proteases modulate FK506 binding protein (FKBP)-type peptidylprolyl cis-trans isomerase (PPIase) activity associated with immune and glucocorticoid receptor functions. The aim was to investigate whether camostat mesilate (CM), a serine protease inhibitor, modifies fecal bacterial function related to FKBP-type PPIases in patients with IBS. Methods: Randomly assigned 16 patients with IBS received 200 mg po tid of CM and 16 patients received placebo for 14 days. Self-reported adequate relief (AR) as a primary endpoint, IBS Symptom Severity Scale (IBS-SSS), and colonic motor and pain thresholds to colorectal distention were assessed before and after treatment. The fecal bacterial content was inferred from 16S rRNA gene sequence data using Phylogenetic Investigation of Communities by Reconstruction of Unobserved States and the Kyoto Encyclopedia of Genes and Genomes database. Results: CM significantly increased the relative abundance of Streptococcus and the functional abundances of serine protease and FKBP-type PPIase FkpA, FklB and SlyD more than placebo after treatment. CM treatment was not superior to placebo in proportion of AR although colonic motor response partially changed. Conclusion: CM modulated the fecal microbiome composition and functional potentials that are related to FKBP-type PPIase activity in IBS patients. These findings suggest that protease inhibitors may modify gut microbial function along with abnormal immunological and/or stress responses that underlie pathophysiology of IBS. [ABSTRACT FROM AUTHOR]

Published

2024

9. Cathepsin B- and L-like Protease Activities Are Induced During Developmental Barley Leaf Senescence.

Author

Schepetkin, Igor A. and Fischer, Andreas M.

Subjects

CYSTEINE proteinase inhibitors, CATHEPSIN B, CYSTEINE proteinases, BARLEY, FLUORESCEIN isothiocyanate

Abstract

Leaf senescence is a developmental process allowing nutrient remobilization to sink organs. Previously cysteine proteases have been found to be highly expressed during leaf senescence in different plant species. Using biochemical and immunoblotting approaches, we characterized developmental senescence of barley (Hordeum vulgare L. var. 'GemCraft') leaves collected from 0 to 6 weeks after the onset of flowering. A decrease in total protein and ribulose-1,5-bisphosphate carboxylase/oxygenase (Rubisco) large subunits occurred in parallel with an increase in proteolytic activity measured using the fluorogenic substrates Z-RR-AMC, Z-FR-AMC, and casein labeled with fluorescein isothiocyanate (casein-FITC). Aminopeptidase activity detected with R-AMC peaked at week 3 and then decreased, reaching a low level by week 6. Maximal proteolytic activity with Z-FR-AMC and Z-RR-AMC was detected from pH 4.0 to pH 5.5 and pH 6.5 to pH 7.4, respectively, while two pH optima (pH 3.6 to pH 4.5 and pH 6.5 to pH 7.4) were found for casein-FITC. Compound E-64, an irreversible cysteine protease inhibitor, and CAA0225, a selective cathepsin L inhibitor, effectively inhibited proteolytic activity with IC50 values in the nanomolar range. CA-074, a selective cathepsin B inhibitor, was less potent under the same experimental conditions, with IC50 in the micromolar range. Inhibition by leupeptin and phenylmethylsulfonyl fluoride (PMSF) was weak, and pepstatin A, an inhibitor of aspartic acid proteases, had no effect at the concentrations studied (up to 0.2 mM). Maximal proteolytic activity with the aminopeptidase substrate R-AMC was detected from pH 7.0 to pH 8.0. The pH profile of DCG-04 (a biotinylated activity probe derived from E-64) binding corresponded to that found with Z-FR-AMC, suggesting that the major active proteases are related to cathepsins B and L. Moreover, immunoblotting detected increased levels of barley SAG12 orthologs and aleurain, confirming a possible role of these enzymes in senescing leaves. [ABSTRACT FROM AUTHOR]

Published

2024

10. A Gaussia luciferase reporter assay for the evaluation of coronavirus Nsp5/3CLpro activity

Author

Asimenia Vlachou, Rayhane Nchioua, Kerstin Regensburger, Frank Kirchhoff, and Dorota Kmiec

Subjects

SARS-CoV-2, Coronaviruses, Gaussia reporter assay, Nsp5, 3CLpro, Protease inhibitor, Medicine, Science

Abstract

Abstract Human coronaviruses (hCoVs) infect millions of people every year. Among these, MERS, SARS-CoV-1, and SARS-CoV-2 caused significant morbidity and mortality and their emergence highlights the risk of possible future coronavirus outbreaks. Therefore, broadly-active anti-coronavirus drugs are needed. Pharmacological inhibition of the hCoV protease Nsp5 (3CLpro) is clinically beneficial as shown by the wide and effective use of Paxlovid (nirmatrelvir, ritonavir). However, further treatment options are required due to the risk of drug resistance. To facilitate the assessment of coronavirus protease function and its pharmacological inhibition, we developed an assay allowing rapid and reliable quantification of Nsp5 activity under biosafety level 1 conditions. It is based on an ACE2-Gal4 transcription factor fusion protein separated by a Nsp5 recognition site. Cleavage by Nsp5 releases the Gal4 transcription factor, which then induces the expression of Gaussia luciferase. Our assay is compatible with Nsp5 proteases from all hCoVs and allows simultaneous measurement of inhibitory and cytotoxic effects of the tested compounds. Proof-of-concept measurements confirmed that nirmatrelvir, GC376 and lopinavir inhibit SARS-CoV-2 Nsp5 function. Furthermore, the assay accurately predicted the impact of Nsp5 mutations on catalytic activity and inhibitor sensitivity. Overall, the reporter assay is suitable for evaluating viral protease activity.

Published

2024

11. The Comparative Oncology of Canine Malignant Melanoma in Targeted Therapy: A Systematic Review of In Vitro Experiments and Animal Model Reports.

Author

He, Xiaohui, Gao, Yu, Deng, Yuqing, He, Junying, Nolte, Ingo, Murua Escobar, Hugo, and Yu, Feng

Subjects

*LITERATURE reviews, *MELANOMA, *KINASE inhibitors, *ANIMAL experimentation, *PROTEASE inhibitors

Abstract

Canine malignant melanoma (CMM) is highly aggressive and mostly located in the oral cavity. CMM is the predominant type of canine oral malignancy and shows striking homologies with human mucosal melanoma. In comparative oncology, canine oral melanomas (COMs), as spontaneous tumor models, have the potential to acquire a unique value as a translational model of rare human melanoma subtypes. This review aims to provide a comprehensive summary of targeted therapies for canine malignant melanoma and to enrich the field of comparative oncology. Following the PRISMA guidelines, a comprehensive literature search was conducted across databases for studies from 1976 to April 2024. Studies were selected based on their relevance to targeted treatments. A total of 30 studies met the inclusion criteria. Based on the treatment approaches, the studies were further categorized into immunotherapies, small molecule signaling inhibitors, indirect kinase inhibitors, and other alternative strategies. Some treatments have been shown to result in stable disease or partial response, accounting for 29% (monoclonal antibody) and 76.5% (micro-RNA therapies) in clinical trials. Moreover, in vitro experiments of small molecule inhibitors, including cell signaling inhibitors and indirect kinase inhibitors, have shown the potential to be an effective treatment option for the development of therapeutic strategies in canine malignant melanoma. The observed response in in vitro experiments of CMM (particularly the oral and certain cutaneous subtypes) to drugs used in the treatment of human melanoma underlines the resemblance to human melanoma, therefore supporting the notion that CMM may be a valuable model for understanding rare human melanoma subtypes and exploring potential therapeutic avenues in preclinical trials. Finally, this literature review serves as a valuable resource for the development of therapeutic strategies for CMM and highlights the potential for translating these findings to human cancer treatment. [ABSTRACT FROM AUTHOR]

Published

2024

12. Protease inhibitors characterisation by SDS-PAGE and MALDI-TOF from Alocasia macrorrhizos and their modulation of macrophage immune-inflammatory properties.

Author

Cordeiro, Isac H., Lima, Nerilson M., Scherrer, Elaine C., Carli, Gabriela P., Andrade, Teresinha de Jesus A. S., Castro, Sandra B. R., de Oliveira, Marcone A. L., Alves, Caio Cesar S., and Carli, Alessandra P.

Subjects

PROTEASE inhibitors, ION analysis, CELL survival, TUBERS, TRYPSIN

Abstract

This study describes the extraction and identification by electrophoretic and spectrometric techniques of protease inhibitor from the medicinal plant Alocasia macrorrhizos as well as investigates their immunomodulatory properties and cell viability. The A. macrorrhizos tubers were subjected to protease inhibitor extractions and characterised using SDS-PAGE and MALDI-TOF. The protein extracts were assessed for activities trypsin inhibition stoichiometry, haemagglutinating, cell viability, NO and TNF-α production inhibition. Concerning the protease inhibitors analysis through SDS-PAGE, the results showed two bands with 11 and 24 kDa, and the MS analysis detected the ions more intense of m/z 4276.795 and 8563.361 in the roasted protein extract. The IC50 of trypsin inhibition was 0.119 and 0.302 mg L−1 in the roasted and crude tuber, respectively. The protease inhibitors extract from the roasted tubers showed a reduction in the production of NO and TNF-α at concentrations lower than 100 µg mL−1, without a reduction in cell viability. [ABSTRACT FROM AUTHOR]

Published

2024

13. DETERMINATION OF DARUNAVIR AND COBICISTAT SIMULTANEOUSLY USING RP-HPLC IN BULK AND DOSAGE FORM.

Author

Suchitra, Duddagi, Kumar, Konda Shravan, Bhargavi, Chalavadi Sudha, Spandana, Racha, Krishna, Puli Ramya, and Boggula, Narender

Subjects

HYDROCHLOROTHIAZIDE, HIGH performance liquid chromatography, DOSAGE forms of drugs, DARUNAVIR

Abstract

A new, simple, precise, rapid, selective and stability indicating Reversed-Phase High Performance Liquid Chromatographic (RP-HPLC) method has been developed and validated for the simultaneous quantification of darunavir and cobicistat in API and its pharmaceutical dosage form. The method is based on Phenomenex Gemini C18 (4.6 × 250mm) 5µ column. The separation is achieved using isocratic elution by methanol: TEA buffer in the ratio of 65:35 v/v, pumped at flow rate 1.0mL/min and UV detection at 230 nm. The column is maintained at 40°C throughout the analysis. The total run time is about 6 min. The method is validated for specificity, accuracy, precision and linearity, robustness and ruggedness, system suitability, limit of detection and limit of quantitation as per International Conference of Harmonization (ICH) guidelines. The method is accurate and linear for quantification of darunavir, cobicistat between 10-50 µg/ml and 20-100 µg/ml, respectively. Further, satisfactory results are also established in terms of mean percent-age recovery (100.37% for darunavir and 100.34% for cobicistat, intra-day and inter-day precision (<2%) and robustness. The advantages of this method are good resolution with sharper peaks and sufficient precision. The results indicate that the method is suitable for the routine quality control testing of marketed tablet formulations. The method developed was simple and economical that can be adopted in regular quality control test in industries. [ABSTRACT FROM AUTHOR]

Published

2024

14. SLPI deficiency alters airway protease activity and induces cell recruitment in a model of muco-obstructive lung disease.

Author

Brown, Ryan, Dougan, Caoifa, Ferris, Peter, Delaney, Rebecca, Houston, Claire J., Rodgers, Aoife, Downey, Damian G., Mall, Marcus A., Connolly, Bronwen, Small, Donna, Weldon, Sinéad, and Taggart, Clifford C.

Subjects

BASIC proteins, LEUCOCYTE elastase, PNEUMONIA, LUNG diseases, GENETIC transcription

Abstract

Secretory leukocyte protease inhibitor (SLPI) is an important cationic protein involved in innate airway immunityandhighlyexpressed inmucosal secretions, shownto target and inhibit neutrophil elastase (NE), cathepsinGand trypsinactivitytolimit proteolytic activity. Inaddition tothe potent anti-protease activity, SLPIhas beendemonstratedto exert a direct anti-inflammatory effect, which is mediated via increased inhibition and competitive binding of NF-kB, regulating immune responses through limiting transcription of pro-inflammatory gene targets. In muco-obstructive lung disorders, suchasChronicObstructivePulmonaryDisease(COPD)andCysticFibrosis (CF), there is an observed elevation in airway SLPI protein concentrations as a result of increased lung inflammation and disease progression. However, studies have identified COPD patients presenting with diminished SLPI concentrations. Furthermore, there is a decrease in SLPI concentrations through cleavage and subsequent inactivation by NE degradation in Pseudomonas aeruginosa infected people with CF (pwCF). These observations suggest reduced SLPI protein levels may contribute to the compromising of airway immunity indicating a potential role of decreased SLPI levels in the pathogenesis of muco-obstructive lung disease. The Beta Epithelial Na+ Channel transgenic (ENaC-Tg) mousemodel phenotype exhibits characteristics which replicate the pathological features observed in conditions such as COPD and CF, including mucus accumulation, alterations in airway morphology and increased pulmonary inflammation. To evaluate the effect of SLPI in muco-obstructive pulmonary disease, ENaC-Tg mice were crossed with SLPI knock-out (SLPI-/-) mice, generating a ENaC-Tg/SLPI-/- colony to further investigate the role of SLPI in chronic lung disease and determine the effect of its ablation on disease pathogenesis. [ABSTRACT FROM AUTHOR]

Published

2024

15. Cowpea lipid transfer protein 1 regulates plant defense by inhibiting the cysteine protease of cowpea mosaic virus.

Author

Jie Ji, Shengli Du, Kun Wang, Ziyan Qi, Chunyang Zhang, Rui Wang, Bruening, George, Pengwei Wang, Deqiang Duanmu, and Qiuling Fan

Subjects

*LIPID transfer protein, *SOYBEAN mosaic virus, *PROTEIN precursors, *CYSTEINE proteinase inhibitors, *COWPEA

Abstract

Many virus genomes encode proteases that facilitate infection. The molecular mechanism of plant recognition of viral proteases is largely unexplored. Using the system of Vigna unguiculata and cowpea mosaic virus (CPMV), we identified a cowpea lipid transfer protein (LTP1) which interacts with CPMV-encoded 24KPro, a cysteine protease, but not with the enzymatically inactive mutant 24KPro(C166A). Biochemical assays showed that LTP1 inhibited 24KPro proteolytic cleavage of the coat protein precursor large coat protein-small coat protein. Transient overexpression of LTP1 in cowpea reduced CPMV infection, whereas RNA interference-mediated LTP1 silencing increased CPMV accumulation in cowpea. LTP1 is mainly localized in the apoplast of uninfected plant cells, and after CPMV infection, most of the LTP1 is relocated to intracellular compartments, including chloroplast. Moreover, in stable LTP1-transgenic Nicotiana benthamiana plants, LTP1 repressed soybean mosaic virus (SMV) nuclear inclusion a protease activity, and accumulation of SMV was significantly reduced. We propose that cowpea LTP1 suppresses CPMV and SMV accumulation by directly inhibiting viral cysteine protease activity. [ABSTRACT FROM AUTHOR]

Published

2024

16. Lymphatic Uptake of a Highly Lipophilic Protease Inhibitor Prodrug from a Lipid-Based Formulation is Limited by Instability in the Intestine.

Author

Xie, Yining, Lu, Zijun, Styles, Ian K., Reddiar, Sanjeevini Babu, Phillips, Anthony R.J., Windsor, John A., Porter, Christopher J.H., Han, Sifei, and Trevaskis, Natalie L.

Subjects

*SPRAGUE Dawley rats, *ORAL drug administration, *DRUG accessibility, *PROTEASE inhibitors, *ACUTE diseases

Abstract

Dabigatran etexilate (DABE) is a lipophilic double alkyl ester prodrug of dabigatran (DAB) which is a serine protease inhibitor used clinically as an anticoagulant. Recently, translocation of serine protease enzymes, including trypsin, from the gut into the mesenteric lymph and then blood has been associated with organ failure in acute and critical illnesses (ACIs). Delivery of DABE into mesenteric lymph may thus be an effective strategy to prevent organ failure in ACIs. Most drugs access the mesenteric lymph in low quantities following oral administration, as they are rapidly transported away from the intestine via the blood. Here, we examine the potential to deliver DABE into the mesenteric lymph by promoting association with lymph lipid transport pathways via co-administration with a lipid-based formulation (LBF). A series of self-emulsifying LBFs were designed and tested in vitro for their potential to form stable DABE loaded emulsions and keep DABE solubilised and stable over time in simulated gastrointestinal conditions. The LBFs were found to form fine emulsions with a droplet size of 214 ± 30 nm and DABE was stable in the formulation. The stability of DABE in vitro in simulated intestinal conditions, plasma and lymph samples was also evaluated to ensure stability in collected samples and to evaluate whether the prodrug is likely to release active DAB. Ultimately, a highly uniform and stable self-emulsifying Type III A LBF of DABE was chosen for progression into in vivo studies in male Sprague Dawley rats to confirm the lymphatic uptake and plasma pharmacokinetics. Both in vitro and in vivo in plasma and lymph, DABE was rapidly converted to an intermediate and DAB. The main species present in vivo in both plasma and lymph was DAB and mass transport of DABE and DAB in lymph was minimal (∼0.5 % of dose). Importantly, the concentration of DABE in lymph was substantially (20–176 fold) higher than in plasma, supporting that if the prodrug were stable and did not convert to DAB in the intestine, it would be lymphatically transported. Future studies will therefore focus on optimizing the design of the prodrug and formulation to improve stability during absorption and further promote lymphatic uptake. [Display omitted] • Dabigatran etexilate (DABE) was formulated into a novel stable lipid-based formulation to enhance its lymphatic uptake. • The lipid-based formulation provided protection against degradation of DABE in simulated intestinal digestion conditions. • DABE showed some lymphatic uptake following intestinal administration in the lipid-based formulation but this appeared limited by intestinal instability of DABE. [ABSTRACT FROM AUTHOR]

Published

2024

17. Identification of the protease inhibitory domain of Trichinella spiralis novel cystatin (TsCstN).

Author

Yuthithum, Thassanee, Phuphisut, Orawan, Reamtong, Onrapak, Kosoltanapiwat, Nathamon, Chaimon, Salisa, Kobpornchai, Porntida, Thawornkuno, Charin, Malaithong, Preeyarat, Sawatdichaikul, Orathai, and Adisakwattana, Poom

Subjects

PROTEASE inhibitors, TRICHINELLA spiralis, CYSTATINS, LIPOPOLYSACCHARIDES, INFLAMMATION

Abstract

The Trichinella spiralis novel cystatin (TsCstN) inhibits cathepsin L (CatL) activity and inflammation of macrophages during lipopolysaccharide (LPS) induction. To identify the protease inhibitory region, this study applied an in silico modeling approach to simulate truncation sites of TsCstN (Ts01), which created four truncated forms, including TsCstNΔ1–39 (Ts02), TsCstNΔ1–71 (Ts03), TsCstNΔ1–20, Δ73–117 (Ts04), and TsCstNΔ1–20, Δ42–117 (Ts05). The superimposition of these truncates modeled with AlphaFold Colab indicated that their structures were more akin to Ts01 than those modeled with I-TASSER. Moreover, Ts04 exhibited the closest resemblance to the structure of Ts01. The recombinant Ts01 (rTs01) and truncated proteins (rTs02, rTs03, and rTs04) were successfully expressed in a prokaryotic expression system while Ts05 was synthesized, with sizes of approximately 14, 12, 8, 10, and 2.5 kDa, respectively. When determining the inhibition of CatL activity, both rTs01 and rTs04 effectively reduced CatL activity in vitro. Thus, the combination of the α1 and L1 regions may be sufficient to inhibit CatL. This study provides comprehensive insights into TsCstN, particularly regarding its protein function and inhibitory domains against CatL. [ABSTRACT FROM AUTHOR]

Published

2024

18. Effect and mechanism of protease inhibitor oprozomib on doxorubicin sensitivity of hepatocellular carcinoma cells

Author

Feng Qi, Sheng Zheng, Lu Hou, XinNian Fu, XinXin Wang, ZhiPeng Fu, and Juan Yang

Subjects

doxorubicin, hepatocellular carcinoma, drug resistance, protease inhibitor, oprozomib, proapoptotic gene, Pharmacy and materia medica, RS1-441

Abstract

This study was to examine the impact of Oprozomib (OPZ), an oral second-generation proteasome inhibitor, on the sensitivity of hepatocellular carcinoma (HCC) cells to doxorubicin (DOX), a commonly used chemotherapy drug for the treatment of HCC. HCC cells were incubated with OPZ or DOX. Cell proliferation was assessed using MTT and colony formation assay, while cell migration and invasion were evaluated using scratch assay and Transwell assay. Cell apoptosis was measured using flow cytometry, and apoptosis-related molecules were determined through Western blot analysis. The proliferation, migration, and invasion of HCC cells were effectively suppressed by OPZ in a dose-dependent manner. This inhibition was achieved through the upregulation of pro-apoptotic genes, resulting in the promotion of apoptosis. Furthermore, OPZ significantly augmented the cytotoxicity and apoptosis induced by DOX. OPZ alone can effectively inhibit cell proliferation and induce apoptosis. OPZ can enhance DOX sensitivity and cellular apoptosis.

Published

2024

19. Characterization of novel extracellular proteases produced by Acanthamoeba castellanii after contact with human corneal epithelial cells and their relevance to pathogenesis

Author

Alvie Loufouma-Mbouaka, Tania Martín-Pérez, Martina Köhsler, Zeynep Danisman, Maya Schwarz, Rounik Mazumdar, Ascel Samba-Louaka, and Julia Walochnik

Subjects

Acanthamoeba, Human corneal epithelial cells, Host‐pathogen interaction, Serine protease, Metalloproteinase, Protease inhibitor, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Background Proteases produced by Acanthamoeba spp. play an important role in their virulence and may be the key to understanding Acanthamoeba pathogenesis; thus, increasing attention has been directed towards these proteins. The present study aimed to investigate the lytic factors produced by Acanthamoeba castellanii during the first hours of in vitro co-culture with human corneal epithelial cells (HCECs). Methods We used one old and one recent Acanthamoeba isolate, both from patients with severe keratitis, and subsets of these strains with enhanced pathogenic potential induced by sequential passaging over HCEC monolayers. The proteolytic profiles of all strains and substrains were examined using 1D in-gel zymography. Results We observed the activity of additional proteases (ranging from 33 to 50 kDa) during the early interaction phase between amoebae and HCECs, which were only expressed for a short time. Based on their susceptibilities to protease inhibitors, these proteases were characterized as serine proteases. Protease activities showed a sharp decline after 4 h of co-incubation. Interestingly, the expression of Acanthamoeba mannose-binding protein did not differ between amoebae in monoculture and those in co-culture. Moreover, we observed the activation of matrix metalloproteinases in HCECs after contact with Acanthamoeba. Conclusions This study revealed the involvement of two novel serine proteases in Acanthamoeba pathogenesis and suggests a pivotal role of serine proteases during Acanthamoeba-host cell interaction, contributing to cell adhesion and lysis. Graphical Abstract

Published

2024

20. Pharmacologic inhibition of dipeptidyl peptidase 1 (cathepsin C) does not block in vitro granzyme-mediated target cell killing by CD8 T or NK cells.

Author

Sutton, Vivien R., Watt, Sally V., Akhlaghi, Hedieh, Cipolla, David C., Kuan-Ju Chen, LaSala, Daniel, McDonald, Patrick P., Beavis, Paul A., Munoz, Isabelle, Hodel, Adrian W., Noori, Tahereh, Voskoboinik, Ilia, and Trapani, Joseph A.

Subjects

GRANZYMES, KILLER cells, ELASTASES, T cells, CYTOTOXIC T cells, LEUCOCYTE elastase, PEPTIDASE

Abstract

Recently developed small-molecule inhibitors of the lysosomal protease dipeptidyl peptidase 1 (DPP1), also known as cathepsin C (CatC), can suppress suppurative inflammation in vivo by blocking the processing of zymogenic (pro-) forms of neutrophil serine proteases (NSPs), including neutrophil elastase, proteinase 3, and cathepsin G. DPP1 also plays an important role in activating granzyme serine proteases that are expressed by cytotoxic T lymphocytes (CTL) and natural killer (NK) cells. Therefore, it is critical to determine whether DPP1 inhibition can also cause off-target suppression of CTL/NK-cellmediated killing of virus-infected or malignant cells. Herein, we demonstrate that the processing of human granzymes A and B, transitioning from zymogen to active proteases, is not solely dependent on DPP1. Thus, the killing of target cells by primary human CD8+ T cells, NK cells, and gene-engineered anti-CD19 CAR T cells was not blocked in vitro even after prior exposure to high concentrations of the reversible DPP1 inhibitor brensocatib. Consistent with this observation, the turnover of model granzyme A/B peptide substrates in the human CTL/NK cell lysates was not significantly reduced by brensocatib. In contrast, preincubation with brensocatib almost entirely abolished (>90%) both the cytotoxic activity of mouse CD8+ T cells and granzyme substrate turnover. Overall, our finding that the effects of DPP1 inhibition on human cytotoxic lymphocytes are attenuated in comparison to those of mice indicates that granzyme processing/activation pathways differ between mice and humans. Moreover, the in vitro data suggest that human subjects treated with reversible DPP1 inhibitors, such as brensocatib, are unlikely to experience any appreciable deficits in CTL/NK-cellmediated immunities. [ABSTRACT FROM AUTHOR]

Published

2024

21. 针对人类免疫缺陷病毒结构蛋白 Gag-Pol的抑制剂及其 作用机制研究进展.

Author

黄国锋, 李聪宜, 王 虹, and 张文艳

Subjects

*REVERSE transcriptase inhibitors, *BASIC proteins, *SCAFFOLD proteins, *HIV, *CYTOSKELETAL proteins, *INTEGRASE inhibitors

Abstract

Gag-Pol protein is one of the important structural proteins of human immunodeficiency virus (HIV), comprising the basic scaffold proteins and functional enzymes required during the lifecycle of HIV. Currently, the inhibitors targeting different functional domains on Gag-Pol include capsid (CA) inhibitors, protease inhibitors, reverse transcriptase inhibitors, and integrase inhibitors. The CA inhibitors inhibit the maturation of CA or disrupt the assembly of CA, so as to affect the replication of HIV. The primary mechanism of protease inhibitors is to inhibit the protease from cleaving at the cleavage site CA-spacer peptide 1 (SP1). The reverse transcriptase inhibitors block the reverse transcription process of HIV by mimicking the reverse transcription substrates. The integrase inhibitors impact the activity of integrase by targeting the zinc-finger structure at the active center of integrase. This article summarizes the inhibitors targeting HIV Gag-Pol protein and their mechanisms, and reviews the approved dosages and usages of approved patent drugs, so as to provide the references for the future clinical combination therapies and the development of new inhibitors targeting HIV Gag-Pol protein. [ABSTRACT FROM AUTHOR]

Published

2024

22. Full-Spectrum Surveillance of Pre-Treatment HIV Drug Resistance in Southeastern China.

Author

Zhang, Jiafeng, Sun, Baochang, Sheng, Zihang, Ding, Xiaobei, Fan, Qin, Huang, Gang, Guo, Zhihong, Zhong, Ping, Liao, Lingjie, Xing, Hui, Xia, Yan, Chai, Chengliang, and Jiang, Jianmin

Subjects

*NUCLEOSIDE reverse transcriptase inhibitors, *NON-nucleoside reverse transcriptase inhibitors, *REVERSE transcriptase inhibitors, *ANTI-HIV agents, *ANTIRETROVIRAL agents, *INTEGRASE inhibitors, *REVERSE transcriptase

Abstract

HIV drug resistance compromises the ability of anti-retroviral therapy (ART) to suppress viral replication, resulting in treatment failure. This study investigates the prevalence of pre-treatment drug resistance (PDR) in newly diagnosed individuals in a prosperous city (Wenzhou) in Southeastern China. A cross-sectional investigation was carried out among 473 newly diagnosed ART-naive HIV-1-infected individuals between January and December 2022. The protease–reverse transcriptase (PR-RT) region and integrase (IN) region of HIV-1 were amplified by two separately nested PCRs, followed by sequencing. Drug resistance mutations (DRMs) and drug resistance to nucleoside reverse transcriptase inhibitors (NRTIs), non-nucleoside reverse transcriptase inhibitors (NNRTIs), protease inhibitors (PIs) and integrase strand transfer inhibitors (INSTIs) were analyzed. The PDR prevalence was 6.5% [95% CI: 4.4–9.1] for any anti-retroviral drug, 0.9% [95% CI: 0.3–2.3] for NRTIs, 4.1% [95% CI: 2.5–6.5] for NNRTIs, 1.8% [95% CI: 0.8–3.6] for PIs and 0.5% [95% CI: 0.1–1.8] for INSTIs. According to the subtyping results of the PR-RT region, 11 different subtypes and 31 unique recombinant forms (URFs) were found. CRF07_BC was the dominant subtype (53.7%, 233/434), followed by CRF01_AE (25.3%, 110/434). V179D (1.6%) and K103N (1.4%) were the most predominant types of NNRTI DRMs. Q58E (1.2%) and M184V (0.7%) were the most frequent PI DRMs and NRTI DRMs, respectively. The INSTI-related DRMs Y143S (causes high-level resistance to RAL) and G163K (causes low-level resistance to EVG and RAL) were found in one patient each. Given the relatively high PDR prevalence of NNRTI (4.1%), non-NNRTI-based ART may be preferred in the future. It is recommended to include genotypic resistance testing before starting ART in regions where feasible. [ABSTRACT FROM AUTHOR]

Published

2024

23. Large Libraries of Structurally Diverse Macrocycles Suitable for Membrane Permeation.

Author

Nielsen, Alexander L., Bognar, Zsolt, Mothukuri, Ganesh K., Zarda, Anne, Schüttel, Mischa, Merz, Manuel L., Ji, Xinjian, Will, Edward J., Chinellato, Monica, Bartling, Christian R. O., Strømgaard, Kristian, Cendron, Laura, Angelini, Alessandro, and Heinis, Christian

Subjects

*THROMBIN receptors, *CYCLIC peptides, *MOLECULAR size, *COMBINATORIAL chemistry, *SULFHYDRYL group, *PEPTIDES, *MACROCYCLIC compounds

Abstract

Macrocycles offer an attractive format for drug development due to their good binding properties and potential to cross cell membranes. To efficiently identify macrocyclic ligands for new targets, methods for the synthesis and screening of large combinatorial libraries of small cyclic peptides were developed, many of them using thiol groups for efficient peptide macrocyclization. However, a weakness of these libraries is that invariant thiol‐containing building blocks such as cysteine are used, resulting in a region that does not contribute to library diversity but increases molecule size. Herein, we synthesized a series of structurally diverse thiol‐containing elements and used them for the combinatorial synthesis of a 2,688‐member library of small, structurally diverse peptidic macrocycles with unprecedented skeletal complexity. We then used this library to discover potent thrombin and plasma kallikrein inhibitors, some also demonstrating favorable membrane permeability. X‐ray structure analysis of macrocycle‐target complexes showed that the size and shape of the newly developed thiol elements are key for binding. The strategy and library format presented in this work significantly enhance structural diversity by allowing combinatorial modifications to a previously invariant region of peptide macrocycles, which may be broadly applied in the development of membrane permeable therapeutics. [ABSTRACT FROM AUTHOR]

Published

2024

24. Premature Activation of the HIV-1 Protease Is Influenced by Polymorphisms in the Hinge Region.

Author

Tabler, Caroline O., Wegman, Sarah J., Alhusaini, Najwa, Lee, Nicole F., and Tilton, John C.

Subjects

*HIV, *HINGES, *DRUG resistance, *PROTEASE inhibitors, *PROTEOLYTIC enzymes, *ANTIRETROVIRAL agents

Abstract

HIV-1 protease inhibitors are an essential component of antiretroviral therapy. However, drug resistance is a pervasive issue motivating a persistent search for novel therapies. Recent reports found that when protease activates within the host cell's cytosol, it facilitates the pyroptotic killing of infected cells. This has led to speculation that promoting protease activation, rather than inhibiting it, could help to eradicate infected cells and potentially cure HIV-1 infection. Here, we used a nanoscale flow cytometry-based assay to characterize protease resistance mutations and polymorphisms. We quantified protease activity, viral concentration, and premature protease activation and confirmed previous findings that major resistance mutations generally destabilize the protease structure. Intriguingly, we found evidence that common polymorphisms in the hinge domain of protease can influence its susceptibility to premature activation. This suggests that viral heterogeneity could pose a considerable challenge for therapeutic strategies aimed at inducing premature protease activation in the future. [ABSTRACT FROM AUTHOR]

Published

2024

25. Proteomic Analysis of HepG2 Cells Reveals FAT10 and BAG2 Signaling Pathways Affected by a Protease Inhibitor from Tinospora cordifolia (Willd.) Hook. f. and Thoms Stem. Extract Among the Different Plant and Microbial Samples Analyzed.

Author

CHOUGULE, Bramhi Suresh, GAURAV, Kumar, KUMAR, Mutthu, MAHADEVAPRASAD, Nayana, KRISHNA, Nisarga Hosahalli, PONNADA, Sreya Lakshmi, DERANGULA, Somasekhara, and NADUMANE, Varalakshmi Kilingar

Subjects

*TINOSPORA cordifolia, *PROTEASE inhibitors, *CELLULAR signal transduction, *PROTEOMICS, *PROTEOLYTIC enzymes, *CASEINS, *CELL analysis

Abstract

Objectives: Dysregulation of proteolysis underlies diseases like cancer. Protease inhibitors (PIs) regulate many biological functions and hence have potential anticancer properties. With this background, the current study aimed to identify the PI from natural sources such as plants and microbes against trypsin (a protease), which was assayed against casein, using an ultraviolet spectrophotometer-based methodology. Materials and Methods: PI extracted from a few plants and microbial samples were screened for their PI activity against trypsin. The PI from the most promising source in our study, Tinospora cordifolia (Willd.) Hook. f. and Thoms. stem, was partially purified using ammonium sulfate precipitation followed by dialysis. The PI activity of the partially purified inhibitor was analyzed against chymotrypsin and collagenase enzymes, and the cytotoxic effect of the PI was checked on HepG2 (liver carcinoma) cells by MTT-[3-(4, 5-dimethylthiazol-2-yl)-2, 5-diphenyltetrazolium bromide]-assay. Liquid Chromatograography Mass Spectrometry-based proteomic studies were performed on HepG2 cells to understand the signaling pathways affected by the PIs in the liver cancer cell line. Results: Among the samples tested the PIs from T. cordifolia stem extract had the highest inhibitory activity (72.0%) against trypsin along with cytotoxicity to HepG2 cells. After partial purification by 80.0% ammonium sulfate precipitation, PI had increased inhibitory activity (83.0%) against trypsin and enhanced cytotoxicity (47.0%) to HepG2 cells. Proteomic analysis of the PI-treated HepG2 cells revealed that BAG2 and FAT10 signaling pathways were affected, which may have caused the inhibition of cancer cell proliferation. Conclusion: PI from T. cordifolia stem has promising anticancer potential and hence can be used for further purification and characterization studies toward cancer drug development. [ABSTRACT FROM AUTHOR]

Published

2024

26. 大 豆 抗 营 养 因 子 、病 毒 和 激 素 的 蛋 白 酶 活 性.

Author

丁宏标

Abstract

The protease inhibitors in soy protein, such as trypsin inhibitor and soy antigen protein, and the endogenous hydrolytic enzymes, protease A1 and peptidase, involved in soybean germination, are the same substance. When the anti trypsin inhibitor met pepsin and trypsin in the gastrointestinal tract, its proteolytic enzyme activity is higher, its digestive resistance is better, and it can degrade pepsin and tryp‐ sin instead of being degraded by them. The capsid protein of a virus is a protease. After binding with the membrane protein, the capsid protein degrades the membrane protein, causing damage to cell integrity and initiating the endocytosis mechanism, or make a crack in the cell membrane. The destroyed membrane protein, including the virus, is internalized together to form intracellular vesicles, initiating the virus infection mechanism. The species specificity of viral infection is mainly determined by the difference in replication efficiency of viral DNA nucleic acids in different animal and plant species, by the homology between nucleic acids and infected host DNA, and by the efficiency of viral replication in the host cell nucleus. Immune response does not exist, antibodies are tissue repair proteins. This article presents some insights into nutritional physiology and preventive medicine. [ABSTRACT FROM AUTHOR]

Published

2024

27. Identification and Characterization of a Trypsin Inhibitor from Fagopyrum tataricumSeeds.

Author

Ruan, Jing-Jun, Zhou, Mei-Liang, Chen, Hui, and Shao, Ji-Rong

Abstract

This study was aimed at investigating the purification and identification of serine protease inhibitors, F. tataricum trypsin inhibitor (FtTI) from tartary buckwheat (Fagopyrum tataricum) seeds. The FtTI was isolated by anion exchange chromatography, affinity chromatography, and centrifugal ultrafiltration. Under reducing and nonreducing conditions, an SDS-PAGE analysis showed that the isolated protein consists of a single polypeptide chain with a molecular mass of approximately 14 kDa. The two isoforms of FtTI were confirmed by the mass spectrometric profile where the two peaks corresponded to 11.487 and 13.838 kDa. The complete amino acid sequence of FtTI has been established by automatic Edman degradation and mass spectrometry. The molecule of FtTI consists of 86 amino acid residues containing two disulfide bonds which connect Cys8 to Cys65 and Cys49 to Cys58. The active site of FtTI contains an Asp66–Arg67 bond. The Ki value was calculated using the equation for slow tight binding inhibition which was 1.6 nM for trypsin. FtTI retained its inhibitory activity over a wide range of pH (3–10) and temperature (20–80 °C). FtTI can be rapidly inactivated by the combination of high temperature and high pressure. An analysis of the amino acid sequence suggests that FtTI is a member of the protease inhibitor Ι family. Furthermore, FtTI exhibited a strong inhibitory activity against phytopathogenic fungi. [ABSTRACT FROM AUTHOR]

Published

2024

28. Synthesis, characterisation and in vitro anticancer activity of conjugated protease inhibitor–silver nanoparticles (AgNPs–PI) against human breast MCF-7 and prostate PC-3 cancer cell lines.

Author

Marathe, Kiran, Naik, Jitendra, and Maheshwari, Vijay

Abstract

The conjugated silver nanoparticles using biomolecules have attracted great attention of researchers because physical dimensions and surface chemistry play important roles in toxicity and biocompatibility of AgNPs. Hence, in the current study, synthesis of bio-conjugated AgNPs with protein protease inhibitor (PI) isolated from Streptomyces spp. is reported. UV–visible spectra of PI and AgNPs showed stronger peaks at 280 and 405 nm, confirming the synthesis of conjugated AgNPs–PI. TEM and SEM images of AgNPs–PI showed spherical-shaped nanoparticles with a slight increase in particle size and thin amorphous layer around the surface of silver nanomaterial. Circular dichroism, FT-IR and fluorescence spectral studies confirmed AgNPs–PI conjugation. Conjugated AgNPs–PI showed excellent anticancer potential than AgNPs and protease inhibitor separately on human breast MCF-7 and prostate PC-3 cell lines. The findings revealed that surface modification of AgNPs with protein protease inhibitor stabilised the nanomaterial and increased its anticancer activity. [ABSTRACT FROM AUTHOR]

Published

2024

29. Alpha-1-Antitrypsin-Mangel.

Author

Fähndrich, Sebastian and Bals, Robert

Abstract

Copyright of Innere Medizin (2731-7080) is the property of Springer Nature and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

30. Characterization of novel extracellular proteases produced by Acanthamoeba castellanii after contact with human corneal epithelial cells and their relevance to pathogenesis.

Author

Loufouma-Mbouaka, Alvie, Martín-Pérez, Tania, Köhsler, Martina, Danisman, Zeynep, Schwarz, Maya, Mazumdar, Rounik, Samba-Louaka, Ascel, and Walochnik, Julia

Subjects

*ACANTHAMOEBA castellanii, *EPITHELIAL cells, *MANNOSE-binding lectins, *MATRIX metalloproteinases, *SERINE proteinases, *PROTEOLYTIC enzymes

Abstract

Background: Proteases produced by Acanthamoeba spp. play an important role in their virulence and may be the key to understanding Acanthamoeba pathogenesis; thus, increasing attention has been directed towards these proteins. The present study aimed to investigate the lytic factors produced by Acanthamoeba castellanii during the first hours of in vitro co-culture with human corneal epithelial cells (HCECs). Methods: We used one old and one recent Acanthamoeba isolate, both from patients with severe keratitis, and subsets of these strains with enhanced pathogenic potential induced by sequential passaging over HCEC monolayers. The proteolytic profiles of all strains and substrains were examined using 1D in-gel zymography. Results: We observed the activity of additional proteases (ranging from 33 to 50 kDa) during the early interaction phase between amoebae and HCECs, which were only expressed for a short time. Based on their susceptibilities to protease inhibitors, these proteases were characterized as serine proteases. Protease activities showed a sharp decline after 4 h of co-incubation. Interestingly, the expression of Acanthamoeba mannose-binding protein did not differ between amoebae in monoculture and those in co-culture. Moreover, we observed the activation of matrix metalloproteinases in HCECs after contact with Acanthamoeba. Conclusions: This study revealed the involvement of two novel serine proteases in Acanthamoeba pathogenesis and suggests a pivotal role of serine proteases during Acanthamoeba-host cell interaction, contributing to cell adhesion and lysis. [ABSTRACT FROM AUTHOR]

Published

2024

31. Efficacy of host cell serine protease inhibitor MM3122 against SARS-CoV-2 for treatment and prevention of COVID-19.

Author

Boon, Adrianus C. M., Bricker, Traci L., Fritch, Ethan J., Leist, Sarah R., Gully, Kendra, Baric, Ralph S., Graham, Rachel L., Troan, Brigid V., Mahoney, Matthew, and Janetka, James W.

Subjects

*SERINE proteinase inhibitors, *COVID-19 treatment, *SARS-CoV-2, *PROTEASE inhibitors, *COVID-19, *SERINE proteinases

Abstract

We developed a novel class of peptidomimetic inhibitors targeting several host cell human serine proteases, including transmembrane protease serine 2 (TMPRSS2), matriptase, and hepsin. TMPRSS2 is a membrane-associated protease that is highly expressed in the upper and lower respiratory tracts and is utilized by SARS-CoV-2 and other viruses to proteolytically process their glycoproteins, enabling host cell entry, replication, and dissemination of new virus particles. We have previously shown that compound MM3122 exhibited subnanomolar potency against all three proteases and displayed potent antiviral effects against SARS-CoV-2 in a cell viability assay. Herein, we demonstrate that MM3122 potently inhibits viral replication in human lung epithelial cells and is also effective against the EG.5.1 variant of SARS-CoV-2. Furthermore, we evaluated MM3122 in a mouse model of COVID-19 and demonstrated that MM3122 administered intraperitoneally (IP) before (prophylactic) or after (therapeutic) SARSCoV- 2 infection had significant protective effects against weight loss and lung congestion and reduced pathology. Amelioration of COVID-19 disease was associated with a reduction in proinflammatory cytokine and chemokine production after SARS-CoV-2 infection. Prophylactic, but not therapeutic, administration of MM3122 also reduced virus titers in the lungs of SARS-CoV-2-infected mice. Therefore, MM3122 is a promising lead candidate small-molecule drug for the treatment and prevention of infections caused by SARS-CoV-2 and other coronaviruses. [ABSTRACT FROM AUTHOR]

Published

2024

32. SARS-CoV-2 replication and drug discovery

Author

Farah Nazir, Arnaud John Kombe Kombe, Zunera Khalid, Shaheen Bibi, Hongliang Zhang, Songquan Wu, and Tengchuan Jin

Subjects

SARS-CoV-2, COVID-19, Protease inhibitor, 3C-like protease (3CLpro), Main protease (Mpro), RNA-Dependent RNA-Polymerase (RdRp), Biology (General), QH301-705.5, Medicine

Abstract

The coronavirus disease 2019 (COVID-19) caused by the severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) has killed millions of people and continues to wreak havoc across the globe. This sudden and deadly pandemic emphasizes the necessity for anti-viral drug development that can be rapidly administered to reduce morbidity, mortality, and virus propagation. Thus, lacking efficient anti-COVID-19 treatment, and especially given the lengthy drug development process as well as the critical death tool that has been associated with SARS-CoV-2 since its outbreak, drug repurposing (or repositioning) constitutes so far, the ideal and ready-to-go best approach in mitigating viral spread, containing the infection, and reducing the COVID-19-associated death rate. Indeed, based on the molecular similarity approach of SARS-CoV-2 with previous coronaviruses (CoVs), repurposed drugs have been reported to hamper SARS-CoV-2 replication. Therefore, understanding the inhibition mechanisms of viral replication by repurposed anti-viral drugs and chemicals known to block CoV and SARS-CoV-2 multiplication is crucial, and it opens the way for particular treatment options and COVID-19 therapeutics. In this review, we highlighted molecular basics underlying drug-repurposing strategies against SARS-CoV-2. Notably, we discussed inhibition mechanisms of viral replication, involving and including inhibition of SARS-CoV-2 proteases (3C-like protease, 3CLpro or Papain-like protease, PLpro) by protease inhibitors such as Carmofur, Ebselen, and GRL017, polymerases (RNA-dependent RNA-polymerase, RdRp) by drugs like Suramin, Remdesivir, or Favipiravir, and proteins/peptides inhibiting virus-cell fusion and host cell replication pathways, such as Disulfiram, GC376, and Molnupiravir. When applicable, comparisons with SARS-CoV inhibitors approved for clinical use were made to provide further insights to understand molecular basics in inhibiting SARS-CoV-2 replication and draw conclusions for future drug discovery research.

Published

2024

33. SLPI deficiency alters airway protease activity and induces cell recruitment in a model of muco-obstructive lung disease

Author

Ryan Brown, Caoifa Dougan, Peter Ferris, Rebecca Delaney, Claire J. Houston, Aoife Rodgers, Damian G. Downey, Marcus A. Mall, Bronwen Connolly, Donna Small, Sinéad Weldon, and Clifford C. Taggart

Subjects

respiratory, protease, protease inhibitor, inflammation, chronic disease, Immunologic diseases. Allergy, RC581-607

Abstract

Secretory leukocyte protease inhibitor (SLPI) is an important cationic protein involved in innate airway immunity and highly expressed in mucosal secretions, shown to target and inhibit neutrophil elastase (NE), cathepsin G and trypsin activity to limit proteolytic activity. In addition to the potent anti-protease activity, SLPI has been demonstrated to exert a direct anti-inflammatory effect, which is mediated via increased inhibition and competitive binding of NF-κB, regulating immune responses through limiting transcription of pro-inflammatory gene targets. In muco-obstructive lung disorders, such as Chronic Obstructive Pulmonary Disease (COPD) and Cystic Fibrosis (CF), there is an observed elevation in airway SLPI protein concentrations as a result of increased lung inflammation and disease progression. However, studies have identified COPD patients presenting with diminished SLPI concentrations. Furthermore, there is a decrease in SLPI concentrations through cleavage and subsequent inactivation by NE degradation in Pseudomonas aeruginosa infected people with CF (pwCF). These observations suggest reduced SLPI protein levels may contribute to the compromising of airway immunity indicating a potential role of decreased SLPI levels in the pathogenesis of muco-obstructive lung disease. The Beta Epithelial Na+ Channel transgenic (ENaC-Tg) mouse model phenotype exhibits characteristics which replicate the pathological features observed in conditions such as COPD and CF, including mucus accumulation, alterations in airway morphology and increased pulmonary inflammation. To evaluate the effect of SLPI in muco-obstructive pulmonary disease, ENaC-Tg mice were crossed with SLPI knock-out (SLPI-/-) mice, generating a ENaC-Tg/SLPI-/- colony to further investigate the role of SLPI in chronic lung disease and determine the effect of its ablation on disease pathogenesis.

Published

2024

34. Exploring Niclosamide as a Multi-target Drug Against SARS-CoV-2: Molecular Dynamics Simulation Studies on Host and Viral Proteins

Author

Jagtap, Prachi, Meena, Virendra Kumar, Sambhare, Susmit, Basu, Atanu, Abraham, Priya, and Cherian, Sarah

Published

2024

35. A Gaussia luciferase reporter assay for the evaluation of coronavirus Nsp5/3CLpro activity

Author

Vlachou, Asimenia, Nchioua, Rayhane, Regensburger, Kerstin, Kirchhoff, Frank, and Kmiec, Dorota

Published

2024

36. Probing of the reactive center loop region of alpha-1-antitrypsin by mutagenesis predicts new type-2 dysfunctional variants

Author

Denardo, Andrea, Ben Khlifa, Emna, Bignotti, Mattia, Giuliani, Roberta, D’Acunto, Emanuela, Miranda, Elena, Irving, James A., and Fra, Annamaria

Published

2024

37. Proof-of-concept studies with a computationally designed Mpro inhibitor as a synergistic combination regimen alternative to Paxlovid.

Author

Papini, Christina, Ullah, Irfan, Ranjan, Amalendu P., Shuo Zhang, Qihao Wu, Spasov, Krasimir A., Chunhui Zhang, Mothes, Walther, Crawford, Jason M., Lindenbach, Brett D., Uchil, Pradeep D., Kumar, Priti, Jorgensen, William L., and Anderson, Karen S.

Subjects

*COVID-19 treatment, *IMMUNOCOMPROMISED patients, *PROOF of concept, *LEAD compounds, *ANTIVIRAL agents, *DRUG interactions, *FIREPROOFING agents

Abstract

As the SARS-CoV-2 virus continues to spread and mutate, it remains important to focus not only on preventing spread through vaccination but also on treating infection with direct-acting antivirals (DAA). The approval of Paxlovid, a SARS-CoV-2 main protease (Mpro) DAA, has been significant for treatment of patients. A limitation of this DAA, however, is that the antiviral component, nirmatrelvir, is rapidly metabolized and requires inclusion of a CYP450 3A4 metabolic inhibitor, ritonavir, to boost levels of the active drug. Serious drug-drug interactions can occur with Paxlovid for patients who are also taking other medications metabolized by CYP4503A4, particularly transplant or otherwise immunocompromised patients who are most at risk for SARS-CoV-2 infection and the development of severe symptoms. Developing an alternative antiviral with improved pharmacological properties is critical for treatment of these patients. By using a computational and structure-guided approach, we were able to optimize a 100 to 250 µM screening hit to a potent nanomolar inhibitor and lead compound, Mpro61. In this study, we further evaluate Mpro61 as a lead compound, starting with examination of its mode of binding to SARS-CoV-2 Mpro. In vitro pharmacological profiling established a lack of off-target effects, particularly CYP450 3A4 inhibition, as well as potential for synergy with the currently approved alternate antiviral, molnupiravir. Development and subsequent testing of a capsule formulation for oral dosing of Mpro61 in B6-K18-hACE2 mice demonstrated favorable pharmacological properties, efficacy, and synergy with molnupiravir, and complete recovery from subsequent challenge by SARS-CoV-2, establishing Mpro61 as a promising potential preclinical candidate. [ABSTRACT FROM AUTHOR]

Published

2024

38. Changes in Internal Structure and Dynamics upon Binding Stabilise the Nematode Anticoagulant NAPc2.

Author

Woodward, Elaine and Duggan, Brendan M.

Subjects

*BLOOD coagulation, *ANTICOAGULANTS, *BLOOD coagulation factors, *MOLECULAR dynamics, *NEMATODES, *BLOOD coagulation disorders

Abstract

Abnormal blood coagulation is a major health problem and natural anticoagulants from blood-feeding organisms have been investigated as novel therapeutics. NAPc2, a potent nematode-derived inhibitor of coagulation, has an unusual mode of action that requires coagulation factor Xa but does not inhibit it. Molecular dynamics simulations of NAPc2 and factor Xa were generated to better understand NAPc2. The simulations suggest that parts of NAPc2 become more rigid upon binding factor Xa and reveal that two highly conserved residues form an internal salt bridge that stabilises the bound conformation. Clotting time assays with mutants confirmed the utility of the salt bridge and suggested that it is a conserved mechanism for stabilising the bound conformation of secondary structure-poor protease inhibitors. [ABSTRACT FROM AUTHOR]

Published

2024

39. A Novel Trypsin Kunitz-Type Inhibitor from Cajanus cajan Leaves and Its Inhibitory Activity on New Cancer Serine Proteases and Its Effect on Tumor Cell Growth.

Author

Teixeira, Erika Maria Gomes Ferreira, Kalume, Dario Eluam, Ferreira, Patrícia Fernandes, Alves, Thayane Aparecida, Fontão, Ana Paula G. A., Sampaio, André Luís Franco, de Oliveira, Danilo Ribeiro, Morgado-Díaz, José Andrés, and Silva-López, Raquel Elisa

Subjects

*SERINE proteinases, *PIGEON pea, *TRYPSIN inhibitors, *CELL growth, *TRYPSIN, *TUMOR growth, *PROTEOLYTIC enzymes

Abstract

A novel trypsin inhibitor from Cajanus cajan (TIC) fresh leaves was partially purified by affinity chromatography. SDS-PAGE revealed one band with about 15 kDa with expressive trypsin inhibitor activity by zymography. TIC showed high affinity for trypsin (Ki = 1.617 μM) and was a competitive inhibitor for this serine protease. TIC activity was maintained after 24 h of treatment at 70 °C, after 1 h treatments with different pH values, and β-mercaptoethanol increasing concentrations, and demonstrated expressive structural stability. However, the activity of TIC was affected in the presence of oxidizing agents. In order to study the effect of TIC on secreted serine proteases, as well as on the cell culture growth curve, SK-MEL-28 metastatic human melanoma cell line and CaCo-2 colon adenocarcinoma was grown in supplemented DMEM, and the extracellular fractions were submitted salting out and affinity chromatography to obtain new secreted serine proteases. TIC inhibited almost completely, 96 to 89%, the activity of these serine proteases and reduced the melanoma and colon adenocarcinoma cells growth of 48 and 77% respectively. Besides, it is the first time that a trypsin inhibitor was isolated and characterized from C. cajan leaves and cancer serine proteases were isolated and partial characterized from SK-MEL-28 and CaCo-2 cancer cell lines. Furthermore, TIC shown to be potent inhibitor of tumor protease affecting cell growth, and can be one potential drug candidate to be employed in chemotherapy of melanoma and colon adenocarcinoma. [ABSTRACT FROM AUTHOR]

Published

2024

40. Novel high-yield potato protease inhibitor panels block a wide array of proteases involved in viral infection and crucial tissue damage.

Author

Visser, Nienke, Herreman, Laure C. M., Vandooren, Jennifer, Pereira, Rafaela Vaz Sousa, Opdenakker, Ghislain, Spelbrink, Robin E. J., Wilbrink, Maarten H., Bremer, Edwin, Gosens, Reinoud, Nawijn, Martijn C., van der Ende-Metselaar, Heidi H., Smit, Jolanda M., Laus, Marc C., and Laman, Jon D.

Subjects

*VIRUS diseases, *CELL receptors, *PROTEASE inhibitors, *PROTEOLYTIC enzymes, *PROTEOLYSIS, *SOLANUM

Abstract

Viruses critically rely on various proteases to ensure host cell entry and replication. In response to viral infection, the host will induce acute tissue inflammation pulled by granulocytes. Upon hyperactivation, neutrophil granulocytes may cause undue tissue damage through proteolytic degradation of the extracellular matrix. Here, we assess the potential of protease inhibitors (PI) derived from potatoes in inhibiting viral infection and reducing tissue damage. The original full spectrum of potato PI was developed into five fractions by means of chromatography and hydrolysis. Individual fractions showed varying inhibitory efficacy towards a panel of proteases including trypsin, chymotrypsin, ACE2, elastase, and cathepsins B and L. The fractions did not interfere with SARS-CoV-2 infection of Vero E6 cells in vitro. Importantly, two of the fractions fully inhibited elastin-degrading activity of complete primary human neutrophil degranulate. These data warrant further development of potato PI fractions for biomedical purposes, including tissue damage crucial to SARS-CoV-2 pathogenesis. Key messages: Protease inhibitor fractions from potato differentially inhibit a series of human proteases involved in viral replication and in tissue damage by overshoot inflammation. Protease inhibition of cell surface receptors such as ACE2 does not prevent virus infection of Vero cells in vitro. Protease inhibitors derived from potato can fully inhibit elastin-degrading primary human neutrophil proteases. Protease inhibitor fractions can be produced at high scale (hundreds of thousands of kilograms, i.e., tons) allowing economically feasible application in lower and higher income countries. [ABSTRACT FROM AUTHOR]

Published

2024

41. Nucleoside Reverse Transcriptase Inhibitor Exposure Is Associated with Lower Alzheimer's Disease Risk: A Retrospective Cohort Proof-of-Concept Study.

Author

Chow, Tiffany W., Raupp, Mark, Reynolds, Matthew W., Li, Siying, Kaeser, Gwendolyn E., and Chun, Jerold

Subjects

*NUCLEOSIDE reverse transcriptase inhibitors, *DISEASE risk factors, *DONEPEZIL, *HIV, *ALZHEIMER'S disease, *COMMON cold

Abstract

Brain somatic gene recombination (SGR) and the endogenous reverse transcriptases (RTs) that produce it have been implicated in the etiology of Alzheimer's disease (AD), suggesting RT inhibitors as novel prophylactics or therapeutics. This retrospective, proof-of-concept study evaluated the incidence of AD in people with human immunodeficiency virus (HIV) with or without exposure to nucleoside RT inhibitors (NRTIs) using de-identified medical claims data. Eligible participants were aged ≥60 years, without pre-existing AD diagnoses, and pursued medical services in the United States from October 2015 to September 2016. Cohorts 1 (N = 46,218) and 2 (N = 32,923) had HIV. Cohort 1 had prescription claims for at least one NRTI within the exposure period; Cohort 2 did not. Cohort 3 (N = 150,819) had medical claims for the common cold without evidence of HIV or antiretroviral therapy. The cumulative incidence of new AD cases over the ensuing 2.75-year observation period was lowest in patients with NRTI exposure and highest in controls. Age- and sex-adjusted hazard ratios showed a significantly decreased risk for AD in Cohort 1 compared with Cohorts 2 (HR 0.88, p < 0.05) and 3 (HR 0.84, p < 0.05). Sub-grouping identified a decreased AD risk in patients with NRTI exposure but without protease inhibitor (PI) exposure. Prospective clinical trials and the development of next-generation agents targeting brain RTs are warranted. [ABSTRACT FROM AUTHOR]

Published

2024

42. 4-Chloroisocoumarins as Chlamydial Protease Inhibitors and Anti-Chlamydial Agents.

Author

Phillips, Matthew J. A., Huston, Wilhelmina M., McDonagh, Andrew M., and Rawling, Tristan

Subjects

*PROTEASE inhibitors, *SERINE proteinases, *CHLAMYDIA trachomatis, *SERINE

Abstract

4-Chloroisocoumarin compounds have broad inhibitory properties against serine proteases. Here, we show that selected 3-alkoxy-4-chloroisocoumarins preferentially inhibit the activity of the conserved serine protease High-temperature requirement A of Chlamydia trachomatis. The synthesis of a new series of isocoumarin-based scaffolds has been developed, and their anti-chlamydial properties were investigated. The structure of the alkoxy substituent was found to influence the potency of the compounds against High-temperature requirement A, and modifications to the C-7 position of the 3-alkoxy-4-chloroisocoumarin structure attenuate anti-chlamydial properties. [ABSTRACT FROM AUTHOR]

Published

2024

43. Restriction of Viral Glycoprotein Maturation by Cellular Protease Inhibitors.

Author

Lotke, Rishikesh, Petersen, Moritz, and Sauter, Daniel

Subjects

*PROTEASE inhibitors, *BLOOD coagulation, *HUMAN genome, *VIRUS diseases, *VIRAL replication, *PROTEOLYTIC enzymes, *GRANZYMES

Abstract

The human genome is estimated to encode more than 500 proteases performing a wide range of important physiological functions. They digest proteins in our food, determine the activity of hormones, induce cell death and regulate blood clotting, for example. During viral infection, however, some proteases can switch sides and activate viral glycoproteins, allowing the entry of virions into new target cells and the spread of infection. To reduce unwanted effects, multiple protease inhibitors regulate the proteolytic processing of self and non-self proteins. This review summarizes our current knowledge of endogenous protease inhibitors, which are known to limit viral replication by interfering with the proteolytic activation of viral glycoproteins. We describe the underlying molecular mechanisms and highlight the diverse strategies by which protease inhibitors reduce virion infectivity. We also provide examples of how viruses evade the restriction imposed by protease inhibitors. Finally, we briefly outline how cellular protease inhibitors can be modified and exploited for therapeutic purposes. In summary, this review aims to summarize our current understanding of cellular protease inhibitors as components of our immune response to a variety of viral pathogens. [ABSTRACT FROM AUTHOR]

Published

2024

44. Use of quantitative mass spectrometry-based proteomics and ELISA to compare the alpha 2 macroglobulin concentration in equine blood-based products processed by three different orthobiologic devices.

Author

Ortved, Kyla F., Alward, Larry, Cowles, Bobby, Linardi, Renata, Barot, Dhvani, Usimaki, Alex, Fedie, Joseph R., Amodie, Deb, and Goodrich, Laurie R.

Subjects

BLOOD products, PROTEOMICS, BLOOD proteins, PLATELET-rich plasma, CENTRIFUGATION, PEPTIDES

Abstract

Introduction: Alpha 2 macroglobulin (A2M), a multi-functional protein in the plasma protease inhibitor class, regulates proinflammatory cytokines and the clearance of chondrodestructive enzymes in cases of joint injury and osteoarthritis (OA). The purpose of this study was to compare A2M concentrations in equine plasma samples processed by three commercial devices developed for stallside regenerative joint therapy. Methods: Plasma samples were obtained from healthy adult horses (N = 13). Mass spectrometry analysis was used to determine the concentration of protein analytes in each sample. Selected reaction monitoring measured a specific A2M peptide as a surrogate of the whole A2M protein. A2M concentrations produced by each test device were compared for two sample types: a pre-concentrate or platelet-poor (PP) component and a final component for use in the horse. Results: There was no significant difference (p > 0.05) in the geometric mean (GM) concentration of A2M in the final concentration samples produced by the Alpha2EQ® device (N horses = 13) and the single-centrifugation PP samples produced by the Pro-Stride® APS (autologous protein solution) device (N = 13) and the Restigen® PRP (platelet-rich plasma) device (N = 11). When A2M content in final concentration samples produced by each device was compared, the Pro-Stride APS and Restigen PRP samples had significantly greater GM A2M content (p < 0.0001) compared to the Alpha2EQ samples, and the Pro-Stride APS final concentration samples had significantly greater GM A2M concentration (p < 0.0001) versus that for the Restigen PRP final samples. Discussion: This comparison demonstrated that the volume and A2M concentration of an Alpha2EQ final concentrate are no different than the volume and concentration of A2M in the PP from Pro-Stride or Restigen devices. [ABSTRACT FROM AUTHOR]

Published

2024

45. Correlation of Experimental and Calculated Inhibition Constants of Protease Inhibitor Complexes.

Author

Goettig, Peter, Chen, Xingchen, and Harris, Jonathan M.

Subjects

*PROTEASE inhibitors, *ANTITHROMBINS, *CYSTEINE proteinases, *SERINE proteinases, *TRYPSIN inhibitors, *METALLOPROTEINASES, *PROTEIN-protein interactions, *FC receptors, *TRYPSIN

Abstract

Predicting the potency of inhibitors is key to in silico screening of promising synthetic or natural compounds. Here we describe a predictive workflow that provides calculated inhibitory values, which concord well with empirical data. Calculations of the free interaction energy ΔG with the YASARA plugin FoldX were used to derive inhibition constants Ki from PDB coordinates of protease–inhibitor complexes. At the same time, corresponding KD values were obtained from the PRODIGY server. These results correlated well with the experimental values, particularly for serine proteases. In addition, analyses were performed for inhibitory complexes of cysteine and aspartic proteases, as well as of metalloproteases, whereby the PRODIGY data appeared to be more consistent. Based on our analyses, we calculated theoretical Ki values for trypsin with sunflower trypsin inhibitor (SFTI-1) variants, which yielded the more rigid Pro14 variant, with probably higher potency than the wild-type inhibitor. Moreover, a hirudin variant with an Arg1 and Trp3 is a promising basis for novel thrombin inhibitors with high potency. Further examples from antibody interaction and a cancer-related effector-receptor system demonstrate that our approach is applicable to protein interaction studies beyond the protease field. [ABSTRACT FROM AUTHOR]

Published

2024

46. An Unusual Two-Domain Thyropin from Tick Saliva: NMR Solution Structure and Highly Selective Inhibition of Cysteine Cathepsins Modulated by Glycosaminoglycans.

Author

Matoušková, Zuzana, Orsághová, Katarína, Srb, Pavel, Pytelková, Jana, Kukačka, Zdeněk, Buša, Michal, Hajdušek, Ondřej, Šíma, Radek, Fábry, Milan, Novák, Petr, Horn, Martin, Kopáček, Petr, and Mareš, Michael

Subjects

*CATHEPSINS, *GLYCOSAMINOGLYCANS, *PROTEOLYSIS, *LYME disease, *TICK-borne encephalitis, *CASTOR bean tick

Abstract

The structure and biochemical properties of protease inhibitors from the thyropin family are poorly understood in parasites and pathogens. Here, we introduce a novel family member, Ir-thyropin (IrThy), which is secreted in the saliva of Ixodes ricinus ticks, vectors of Lyme borreliosis and tick-borne encephalitis. The IrThy molecule consists of two consecutive thyroglobulin type-1 (Tg1) domains with an unusual disulfide pattern. Recombinant IrThy was found to inhibit human host-derived cathepsin proteases with a high specificity for cathepsins V, K, and L among a wide range of screened cathepsins exhibiting diverse endo- and exopeptidase activities. Both Tg1 domains displayed inhibitory activities, but with distinct specificity profiles. We determined the spatial structure of one of the Tg1 domains by solution NMR spectroscopy and described its reactive center to elucidate the unique inhibitory specificity. Furthermore, we found that the inhibitory potency of IrThy was modulated in a complex manner by various glycosaminoglycans from host tissues. IrThy was additionally regulated by pH and proteolytic degradation. This study provides a comprehensive structure–function characterization of IrThy—the first investigated thyropin of parasite origin—and suggests its potential role in host–parasite interactions at the tick bite site. [ABSTRACT FROM AUTHOR]

Published

2024

47. Identification of Triazolopyrimidinyl Scaffold SARS-CoV-2 Papain-Like Protease (PL pro) Inhibitor.

Author

Kralj, Sebastjan, Jukič, Marko, Bahun, Miha, Kranjc, Luka, Kolarič, Anja, Hodošček, Milan, Ulrih, Nataša Poklar, and Bren, Urban

Subjects

*PROTEASE inhibitors, *ENZYME inhibitors, *SARS-CoV-2, *VIRUS-induced enzymes

Abstract

The global impact of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) and its companion disease, COVID-19, has reminded us of the importance of basic coronaviral research. In this study, a comprehensive approach using molecular docking, in vitro assays, and molecular dynamics simulations was applied to identify potential inhibitors for SARS-CoV-2 papain-like protease (PLpro), a key and underexplored viral enzyme target. A focused protease inhibitor library was initially created and molecular docking was performed using CmDock software (v0.2.0), resulting in the selection of hit compounds for in vitro testing on the isolated enzyme. Among them, compound 372 exhibited promising inhibitory properties against PLpro, with an IC50 value of 82 ± 34 μM. The compound also displayed a new triazolopyrimidinyl scaffold not yet represented within protease inhibitors. Molecular dynamics simulations demonstrated the favorable binding properties of compound 372. Structural analysis highlighted its key interactions with PLpro, and we stress its potential for further optimization. Moreover, besides compound 372 as a candidate for PLpro inhibitor development, this study elaborates on the PLpro binding site dynamics and provides a valuable contribution for further efforts in pan-coronaviral PLpro inhibitor development. [ABSTRACT FROM AUTHOR]

Published

2024

48. Potential inhibitors isolated from Curcuma aeruginosa against dengue virus type 2 (DENV-2) NS2B-NS3 protease activity.

Author

Fazalul Rahiman, Siti Sarah, Al-Amin, Mohammad, Mohtar, Noratiqah, Zakaria, Iffah Izzati, Kahar, Ummirul Mukminin, Khairuddean, Melati, and Salhimi, Salizawati Muhamad

Subjects

*DENGUE viruses, *CURCUMA, *PROTEOLYTIC enzymes, *MOLECULAR docking, *VIRUS diseases, *PROTEASE inhibitors

Abstract

Dengue virus (DENV) infection remains a formidable public health concern, causing significant fatalities worldwide. The unavailability of specific anti-DENV therapeutics and poor response towards dengue vaccine have impeded efforts to prevent and control this tropical disease, thereby, there is a pressing need for effective alternative therapeutics. Curcuma species including Curcuma aeruginosa have a long history of traditional use for the prevention and treatment of various ailments, including viral infections. While it is evident that several compounds isolated from these plants have antiviral activity against various viruses, their specific effects against DENV have not been thoroughly explored. The study aimed to investigate the potential of major compounds isolated from C. aeruginosa (demethoxycurcumin, curcumenol, furanodienone germacrone and zederone) in inhibiting DENV-2 NS2B-NS3 protease activity both in vitro and in silico. The results demonstrated that demethoxycurcumin (at 100 μM), furanodienone and germacrone (both at 25 μM) exhibited inhibitory effects on NS2B-NS3 protease activity comparable to aprotinin, a potent NS2B-NS3 protease inhibitor, albeit to a lesser extent. Importantly, these inhibitory concentrations did not adversely affect the viability of normal fibroblast cell line, L-929 cells, suggesting that the compounds' effects were specific to the protease inhibition. Further in silico molecular docking analyses indicated that demethoxycurcumin, furanodienone and germacrone displayed significant binding affinities with both DENV E protein and DENV NS2B-NS3 protease, corroborating their inhibitory activity observed in the protease inhibition assay. These promising findings collectively suggest that demethoxycurcumin, furanodienone and germacrone from C. aeruginosa merit further development as distinctive inhibitors for treating DENV infection. [ABSTRACT FROM AUTHOR]

Published

2024

49. Identification of Cathepsin B as a Therapeutic Target for Ferroptosis of Macrophage after Spinal Cord Injury.

Author

Jiaqi Xu, Yinghe Ding, Chaoran Shi, Feifei Yuan, Xiaolong Sheng, Yudong Liu, Yong Xie, Hongbin Lu, Chunyue Duan, Jianzhong Hu, and Liyuan Jiang

Subjects

*SPINAL cord injuries, *CATHEPSIN B, *HEMORRHAGE

Abstract

Hemorrhage and immune cell infiltration are the main pathological features of spinal cord injury (SCI). Excessive iron deposition is caused by leaking hemosiderin which may over-activate ferroptosis pathways, resulting in lipid peroxidation and mitochondrial dysfunction in cells. Inhibiting ferroptosis after SCI has been shown to aid functional recovery. However, the essential genes involved in cellular ferroptosis following SCI are still unknown. Here we show that Ctsb is a statistical significance gene by collecting multiple transcriptomic profiles and identifying differentially expressed ferroptosis-related genes, which are abundantly expressed in myeloid cells after SCI and widely distributed at the epicenter of the injury. The expression score of ferroptosis, calculated by ferroptosis driver/suppressor genes, was high in macrophages. Furthermore, we discovered that inhibiting cathepsin B (CTSB), specifically with a small-molecule drug, CA-074-methyl ester (CA-074-me), reduced lipid peroxidation and mitochondrial dysfunction in macrophages. We also found that alternatively activated M2-polarized macrophages are more susceptible to hemin-induced ferroptosis. Consequently, CA-074-me could reduce ferroptosis, induce M2 macrophage polarization, and promote the neurological function recovery of mice after SCI. Our study comprehensively analyzed the ferroptosis after SCI from the perspective of multiple transcriptomes and provided a novel molecular target for SCI treatment. [ABSTRACT FROM AUTHOR]

Published

2024

50. A Novel Kunitz-Type Serine Protease Inhibitor (HcKuSPI) is Involved in Antibacterial Defense in Innate Immunity and Participates in Shell Formation of Hyriopsis cumingii.

Author

Jin, Can, Cheng, Kang, Jiang, Rui, Zhang, Yihang, and Luo, Wen

Abstract

Serine protease inhibitors (SPIs) are abundantly reported for its inhibition against specific proteases involved in the immune responses, but SPI data related to calcareous shells are scarce. Previously, our research group has reported the proteome analysis of non-nucleated pearl powder, and a candidate matrix protein containing two Kunitz domains in the acid soluble fraction caught our attention. In the present study, the full-length cDNA sequence of HcKuSPI was obtained from Hyriopsis cumingii. HcKuSPI was specifically expressed in the mantle, with hybridization signals mainly concentrated to dorsal epithelial cells at the mantle edge and weak signals at the mantle pallium, suggesting HcKuSPI was involved in shell formation. HcKuSPI expression in the mantle was upregulated after Aeromonas hydrophila and Staphylococcus aureus challenge to extrapallial fluids (EPFs). A glutathione S transferase (GST)-HcKuSPI recombinant protein showed strong inhibitory activity against the proteases, trypsin and chymotrypsin. Moreover, HcKuSPI expression in an experimental group was significantly higher when compared with a control group during pellicle growth and crystal deposition in shell regeneration processes, while the organic shell framework of newborn prisms and nacre tablets was completely destroyed after HcKuSPI RNA interference (RNAi). Therefore, HcKuSPI secreted by the mantle may effectively neutralize excess proteases and bacterial proteases in the EPF during bacterial infection and could prevent matrix protein extracellular degradation by suppressing protease proteolytic activity, thereby ensuring a smooth shell biomineralization. In addition, GST-HcKuSPI was also crucial for crystal morphology regulation. These results have important implications for our understanding of the potential roles of SPIs during shell biomineralization. [ABSTRACT FROM AUTHOR]

Published

2024