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2. Ovarian and uterine functions in female albino rats fed dietary meal supplemented with Mucuna pruriens (L.) DC. seed powder

Author

Ashidi JS, Owagboriaye FO, Lawal OI, Houghton PJ, and Efferth T

Subjects
fertility, oestradiol, ovary, mucuna pruriens, reproductive hormones, steroidogenic enzyme, uterus, Medicine (General), R5-920, Public aspects of medicine, RA1-1270
Abstract

Background: While the reproduction-enhancing property of Mucuna pruriens (MP) seed has been widely studied in males, little is known about this property in females despite the rate at which the seed is consumed by both sexes worldwide. Objective: To determine the effect of MP seed powder in dietary inclusion on ovarian and uterine functions of adult female albino rats. Methods: The rats were randomised into four groups. Group 1 (Control) was given standard rat chow (15g of feed/rat/day only) while groups 2, 3 and 4 were fed diets supplemented with MP seed powder at 0.75 g, 1.5g and 2.25g/day, respectively, for 12 weeks. Serum levels of oestradiol, follicle stimulating hormone, luteinising hormone, ovarian Δ5, 3β- hydroxysteroid dehydrogenase (Δ5, 3β-HSD) and 17 β hydroxysteroid dehydrogenase (17β-HSD) activities, ovarian and uterine peroxidase and tissue cytoarchitectural structures were used as diagnostic markers of reproductive function. Results: Significant increases in the serum level of all hormones including ovarian Δ5, 3β-HSD, 17β-HSD activities, ovarian and uterine peroxidase activities, and improvement of the ovarian and uterine cytoarchitectural integrity of the rats fed MP at 0.75g/day compared to other groups were observed. However, MP at 2.25g/day induced reproductive dysfunction characterised by significant reductions in hormones, uterine and ovarian enzyme activities, severe degenerative cytoarchitectural lesions in tissues. Conclusions: MP seed improves uterine and ovarian functions at a dose level of 0.75g/day, but a higher dose value may be toxic.

Published
2022
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7. Die Reduktion von Integrin α6 durch Artesunat inhibiert das progressive Wachstum Docetaxel-resistenter Prostatakarzinomzellen

Author

Bräunig, V, Stein, L, Wüstefeld, L, Vakhrusheva, O, Markowitsch, S, Slade, K, Efferth, T, Culig, Z, Puhr, M, Michaelis, M, Cinatl, J, Haferkamp, A, and Jüngel, E

Subjects
ddc: 610, Medicine and health
Abstract

Einleitung: Therapieresistenzen stellen eines der größten Probleme in der Behandlung des fortgeschrittenen Prostatakarzinom (PCa), dem häufigsten Tumor des Mannes, dar. Neue Behandlungskonzepte werden daher dringend gesucht. Artesunat (ART) aus der Traditionellen Chinesischen Medizin [zum vollständigen Text gelangen Sie über die oben angegebene URL]

Published
2022
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8. Artesunat hemmt signifikant das Metastasierungsverhalten Cisplatin-resistenter Harnblasenkarzinomzellen

Author

Vakhrusheva, O., Zhao, F., Markowitsch, S., Michaelis, M., Cinatl, J., Efferth, T., Haferkamp, A., and Jüngel, E.

Subjects
ddc: 610, Medicine and health
Abstract

Einleitung: Zur Standardtherapie des metastasierten Harnblasenkarzinom (BCa) gehört die Cisplatin-basierte Chemotherapie. Das Therapieansprechen ist jedoch limitiert, so dass es zum Rezidiv kommt oder die Erkrankung in einen invasiven bzw. systemischen Progress fortschreitet. Dafür maßgeblich [zum vollständigen Text gelangen Sie über die oben angegebene URL]

Published
2022

9. Shikonin reguliert den AKT/mTOR-Signalweg und induziert die Nekroptose bei Sunitinib-resistenten NZK-Zellen

Author

Markowitsch, S., Vakhrusheva, O., Schupp, P., Akele, Y., Kitanovic, J., Efferth, T., Haferkamp, A., and Jüngel, E.

Subjects
ddc: 610, Medicine and health
Abstract

Einleitung: Neue zielgerichtete Therapien verbesserten die Prognose von Patienten mit einem fortgeschrittenen Nierenzellkarzinom (NZK). Problematisch bleibt, dass die Wirkung durch Resistenzen limitiert ist und die etablierten Behandlungen somit von einem palliativen Charakter geprägt sind. Shikonin [zum vollständigen Text gelangen Sie über die oben angegebene URL]

Published
2022

13. Rethinking Subthreshold Effects in Regulatory Chemical Risk Assessments

Author

Agathokleous, E., Barceló, D., Aschner, M., Azevedo, R. A., Bhattacharya, Prosun, Costantini, D., Cutler, G. C., De Marco, A., Docea, A. O., Dórea, J. G., Duke, S. O., Efferth, T., Fatta-Kassinos, D., Fotopoulos, V., Ginebreda, A., Guedes, R. N. C., Hayes, A. W., Iavicoli, I., Kalantzi, O. -I, Koike, T., Kouretas, D., Kumar, M., Manautou, J. E., Moore, M. N., Paoletti, E., Peñuelas, J., Picó, Y., Reiter, R. J., Rezaee, R., Rinklebe, J., Rocha-Santos, T., Sicard, P., Sonne, C., Teaf, C., Tsatsakis, A., Vardavas, A. I., Wang, W., Zeng, E. Y., Calabrese, E. J., Agathokleous, E., Barceló, D., Aschner, M., Azevedo, R. A., Bhattacharya, Prosun, Costantini, D., Cutler, G. C., De Marco, A., Docea, A. O., Dórea, J. G., Duke, S. O., Efferth, T., Fatta-Kassinos, D., Fotopoulos, V., Ginebreda, A., Guedes, R. N. C., Hayes, A. W., Iavicoli, I., Kalantzi, O. -I, Koike, T., Kouretas, D., Kumar, M., Manautou, J. E., Moore, M. N., Paoletti, E., Peñuelas, J., Picó, Y., Reiter, R. J., Rezaee, R., Rinklebe, J., Rocha-Santos, T., Sicard, P., Sonne, C., Teaf, C., Tsatsakis, A., Vardavas, A. I., Wang, W., Zeng, E. Y., and Calabrese, E. J.

Abstract

QC 20230515

Published
2022
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15. Rethinking subthreshold effects in regulatory chemical risk assessments

Author

Evgenios Agathokleous, Damià Barceló, Michael Aschner, Ricardo Antunes Azevedo, Prosun Bhattacharya, David Costantini, G. Christopher Cutler, Alessandra De Marco, Anca Oana Docea, José G. Dórea, Stephen O. Duke, Thomas Efferth, Despo Fatta-Kassinos, Vasileios Fotopoulos, Antonio Ginebreda, Raul Narciso C. Guedes, A. Wallace Hayes, Ivo Iavicoli, Olga-Ioanna Kalantzi, Takayoshi Koike, Demetrios Kouretas, Manish Kumar, José E. Manautou, Michael N. Moore, Elena Paoletti, Josep Peñuelas, Yolanda Picó, Russel J. Reiter, Ramin Rezaee, Jörg Rinklebe, Teresa Rocha-Santos, Pierre Sicard, Christian Sonne, Christopher Teaf, Aristidis Tsatsakis, Alexander I. Vardavas, Wenjie Wang, Eddy Y. Zeng, Edward J. Calabrese, Agathokleous, E., Barcelo, D., Aschner, M., Azevedo, R. A., Bhattacharya, P., Costantini, D., Cutler, G. C., De Marco, A., Docea, A. O., Dorea, J. G., Duke, S. O., Efferth, T., Fatta-Kassinos, D., Fotopoulos, V., Ginebreda, A., Guedes, R. N. C., Hayes, A. W., Iavicoli, I., Kalantzi, O. -I., Koike, T., Kouretas, D., Kumar, M., Manautou, J. E., Moore, M. N., Paoletti, E., Penuelas, J., Pico, Y., Reiter, R. J., Rezaee, R., Rinklebe, J., Rocha-Santos, T., Sicard, P., Sonne, C., Teaf, C., Tsatsakis, A., Vardavas, A. I., Wang, W., Zeng, E. Y., and Calabrese, E. J.

Subjects
Dose-Response Relationship, Drug, Chemical Risk Assessment, Chemical Risk Assessments, hormesis, ESTRESSE, Environmental Chemistry, cancer, General Chemistry, Earth and Related Environmental Sciences, Natural Sciences, Risk Assessment
Abstract

A great number of dose–response studies indicate that hormesis is a common phenomenon, occurring in numerous organisms exposed to singular or combined environmental stressors, such as pharmaceuticals, heavy metals, micro/nanoplastics, organic flame retardants, pesticides, and rare earths. (1−6) While biological responses to low exposure levels are often beneficial, exposure to doses below the no-observed-adverse-effect-level (NOAEL; hereafter subthreshold doses) does not always translate to beneficial responses. (2,4) For example, subthreshold contaminant doses can enhance the virulence of phytopathogenic microbes and promote the resistance of crop pests with significant implications for crop production. (2,7,8) Subthreshold contaminant exposures can also stimulate infectious animal/human pathogens and promote their resistance to antibiotics and other drugs, threatening long-term sustainability. Importantly, the hormetic function of common pathways that regulate cancer progress indicate that current regulatory standards may not protect adequately against cancer risks. (9−11), We are grateful to Dr. Patrick H. Brown, Distinguished Professor of Plant Science at the University of California, Davis, U.S.A., and Dr. Adrian Covaci, Professor of Environmental Toxicology and Chemistry at the University of Antwerp, Belgium, for comments and suggestions on an early draft of the paper. This study did not receive a specific grant from funding agencies in the public, commercial, or not-for-profit sectors. E.A. acknowledges support from the National Natural Science Foundation of China (No. 4210070867), The Startup Foundation for Introducing Talent of Nanjing University of Information Science & Technology (NUIST), Nanjing, China (No. 003080), and the Jiangsu Distinguished Professor program of the People’s Government of Jiangsu Province. E.J.C. acknowledges longtime support from the U.S. Air Force (AFOSR FA9550-13-1-0047) and ExxonMobil Foundation (S18200000000256). The sponsors were not involved in the study design; the collection, analysis or interpretation of the data; the preparation of the manuscript or the decision where to submit the manuscript for publication. All authors hold senior editorial positions in various scientific journals. The views presented herein are those of the authors and do not represent views of journals’ editorial board as a unit, journals’ editorial office, journals themselves or their publishers, authors’ institutions, or scientific societies where authors hold senior positions.

Published
2022

16. Identification of anti-inflammatory and anti-cancer compounds targeting the NF-κB-NLRP3 inflammasome pathway from a phytochemical library of the Sideritis genus.

Author

Yücer R, Schröder A, Topçu G, and Efferth T

Abstract

Ethnobotanical Relevance: For centuries, the aerial parts of Sideritis species have been known for their medicinal properties as herbal teas. Although the antioxidant and anti-inflammatory properties of the genus have been widely documented, the underlying mechanisms are yet to be sufficiently clarified., Aim of the Study: We investigated the anti-inflammatory and anticancer activities of phytochemicals of the Sideritis genus., Material and Methods: Through literature mining, a chemical library containing 657 components of the Sideritis genus was formed. We studied these compounds for binding to NLRP3 and NF-κB proteins in silico by virtual drug screening and molecular docking, and in vitro by microscale thermophoresis (MST). Liquid chromatography-high-resolution mass spectrometry analysis (LC-HRMS) was performed in the Sideritis extracts. One of the identified compounds, verbascoside, was investigated for its cytotoxic activity by mining a panel of 49 tumor cell lines in the data repository of the National Cancer Institute (NCI, USA)., Results: Virtual screening and molecular docking results highlighted two compounds targeting both proteins of interest, i.e., verbascoside (acteoside) and apigenin 7,4'-bis(trans-p-coumarate), as both had lowest binding energies of less than -10 kcal/mol. Using MST, we then verified that both compounds bound to the target proteins. Verbascoside bound to NLRP3 and NF-κB with K d values of 0.67 ± 0.18 μM and 0.01 ± 0.08 μM, while apigenin 7,4'-bis(trans-p-coumarate) had K d values of 4.60 ± 1.66 μM and 0.27 ± 0.75 μM, respectively. Verbascoside was abundant in the Sideritis extracts, according to LC-HRMS analysis. Since inflammation is strongly related to carcinogenesis, we investigated the anticancer activity of verbascoside in the second part of this study. We investigated the activity of verbascoside in 49 tumor cell lines of the NCI. Comparing its activity with 81 standard anticancer drugs revealed numerous interactions with DNA-damaging agents (alkylators, topoisomerase I/II inhibitors, antimetabolites), indicating that verbascoside may also affect the DNA of tumor cells. We further investigated the involvement of verbascoside in several main drug resistance mechanisms, i.e., ABC transporters, oncogenes, tumor suppressors, cellular proliferation rates, and other parameters. Except for the correlation to the mutational status of NRAS, no other significant relationships were found, indicating that verbascoside is not involved in most of the common drug resistance mechanisms. Two-dimensional cluster analysis-based heatmap generation of a proteomic profile from 40 out of 3171 proteins revealed a significant correlation between the expression of these proteins in 49 tumor cell lines, and the cellular response to verbascoside. This indicates that the presence of these proteins is a determinant for sensitivity or resistance to this natural product., Conclusion: The database established here represents a valuable resource for the screening of bioactivites of the Sideritis genus. The experimental validation of the anti-inflammatory and cytotoxic activities of selected compounds proved that virtual drug screening and molecular docking are suitable tools for the identification of putative drug candidates. Verbascoside was among the top 10 compounds binding to two key anti-inflammatory proteins, NLRP3 and NF-kB. Additionally, data from the NCI indicate that verbascoside is not linked to main drug resistance mechanisms., Competing Interests: Declaration of competing interest As corresponding author, I declare on behalf of all authors that there is no conflict of interest., (Copyright © 2024 The Authors. Published by Elsevier B.V. All rights reserved.)

Published
2024
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17. Sensitizing cholangiocarcinoma to chemotherapy by inhibition of the drug-export pump MRP3.

Author

Asensio M, Briz O, Herraez E, Perez-Silva L, Espinosa-Escudero R, Bueno-Sacristan D, Peleteiro-Vigil A, Hammer H, Pötz O, Kadioglu O, Banales JM, Martinez-Chantar ML, Avila MA, Macias RIR, Efferth T, Marin JJG, and Lozano E

Subjects
Humans, Animals, Cell Line, Tumor, HEK293 Cells, Mice, Nude, Mice, Molecular Docking Simulation, Cholangiocarcinoma drug therapy, Cholangiocarcinoma pathology, Cholangiocarcinoma metabolism, Cholangiocarcinoma genetics, Multidrug Resistance-Associated Proteins metabolism, Multidrug Resistance-Associated Proteins genetics, Multidrug Resistance-Associated Proteins antagonists & inhibitors, Bile Duct Neoplasms drug therapy, Bile Duct Neoplasms pathology, Bile Duct Neoplasms metabolism, Bile Duct Neoplasms genetics, Drug Resistance, Neoplasm drug effects, Antineoplastic Agents pharmacology, Xenograft Model Antitumor Assays, Cisplatin pharmacology
Abstract

Aims: Drug export through ABC proteins hinders cancer response to chemotherapy. Here, we have evaluated the relevance of MRP3 (ABCC3) in cholangiocarcinoma (CCA) as a potential target to overcome drug resistance., Methods: Gene expression was analyzed in silico using the TCGA-CHOL database and experimentally (mRNA and protein) in resected CCA tumors. The effect of manipulating MRP3 function/expression was evaluated in vitro and in vivo., Results: High MRP3 expression at the plasma membrane of human CCA cells was found. MRP3 overexpression in HEK293T cells selectively impaired the cytotoxic effect of etoposide, cisplatin, SN-38, and mitoxantrone. Reduced MRP3 activity with shRNAs or pan-MRP blockers enhanced the sensitivity to these drugs. MRP3 interaction with natural and semisynthetic compounds (≈40,000) was evaluated by virtual drug screening and molecular docking. Two identified potential MRP3 inhibitors (EM-114, EM-188), and sorafenib impaired MRP3 transport activity and enhanced sensitivity of CCA cells to etoposide and cisplatin. The antitumor effect of cisplatin in the mouse xenograft model was enhanced by co-treatment with sorafenib, which was accompanied by a higher intratumor accumulation of cisplatin., Conclusions: Genetic and pharmacological MRP3 inhibition enhances the anti-CCA effect of several drugs, which constitutes a promising strategy to improve the response to chemotherapy in CCA patients., Competing Interests: Declaration of Competing Interest The authors declare the following financial interests/personal relationships which may be considered as potential competing interests: Jose J.G. Marin reports financial support was provided by Carlos III Health Institute. Jose J.G. Marin reports financial support was provided by Spanish Ministry of Science and Innovation. Jose J.G. Marin reports financial support was provided by Junta de Castilla y León, Consejería de Educación. Jose J.G. Marin reports financial support was provided by Spanish Association Against Cancer Scientific Foundation. If there are other authors, they declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper, (Copyright © 2024 The Authors. Published by Elsevier Masson SAS.. All rights reserved.)

Published
2024
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18. Identification of nitrile-containing isoquinoline-related natural product derivatives as coronavirus entry inhibitors in silico and in vitro.

Author

Shahhamzehei N, Abdelfatah S, Schwarzer-Sperber HS, Sutter K, Yücer R, Bringmann G, Schwarzer R, and Efferth T

Subjects
Humans, Chlorocebus aethiops, Vero Cells, Animals, HEK293 Cells, Cell Survival drug effects, Computer Simulation, COVID-19 Drug Treatment, Peptidyl-Dipeptidase A metabolism, COVID-19 virology, Virus Internalization drug effects, Antiviral Agents pharmacology, Antiviral Agents chemistry, SARS-CoV-2 drug effects, Nitriles pharmacology, Molecular Docking Simulation, Spike Glycoprotein, Coronavirus metabolism, Biological Products pharmacology, Biological Products chemistry, Angiotensin-Converting Enzyme 2 metabolism
Abstract

Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) has caused millions of infections and deaths worldwide since its emergence in Wuhan, China, in late 2019. Natural product inhibitors targeting the interaction between the receptor-binding domain (RBD) of the SARS-CoV-2 spike protein and human angiotensin-converting enzyme 2 (ACE2), crucial for viral attachment and cellular entry, are of significant interest as potential antiviral agents. In this study a library of nitrile- and sulfur-containing natural product derived compounds were used for virtual drug screening against the RBD of the SARS-CoV-2 spike protein. The top 18 compounds from docking were tested for their efficacy to inhibit virus entry. In vitro experiments revealed that compounds 9, 14, and 15 inhibited SARS-CoV-2 pseudovirus and live virus entry in HEK-ACE2 and Vero E6 host cells at low micromolar IC 50 values. Cell viability assays showed these compounds exerted low cytotoxicity towards MRC5, Vero E6, and HEK-ACE2 cell lines. Microscale thermophoresis revealed all three compounds strongly bound to the RBDs of SARS-CoV-2, SARS-CoV-2 XBB, SARS-CoV-1, MERS-CoV, and HCoV-HKU1, with their K d values increasing as RBD sequence similarity decreased. Molecular docking studies indicated compounds 9, 14, and 15 bound to the SARS-CoV-2 spike protein RBD and interacted with hotspot amino acid residues required for the RBD-ACE2 interaction and cellular infection. These three nitrile-containing candidates, particularly compound 15, should be considered for further development as potential pan-coronavirus entry inhibitors., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper. Conflict of interest The authors declare that there is no conflict of interest., (Copyright © 2024 The Authors. Published by Elsevier Masson SAS.. All rights reserved.)

Published
2024
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19. Paeoniflorin inhibited GSDMD to alleviate ANIT-induced cholestasis via pyroptosis signaling pathway.

Author

Ma X, Zhang W, Chen Y, Hu Q, Wang Z, Jiang T, Zeng Y, and Efferth T

Subjects
Animals, Humans, Male, Rats, Hep G2 Cells, Intracellular Signaling Peptides and Proteins metabolism, Liver drug effects, Liver metabolism, NLR Family, Pyrin Domain-Containing 3 Protein metabolism, Molecular Docking Simulation, Disease Models, Animal, Network Pharmacology, Gasdermins, Pyroptosis drug effects, Glucosides pharmacology, Rats, Sprague-Dawley, Monoterpenes pharmacology, Signal Transduction drug effects, Cholestasis drug therapy, Cholestasis chemically induced, Phosphate-Binding Proteins metabolism
Abstract

Background: Cholestasis (CT) is a group of disorders caused by impaired production, secretion or excretion of bile. This may result in the deposition of bile components in the blood and liver, which in turn causes damage to liver cells and other tissues. If untreated, CT can progress to severe complications, including cirrhosis, liver failure, and potentially life-threatening conditions., Objective: This research was intended to elucidate the function and mechanism of Paeoniflorin (PF) in ameliorating ANIT-induced pyroptosis in CT., Methods: CT models were established in SD rats and HepG2 cells through ANIT treatment. Histological examination was conducted using haematoxylin and eosin (HE) staining to assess the histopathological alterations in the liver. Network pharmacology was employed to identify potential PF targets in CT treatment. To evaluate pyroptosis levels, various methods were used, including serum biochemical analysis, Enzyme-Linked Immunosorbent Assay (ELISA), immunofluorescence (IF), immunohistochemistry (IHC), Western blotting, transmission electron microscopy (TEM), and scanning electron microscopy (SEM). The HuProt™ 20K Chip was utilized to pinpoint potential PF-binding targets. PF's direct mechanisms in CT treatment were explored using molecular docking (MD), molecular dynamics simulations (MDS), Cellular Thermal Shift Assay (CETSA), and Surface Plasmon Resonance (SPR)., Results: PF administration was found to alleviate ANIT-induced liver pathology, enhance liver function markers, and improve cell viability. Network pharmacology and pyroptosis inhibitor studies suggested that PF might mitigate CT via the NLRP3-dependent pyroptosis pathway. This hypothesis was further supported by Western blotting, IF, and IHC analyses, which indicated PF's potential to inhibit NLRP3-dependent pyroptosis in CT. GSDMD was identified as a target through HuProt™ 20K Chip screening. The binding affinity of PF to GSDMD was validated through MD, MDS, CETSA, and SPR techniques. Additionally, the regulatory impact of GSDMD on downstream inflammatory pathways was confirmed by ELISA and IHC., Conclusion: PF exhibited a hepatoprotective effect in ANIT-induced CT, primarily by targeting GSDMD, thereby suppressing ANIT-induced pyroptosis and the subsequent release of inflammatory mediators., Competing Interests: Declaration of competing interest All authors declare that there are no interest conflicts and agree to publish this research., (Copyright © 2024 Elsevier GmbH. All rights reserved.)

Published
2024
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20. Unlocking daidzein's healing power: Present applications and future possibilities in phytomedicine.

Author

Goleij P, Sanaye PM, Alam W, Zhang J, Tabari MAK, Filosa R, Jeandet P, Cheang WS, Efferth T, and Khan H

Subjects
Humans, Neoplasms drug therapy, Phytochemicals pharmacology, Animals, Antineoplastic Agents, Phytogenic pharmacology, Plants, Medicinal chemistry, Isoflavones pharmacology, Phytotherapy, Phytoestrogens pharmacology, Phytoestrogens therapeutic use
Abstract

Background: Cancer is one of the leading causes of death and a great threat to people around the world. Cancer treatment modalities include surgery, radiotherapy, chemotherapy, radiochemotherapy, hormone therapy, and immunotherapy. The best approach is to use a combination of several types. Among the treatment methods mentioned above, chemotherapy is frequently used, but its activity is hampered by the development of drug resistance and many side effects. In this regard, the use of medicinal plants has been discussed, and in recent decades, the use of isolated phytochemicals came into the focus of interest. By critically evaluating the available evidence and emphasizing the unique perspective offered by this review, we provide insights into the potential of daidzein as a promising therapeutic agent, as well as outline future research directions to optimize its efficacy in clinical settings., Purpose: To summarized the therapeutic potential of daidzein, an isoflavone phytoestrogen in the management of several human diseases with the focuses on the current status and future prospects as a therapeutic agent., Methods: Several search engines, including PubMed, GoogleScholar, and ScienceDirect, were used, with the search terms "daidzein", "daidzein therapeutic potential", or individual effects. The study included all peer-reviewed articles. However, the most recent publications were given priority., Results: Daidzein showed protective effects against malignant diseases such as breast cancer, prostate cancer but also non-malignant diseases such as diabetes, osteoporosis, and cardiovascular diseases. Daidzein activates multiple signaling pathways leading to cell cycle arrest and apoptosis as well as antioxidant and anti-metastatic effects in malignant cells. Moreover, the anticancer effects against different cancer cells were more prominent and discussed in detail., Conclusions: In short, daidzein represents a promising compound for drug development. The comprehensive potential anticancer activities of daidzein through various molecular mechanisms and its therapeutic/clinical status required further detail studies., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024. Published by Elsevier GmbH.)

Published
2024
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21. Lutein, a versatile carotenoid: Insight on neuroprotective potential and recent advances.

Author

Jayakanthan M, Manochkumar J, Efferth T, and Ramamoorthy S

Abstract

Background: Neurodegenerative diseases (NDDs) are a diverse group of neurological disorders with progressive neuronal loss at specific brain regions, leading to impaired cognitive functioning, loss of neuroplasticity, severe neurological impairment, and dementia. The incidence of neurodegenerative diseases is increasing at an alarming rate with current treatments struggling to barely prolong the inevitable. The desperation to discover a therapeutic agent to treat neurodegenerative diseases and to aid in the process of healthy recovery has opened a gateway into natural pigments., Hypothesis: The xanthophyll pigment lutein may bear the potential as a therapeutic agent against NDDs., Results: Lutein plays an important role in brain development, cognitive functioning, and improving neuroplasticity. In vitro and in vivo studies revealed the neuroprotective properties of lutein against NDDs such as Alzheimer's disease, Parkinson's disease, Huntington's disease, and cerebral ischemia. The neuroprotective effect of lutein is evidenced by the reduction of free radicals and the simultaneous strengthening of the endogenous antioxidant systems by activating the NRF-2/ERK/AKT pathway. Further, it effectively suppressed mitochondrial aberrations, excitotoxicity, overaccumulation of metals, and its resultant complications. The immunomodulatory activity of lutein prevents neuroinflammation by hindering NF-κB nuclear translocation, regulation of NIK/IKK, PI3K/AKT, MAPK/ERK, JNK pathways, and ICAM-1 downregulation. Lutein also rescued the dysregulated cholinergic system and resolved memory defects. Along with its neuroprotective properties, lutein also improved neuroplasticity by enabling neurogenesis through increased GAP-43, NCAM, and BDNF levels., Conclusion: Lutein exhibits strong neuroprotective activities against various NDDs. Though the investigations are in the exploratory phase, this review presents the consolidation of scattered evidence of the neuroprotective properties of lutein and urges its further exploration in clinical studies., Competing Interests: Declaration of competing interest The authors declare no conflict of interest., (Copyright © 2024 Elsevier GmbH. All rights reserved.)

Published
2024
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22. Chidan Tuihuang granule modulates gut microbiota to influence NOD1/RIPK2 pathway in cholestatic liver injury recovery.

Author

Chen Y, Hu Q, Zhang W, Gong Q, Yan J, Wang Z, Zhou Z, Ma X, Li Y, Lu X, and Efferth T

Abstract

Background: Cholestatic liver injury (CLI), which occurs if bile acids are imbalanced and the liver becomes inflamed, is difficult to treat effectively OBJECTIVE: We investigated how the Chinese patent medicine Chidan Tuihuang granule (CDTH) ameliorates cholestatic liver injury with a focus on its effects on the NOD1/RIPK2 pathway and intestinal flora METHODS: We used an ANIT-induced SD rat model of CLI to evaluate the therapeutic effects of CDTH. The experimental design included control, model, UDCA (ursodeoxycholic acid) and CDTH treatment groups. UHPLC-Q-Orbitrap-HRMS was used to analyse the blood components of CDTH. The efficacy of CDTH was assessed by liver function tests, histopathological examination (HE and TUNEL staining), transmission electron microscopy, and ELISA to measure apoptosis and inflammatory markers. Mechanistic insights were obtained using transcriptomics and RT-qPCR, while alterations in the expression of key proteins were studied using western blotting, immunohistochemistry, and immunofluorescence. Furthermore, the impact of CDTH on the gut microbiota and its associated metabolite, meso-2,6-diaminopimelic acid (DAP), which is linked to NOD1 activation, was examined and confirmed through in vitro RESULTS: The experimental results demonstrated a notable elevation in serum levels of AST, ALT, ALP, TBA, TBIL, and DBIL in the rats belonging to the model group, accompanied by the infiltration of inflammatory cells, hepatocyte degeneration, and necrosis in the liver tissue. CDTH administration significantly improved liver function and cholestasis indicators. Transmission electron microscopy and TUNEL staining revealed a marked reduction in liver cell apoptosis with CDTH treatment. ELISA results showed that CDTH effectively reduced inflammatory markers. Transcriptomic analysis showed that CDTH inhibited the NOD1/RIPK2 pathway, resulting in a significant decrease in the expression of NOD1, RIPK2 and associated genes in liver tissue. Gut microbiota analysis demonstrated that CDTH regulated intestinal flora structure, reducing the abundance of DAP-producing Gram-negative bacteria such as lactobacilli. In vitro experiments confirmed that CDTH enhanced cell viability by downregulating the DAP-mediated NOD1/RIPK2 signaling pathway secreted by intestinal bacteria CONCLUSION: CDTH ameliorated liver damage in cholestatic rats by inhibiting the NOD1/RIPK2 signaling pathway through regulation of gut flora and downregulation of DAP metabolites., Competing Interests: Declaration of competing interest The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2024 Elsevier GmbH. All rights reserved.)

Published
2024
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23. Identification of Cuproptosis-Associated Prognostic Gene Expression Signatures from 20 Tumor Types.

Author

Ooko E, Ali NT, and Efferth T

Abstract

We investigated the mRNA expression of 124 cuproptosis-associated genes in 7489 biopsies from 20 different tumor types of The Cancer Genome Atlas (TCGA). The KM plotter algorithm has been used to calculate Kaplan-Meier statistics and false discovery rate (FDR) corrections. Interaction networks have been generated using Ingenuity Pathway Analysis (IPA). High mRNA expression of 63 out of 124 genes significantly correlated with shorter survival times of cancer patients across all 20 tumor types. IPA analyses revealed that their gene products were interconnected in canonical pathways (e.g., cancer, cell death, cell cycle, cell signaling). Four tumor entities showed a higher accumulation of genes than the other cancer types, i.e., renal clear cell carcinoma ( n = 21), renal papillary carcinoma ( n = 13), kidney hepatocellular carcinoma ( n = 13), and lung adenocarcinoma ( n = 9). These gene clusters may serve as prognostic signatures for patient survival. These signatures were also of prognostic value for tumors with high mutational rates and neoantigen loads. Cuproptosis is of prognostic significance for the survival of cancer patients. The identification of specific gene signatures deserves further exploration for their clinical utility in routine diagnostics.

Published
2024
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24. Aerosol inhalation of total ginsenosides repairs acute lung injury and inhibits pulmonary fibrosis through SMAD2 signaling-mediated mechanism.

Author

Xu J, Zhou L, Chen H, He Y, Zhao G, Li L, Efferth T, Ding Z, and Shan L

Subjects
Animals, Male, Mice, Humans, Administration, Inhalation, Bronchoalveolar Lavage Fluid chemistry, Mice, Inbred C57BL, Lung drug effects, Lung pathology, Disease Models, Animal, Fibroblasts drug effects, Aerosols, Cell Line, Transforming Growth Factor beta1 metabolism, Ginsenosides pharmacology, Ginsenosides administration & dosage, Acute Lung Injury drug therapy, Pulmonary Fibrosis drug therapy, Signal Transduction drug effects, Smad2 Protein metabolism
Abstract

Background: Pulmonary fibrosis (PF) is a progressive lung disease caused by previous acute lung injury (ALI), but there is currently no satisfactory therapy available. Aerosol inhalation of medicine is an effective way for treating PF. Total ginsenosides (TG) shows potential for the treatment of ALI and PF, but the effects of inhaled TG remain unclear., Purpose: To determine the therapeutic effects of TG in ALI and PF, to assess the superiority of the inhaled form of TG over the routine form, and to clarify the mechanism of action of inhaled TG., Methods: Ultrahigh-performance liquid chromatography coupled with Q-Exactive Orbitrap mass spectrometry (UPLC-QE-MS) was applied to determine the chemoprofile of TG. A mouse model of ALI and PF was established to evaluate the effects of inhaled TG by using bronchoalveolar lavage fluid (BALF) analysis, histopathological observation, hydroxyproline assay, and immunohistochemical analysis. Primary mouse lung fibroblasts (MLF) and human lung fibroblast cell line (HFL1) were applied to determine the in vitro effects and mechanism of TG by using cell viability assay, quantitative real time PCR (qPCR) assay, and western blot (WB) analysis., Results: The UPLC-QE-MS results revealed the main types of ginsenosides in TG, including Re (14.15 ± 0.42%), Rd (8.42 ± 0.49%), Rg1 (6.22 ± 0.42%), Rb3 (3.28 ± 0.01%), Rb2 (3.09 ± 0.00%), Rc (2.33 ± 0.01%), Rg2 (2.09 ± 0.04%), Rb1 (1.43 ± 0.24%), and Rf (0.13 ± 0.06%). Inhaled TG, at dosages of 10, 20, and 30 mg/kg significantly alleviated both ALI and PF in mice. Analyses of BALF and HE staining revealed that TG modulated the levels of IFN-γ, IL-1β, and TGF-β1, reduced inflammatory cell infiltration, and restored the alveolar architecture of the lung tissues. Furthermore, HE and Masson's trichrome staining demonstrated that TG markedly decreased fibroblastic foci and collagen fiber deposition, evidenced by the reduction of blue-stained collagen fibers. Hydroxyproline assay and immunohistochemical analyses indicated that TG significantly decreased hydroxyproline level and down-regulated the expression of Col1a1, Col3a1, and α-sma. The inhaled administration of TG demonstrated enhanced efficacy over the oral route when comparable doses were used. Additionally, inhaled TG showed superior safety and therapeutic profiles compared to pirfenidone, as evidenced by a CCK8 assay, which confirmed that TG concentrations ranging from 20 to 120 μg/ml were non-cytotoxic. qPCR and WB analyses revealed that TG, at concentrations of 25, 50, and 100 μg/ml, significantly suppressed the phosphorylation of smad2 induced by TGF-β1 and down-regulated the expression of fibrotic genes and proteins, including α-sma, Col1a1, Col3a1, and FN1, suggesting an anti-fibrotic mechanism mediated by the smad2 signaling pathway. In vitro, TG's safety and efficacy were also found to be superior to those of pirfenidone., Conclusions: This study demonstrates, for the first time, the therapeutic efficacy of inhaled TG in treating ALI and PF. Inhaled TG effectively inhibits inflammation and reduces collagen deposition, with a particular emphasis on its role in modulating the Smad2 signaling pathway, which is implicated in the anti-fibrotic mechanism of TG. The study also highlights the superiority of inhaled TG over the oral route and its favorable safety profile in comparison to pirfenidone, positioning it as an ideal alternative for ALI and PF therapy., Competing Interests: Declaration of competing interest None., (Copyright © 2024 Elsevier GmbH. All rights reserved.)

Published
2024
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25. Inhibition of MSH6 augments the antineoplastic efficacy of cisplatin in non-small cell lung cancer as autophagy modulator.

Author

Varol A, Boulos JC, Jin C, Klauck SM, Zhitkovich A, and Efferth T

Subjects
Humans, Cell Line, Tumor, Drug Resistance, Neoplasm drug effects, Drug Resistance, Neoplasm genetics, Cisplatin pharmacology, Cisplatin therapeutic use, Carcinoma, Non-Small-Cell Lung drug therapy, Carcinoma, Non-Small-Cell Lung metabolism, Carcinoma, Non-Small-Cell Lung pathology, Carcinoma, Non-Small-Cell Lung genetics, Autophagy drug effects, Lung Neoplasms drug therapy, Lung Neoplasms pathology, Lung Neoplasms metabolism, Lung Neoplasms genetics, Antineoplastic Agents pharmacology, Antineoplastic Agents therapeutic use, DNA-Binding Proteins metabolism, DNA-Binding Proteins genetics
Abstract

The altered response to chemotherapeutic agents predominantly stems from heightened single-point mutations within coding regions and dysregulated expression levels of genes implicated in drug resistance mechanisms. The identification of biomarkers based on mutation profiles and expression levels is pivotal for elucidating the underlying mechanisms of altered drug responses and for refining combinatorial therapeutic strategies in the field of oncology. Utilizing comprehensive bioinformatic analyses, we investigated the impact of eight mismatch repair (MMR) genes on overall survival across 23 cancer types, encompassing more than 7500 tumors, by integrating their mutation profiles. Among these genes, MSH6 emerged as the most predictive biomarker, characterized by a pronounced mutation frequency and elevated expression levels, which correlated with poorer patient survival outcomes. The wet lab experiments disclosed the impact of MSH6 in mediating altered drug responses. Cytotoxic assays conducted revealed that the depletion of MSH6 in H460 non-small lung cancer cells augmented the efficacy of cisplatin, carboplatin, and gemcitabine. Pathway analyses further delineated the involvement of MSH6 as a modulator, influencing the delicate equilibrium between the pro-survival and pro-death functions of autophagy. Our study elucidates the intricate interplay between MSH6, autophagy, and cisplatin efficacy, highlighting MSH6 as a potential therapeutic target to overcome cisplatin resistance. By revealing the modulation of autophagy pathways by MSH6 inhibition, our findings offer insights into novel approaches for enhancing the efficacy of cisplatin-based cancer therapy through targeted interventions., Competing Interests: Declaration of competing interest The authors declare the following financial interests/personal relationships which may be considered as potential competing interests: Aysegul VAROL reports that financial support was provided by the Turkish Government (National Education Scholarship). The other authors declare that they have no competing financial interests or personal relationships that could influence the work reported in this paper., (Copyright © 2024. Published by Elsevier B.V.)

Published
2024
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26. Plant anthraquinones: Classification, distribution, biosynthesis, and regulation.

Author

Wang P, Wei J, Hua X, Dong G, Dziedzic K, Wahab AT, Efferth T, Sun W, and Ma P

Subjects
Humans, Anthraquinones metabolism, Anthraquinones chemistry, Plants metabolism
Abstract

Anthraquinones are polycyclic compounds with an unsaturated diketone structure (quinoid moiety). As important secondary metabolites of plants, anthraquinones play an important role in the response of many biological processes and environmental factors. Anthraquinones are common in the human diet and have a variety of biological activities including anticancer, antibacterial, and antioxidant activities that reduce disease risk. The biological activity of anthraquinones depends on the substitution pattern of their hydroxyl groups on the anthraquinone ring structure. However, there is still a lack of systematic summary on the distribution, classification, and biosynthesis of plant anthraquinones. Therefore, this paper systematically reviews the research progress of the distribution, classification, biosynthesis, and regulation of plant anthraquinones. Additionally, we discuss future opportunities in anthraquinone research, including biotechnology, therapeutic products, and dietary anthraquinones., (© 2023 Wiley Periodicals LLC.)

Published
2024
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27. Aniquinazoline B, a Fungal Natural Product, Activates the μ-Opioid Receptor.

Author

Damiescu R, Elbadawi M, Dawood M, Klauck SM, Bringmann G, and Efferth T

Subjects
Humans, Aspergillus nidulans metabolism, Aspergillus nidulans chemistry, Aspergillus nidulans drug effects, Structure-Activity Relationship, Molecular Structure, Cyclic AMP metabolism, Dose-Response Relationship, Drug, Quinazolines pharmacology, Quinazolines chemistry, Animals, Receptors, Opioid, mu metabolism, Receptors, Opioid, mu agonists, Biological Products chemistry, Biological Products pharmacology, Biological Products isolation & purification, Molecular Docking Simulation
Abstract

The development of new μ-opioid receptor (MOR) agonists without the undesirable side effects, such as addiction or respiratory depression, has been a difficult challenge over the years. In the search for new compounds, we screened our chemical database of over 40.000 substances and further assessed the best 100 through molecular docking. We selected the top 10 compounds and evaluated them for their biological activity and potential to influence cyclic adenosine monophosphate (cAMP) levels. From the tested compounds, compound 7, called aniquinazoline B, belonging to the quinazolinone alkaloids class and isolated from the marine fungus Aspergillus nidulans, showed promising results, by inhibiting cAMP levels and in vitro binding to MOR, verified through microscale thermophoresis. Transcriptomic data investigation profiled the genes affected by compound 7 and discovered activation of different pathways compared to opioids. The western blot analysis revealed compound 7 as a balanced ligand, activating both p-ERK1/2 and β-arrestin1/2 pathways, showing this is a favorable candidate to be further tested., (© 2024 Wiley-VCH GmbH.)

Published
2024
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28. The cytotoxic activities of the major diterpene extracted from Salvia multicaulis (Bardakosh) are mediated by the regulation of heat-shock response and fatty acid metabolism pathways in human leukemia cells.

Author

Nabih HK, Yücer R, Mahmoud N, Dawood M, Elbadawi M, Shahhamzehei N, Atia MAM, AbdelSadik A, Hussien TA, Ibrahim MAA, Klauck SM, Hegazy MF, and Efferth T

Abstract

Background: Leukemia is one of the most lethal cancers worldwide and represents the sixth-leading cause of cancer deaths. The results of leukemia treatment have not been as positive as desired, and recurrence is common., Purpose: Thus, there is an urgent requirement for the development of new therapeutic drugs. Salvia multicaulis (Bardakosh) is a widespread species that contains multiple phytochemical components with anti-cancer activities., Methods: We isolated and characterized the major diterpene candesalvone B methyl ester from S. multicaulis and investigated its action as a cytotoxic agent towards sensitive and drug-resistant leukemia cells by the resazurin reduction assay. Additionally, the targeted genes and the affected molecular mechanisms attributed to the potent cytotoxic activities were discovered by transcriptome-wide mRNA expression profiling. The targets predicted to be regulated by candesalvone B methyl ester in each cell line were confirmed by qRT-PCR, molecular docking, microscale thermophoresis, and western blotting. Moreover, cell cycle distribution and apoptosis were analyzed by flow cytometry., Results: Candesalvone B methyl ester was cytotoxic with IC 50 values of 20.95 ± 0.15 µM against CCRF-CEM cells and 4.13 ± 0.10 µM against multidrug-resistant CEM/ADR5000 leukemia cells. The pathway enrichment analysis disclosed that candesalvone B methyl ester could regulate the heat-shock response signaling pathway via targeting heat shock factor 1 (HSF1) in CCRF-CEM cells and ELOVL fatty acid elongase 5 (ELOVL5) controls the fatty acid metabolism pathway in CEM/ADR5000 cells. Microscale thermophoresis showed the binding of candesalvone B methyl ester with HSF1 and ELOVL5, confirming the results of molecular docking analysis. Down-regulation of both HSF1 and ELOVL5 by candesalvone B methyl ester as detected by both western blotting and RT-qPCR was related to the reversal of drug resistance in the leukemia cells. Furthermore, candesalvone B methyl ester increased the arrest in the sub-G1 phase of the cell cycle in a dose-dependent manner from 1.3 % to 32.3 % with concomitant induction of apoptosis up to 29.0 % in CCRF-CEM leukemic cells upon inhibition of HSF1., Conclusion: Candesalvone B methyl ester isolated from S. multicaulis exerted cytotoxicity by affecting apoptosis, cell division, and modulation of expression levels of genes contributing to the heat stress signaling and fatty acid metabolism pathways that could relieve drug resistance of leukemia cells., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 The Author(s). Published by Elsevier GmbH.. All rights reserved.)

Published
2024
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29. Identification of Cytisine Derivatives as Agonists of the Human Delta Opioid Receptor by Supercomputer-Based Virtual Drug Screening and Transcriptomics.

Author

Damiescu R, Dawood M, Elbadawi M, Klauck SM, Bringmann G, and Efferth T

Subjects
Humans, Drug Evaluation, Preclinical methods, Transcriptome drug effects, HEK293 Cells, NF-kappa B metabolism, Tumor Necrosis Factor-alpha metabolism, Quinolizidine Alkaloids, Receptors, Opioid, delta agonists, Receptors, Opioid, delta metabolism, Alkaloids pharmacology, Alkaloids chemistry, Azocines pharmacology, Azocines chemistry
Abstract

Delta opioid receptors (DORs) are rising as therapeutic targets, not only for the treatment of pain but also other neurological disorders (e.g., Parkinson's disease). The advantage of DOR agonists compared to μ-opioid receptor agonists is that they have fewer side effects and a lower potential to induce tolerance. However, although multiple candidates have been tested in the past few decades, none have been approved for clinical use. The current study focused on searching for new DOR agonists by screening a chemical library containing 40,000 natural and natural-derived products. The functional activity of the top molecules was evaluated in vitro through the cyclic adenosine monophosphate accumulation assay. Compound 3 showed promising results, and its activity was further investigated through transcriptomic methods. Compound 3 inhibited the expression of TNF -α, prevented NF-κB translocation to the nucleus, and activated the G-protein-mediated ERK1/2 pathway. Additionally, compound 3 is structurally different from known DOR agonists, making it a valuable candidate for further investigation for its anti-inflammatory and analgesic potential.

Published
2024
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30. Paeoniflorin protects hepatocytes from APAP-induced damage through launching autophagy via the MAPK/mTOR signaling pathway.

Author

Deng X, Li Y, Chen Y, Hu Q, Zhang W, Chen L, Lu X, Zeng J, Ma X, and Efferth T

Subjects
Animals, Male, Mice, Signal Transduction drug effects, Apoptosis drug effects, MAP Kinase Signaling System drug effects, Protective Agents pharmacology, Reactive Oxygen Species metabolism, Oxidative Stress drug effects, Autophagy drug effects, Glucosides pharmacology, TOR Serine-Threonine Kinases metabolism, Monoterpenes pharmacology, Mice, Inbred C57BL, Hepatocytes metabolism, Hepatocytes drug effects, Chemical and Drug Induced Liver Injury metabolism, Chemical and Drug Induced Liver Injury drug therapy, Chemical and Drug Induced Liver Injury prevention & control, Acetaminophen adverse effects
Abstract

Background: Drug-induced liver injury (DILI) is gradually becoming a common global problem that causes acute liver failure, especially in acute hepatic damage caused by acetaminophen (APAP). Paeoniflorin (PF) has a wide range of therapeutic effects to alleviate a variety of hepatic diseases. However, the relationship between them is still poorly investigated in current studies., Purpose: This work aimed to explore the protective effects of PF on APAP-induced hepatic damage and researched the potential molecular mechanisms., Methods: C57BL/6J male mice were injected with APAP to establish DILI model and were given PF for five consecutive days for treatment. Aiming to clarify the pharmacological effects, the molecular mechanisms of PF in APAP-induced DILI was elucidated by high-throughput and other techniques., Results: The results demonstrated that serum levels of ALP, γ-GT, AST, TBIL, and ALT were decreased in APAP mice by the preventive effects of PF. Moreover, PF notably alleviated hepatic tissue inflammation and edema. Meanwhile, the results of TUNEL staining and related apoptotic factors coincided with the results of transcriptomics, suggesting that PF inhibited hepatocyte apoptosis by regulated MAPK signaling. Besides, PF also acted on reactive oxygen species (ROS) to regulate the oxidative stress for recovery the damaged mitochondria. More importantly, transmission electron microscopy showed the generation of autophagosomes after PF treatment, and PF was also downregulated mTOR and upregulated the expression of autophagy markers such as ATG5, ATG7, and BECN1 at the mRNA level and LC3, p62, ATG5, and ATG7 at the protein level, implying that the process by which PF exerted its effects was accompanied by the occurrence of autophagy. In addition, combinined with molecular dynamics simulations and western blotting of MAPK, the results suggested p38 as a direct target for PF on APAP. Specifically, PF-activated autophagy through the downregulation of MAPK/mTOR signaling, which in turn reduced APAP injury., Conclusions: Paeoniflorin mitigated liver injury by activating autophagy to suppress oxidative stress and apoptosis via the MAPK/mTOR signaling pathway. Taken together, our findings elucidate the role and mechanism of paeoniflorin in DILI, which is expected to provide a new therapeutic strategy for the development of paeoniflorin., (© 2024. The Author(s).)

Published
2024
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31. Optimized therapeutic potential of Sijunzi-similar formulae for chronic atrophic gastritis via Bayesian network meta-analysis.

Author

Huang M, Luo S, Yang J, Xiong H, Lu X, Ma X, Zeng J, and Efferth T

Abstract

Chronic atrophic gastritis (CAG) is considered as a significant risk factor for triggering gastric cancer incidence, if not effectively treated. Sijunzi decoction (SD) is a well-known classic formula for treating gastric disorders, and Sijunzi -similar formulae (SF) derived from SD have also been highly regarded by Chinese clinical practitioners for their effectiveness in treating chronic atrophic gastritis. Currently, there is a lack of meta-analysis for these formulae, leaving unclear which exhibits optimal efficacy. Therefore, we employed Bayesian network meta-analysis (BNMA) to evaluate the efficacy and safety of SF as an intervention for CAG and to establish a scientific foundation for the clinical utilization of SF. The result of meta-analysis demonstrated that the combination of SF and basic therapy outperformed basic therapy alone in terms of clinical efficacy rate, eradication rate of H. pylori, and incidence of adverse events. As indicated by the SUCRA value, Chaishao Liujunzi decoction (CLD) demonstrated superior efficacy in enhancing clinical effectiveness and ameliorating H. pylori infection, and it also showed remarkable effectiveness in minimizing the occurrence of adverse events. Comprehensive analysis of therapeutic efficacy suggests that CLD is most likely the optimal choice among these six formulations, holding potential value for optimizing clinical treatment strategies. See also the graphical abstract(Fig. 1)., Competing Interests: All authors declare no conflict of interest related to the work and adhere to the principles of integrity and objectivity to ensure the neutrality and reliability of the research results., (Copyright © 2024 Huang et al.)

Published
2024
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33. An integrated network pharmacology approach reveals that Ampelopsis grossedentata improves alcoholic liver disease via TLR4/NF-κB/MLKL pathway.

Author

Qiu P, Mi A, Hong C, Huang S, Ma Q, Luo Q, Qiu J, Jiang H, Chen Y, Chen F, Yan H, Zhao J, Kong Y, Du Y, Li C, Kong D, Efferth T, and Lou D

Subjects
Animals, Male, Mice, Signal Transduction drug effects, Plant Extracts pharmacology, Liver drug effects, Oxidative Stress drug effects, Plant Leaves chemistry, Ethanol, Cytokines metabolism, Toll-Like Receptor 4 metabolism, Liver Diseases, Alcoholic drug therapy, Liver Diseases, Alcoholic prevention & control, NF-kappa B metabolism, Ampelopsis chemistry, Mice, Inbred C57BL, Network Pharmacology
Abstract

Background: Alcohol-related liver damage is the most prevalent chronic liver disease, which creates a heavy public health burden worldwide. The leaves of Ampelopsis grossedentata have been considered a popular tea and traditional herbal medicine in China for more than one thousand years, and possess anti-inflammatory, antioxidative, hepatoprotective, and antiviral activities., Purpose: We explored the protective effects of Ampelopsis grossedentata extract (AGE) against chronic alcohol-induced hepatic injury (alcoholic liver disease, ALD), aiming to elucidate its underlying mechanisms., Methods: Firstly, UPLC-Q/TOF-MS analysis and network pharmacology were used to identify the constituents and elucidate the potential mechanisms of AGE against ALD. Secondly, C57BL/6 mice were pair-fed the Lieber-DeCarli diet containing either isocaloric maltodextrin or ethanol, AGE (150 and 300 mg/kg/d) and silymarin (200 mg/kg) were administered to chronic ethanol-fed mice for 7 weeks to evaluate the hepatoprotective effects. Serum biochemical parameters were determined, hepatic and ileum sections were used for histologic examination, and levels of inflammatory cytokines and oxidative stress in the liver were examined. The potential molecular mechanisms of AGE in improving ALD were demonstrated by RNA-seq, Western blotting analysis, and immunofluorescence staining., Results: Ten main constituents of AGE were identified using UPLC-Q/TOF-MS and 274 potential ALD-related targets were identified. The enriched KEGG pathways included Toll-like receptor signaling pathway, NF-κB signaling pathway, and necroptosis. Moreover, in vivo experimental studies demonstrated that AGE significantly reduced serum aminotransferase levels and improved pathological abnormalities after chronic ethanol intake. Meanwhile, AGE improved ALD in mice by down-regulating oxidative stress and inflammatory cytokines. Furthermore, AGE notably repaired damaged intestinal epithelial barrier and suppressed the production of gut-derived lipopolysaccharide by elevating intestinal tight junction protein expression. Subsequent RNA-seq and experimental validation indicated that AGE inhibited NF-κB nuclear translocation, suppressed IκB-α, RIPK3 and MLKL phosphorylation and alleviated hepatic necroptosis in mice., Conclusion: In this study, we have demonstrated for the first time that AGE protects against alcoholic liver disease by regulating the gut-liver axis and inhibiting the TLR4/NF-κB/MLKL-mediated necroptosis pathway. Therefore, our present work provides important experimental evidence for AGE as a promising candidate for protection against ALD., Competing Interests: Declaration of competing interest The authors declare no conflict of interests., (Copyright © 2024. Published by Elsevier GmbH.)

Published
2024
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34. Dehydroevodiamine Alleviates Ulcerative Colitis by Inhibiting the PI3K/AKT/NF-κB Signaling Pathway via Targeting AKT1 and Regulating Gut Microbes and Serum Metabolism.

Author

Ma X, Hu Q, Jiang T, Chen Y, Zhang W, Gao P, Zeng J, and Efferth T

Subjects
Animals, Male, Rats, Dextran Sulfate, Disease Models, Animal, Molecular Docking Simulation, NF-kappa B metabolism, Phosphatidylinositol 3-Kinases metabolism, Proto-Oncogene Proteins c-akt metabolism, Rats, Sprague-Dawley, Colitis, Ulcerative drug therapy, Colitis, Ulcerative chemically induced, Colitis, Ulcerative metabolism, Colitis, Ulcerative microbiology, Gastrointestinal Microbiome drug effects, Signal Transduction drug effects, Alkaloids administration & dosage
Abstract

Ulcerative colitis (UC) is a typical inflammatory bowel disease (IBD), impairing the quality of life of patients. Dehydroevodiamine (DHE) is an active alkaloid isolated from Tetradium ruticarpum that exerts significant anti-inflammatory effects in gastrointestinal diseases. However, the effect and mechanisms of DHE on UC remain unclear. We performed a DSS-induced experimental UC rat model to reveal the efficacy and potential mechanisms of DHE on UC. HE and AB-PAS staining were used for the evaluation of pathologies, and 16S rRNA sequencing was used to detect changes in gut microbes. Metabolomics was used to detect changes in serum metabolites. Network pharmacology and transcriptomics were conducted to reveal the underlying mechanisms of DHE for UC. HuProt proteome microarrays, molecular docking, and SPR were used to reveal the targets of action of DHE. WB, RT-qPCR, and IHC were used to assess the action effects of DHE. DHE demonstrated significant alleviation of DSS-induced colitis symptoms in rats by suppressing inflammatory and oxidative stress responses, amending colonic barrier injury, and inhibiting apoptosis. In terms of gut microbial modulation, DHE decreased the abundance of Allobaculum , Clostridium , Escherichia , Enterococcus , and Barnesiella and increased the abundance of Lactobacillus , Bifidobacterium , and SMB5 . Moreover, metabolomics suggested that the regulation of DHE in DSS-induced UC rats mainly involved aminoacyl-tRNA biosynthesis, vitamin B6 metabolism, phenylalanine, tyrosine, and so on. Mechanically, DHE alleviated UC in rats by targeting AKT1, thereby inhibiting the PI3K/AKT/NF-κB signaling pathway.

Published
2024
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35. Enhancing cisplatin drug sensitivity through PARP3 inhibition: The influence on PDGF and G-coupled signal pathways in cancer.

Author

Varol A, Klauck SM, Dantzer F, and Efferth T

Subjects
Humans, Cell Line, Tumor, Neoplasms drug therapy, Neoplasms genetics, Neoplasms pathology, Neoplasms metabolism, Poly(ADP-ribose) Polymerase Inhibitors pharmacology, Poly(ADP-ribose) Polymerase Inhibitors therapeutic use, Drug Resistance, Neoplasm drug effects, Drug Resistance, Neoplasm genetics, Polymorphism, Single Nucleotide, DNA Repair drug effects, Cell Cycle Proteins, Cisplatin pharmacology, Signal Transduction drug effects, Antineoplastic Agents pharmacology, Antineoplastic Agents therapeutic use, Platelet-Derived Growth Factor metabolism, Platelet-Derived Growth Factor genetics, Poly(ADP-ribose) Polymerases metabolism
Abstract

Drug resistance poses a significant challenge in cancer treatment despite the clinical efficacy of cisplatin. Identifying and targeting biomarkers open new ways to improve therapeutic outcomes. In this study, comprehensive bioinformatic analyses were employed, including a comparative analysis of multiple datasets, to evaluate overall survival and mutation hotspots in 27 base excision repair (BER) genes of more than 7,500 tumors across 23 cancer types. By using various parameters influencing patient survival, revealing that the overexpression of 15 distinct BER genes, particularly PARP3, NEIL3, and TDG, consistently correlated with poorer survival across multiple factors such as race, gender, and metastasis. Single nucleotide polymorphism (SNP) analyses within protein-coding regions highlighted the potential deleterious effects of mutations on protein structure and function. The investigation of mutation hotspots in BER proteins identified PARP3 due to its high mutation frequency. Moving from bioinformatics to wet lab experiments, cytotoxic experiments demonstrated that the absence of PARP3 by CRISPR/Cas9-mediated knockdown in MDA-MB-231 breast cancer cells increased drug activity towards cisplatin, carboplatin, and doxorubicin. Pathway analyses indicated the impact of PARP3 absence on the platelet-derived growth factor (PDGF) and G-coupled signal pathways on cisplatin exposure. PDGF, a critical regulator of various cellular functions, was downregulated in the absence of PARP3, suggesting a role in cancer progression. Moreover, the influence of PARP3 knockdown on G protein-coupled receptors (GPCRs) affects their function in the presence of cisplatin. In conclusion, the study demonstrated a synthetic lethal interaction between GPCRs, PDGF signaling pathways, and PARP3 gene silencing. PARP3 emerged as a promising target., Competing Interests: Declaration of competing interest The authors declare the following financial interests/personal relationships which may be considered as potential competing interests:Aysegul VAROL reports financial support was provided by Turkish Government (National Education Scholarship). If there are other authors, they declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 The Authors. Published by Elsevier B.V. All rights reserved.)

Published
2024
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36. Paeonia lactiflora Pall. ameliorates acetaminophen-induced oxidative stress and apoptosis via inhibiting the PKC-ERK pathway.

Author

Li Y, Deng X, Hu Q, Chen Y, Zhang W, Qin X, Wei F, Lu X, Ma X, Zeng J, and Efferth T

Subjects
Animals, Male, Mice, MAP Kinase Signaling System drug effects, Liver drug effects, Liver pathology, Liver metabolism, Plant Extracts pharmacology, Plant Extracts chemistry, Molecular Docking Simulation, Antioxidants pharmacology, Acetaminophen toxicity, Paeonia chemistry, Oxidative Stress drug effects, Mice, Inbred C57BL, Apoptosis drug effects, Chemical and Drug Induced Liver Injury drug therapy, Chemical and Drug Induced Liver Injury prevention & control, Chemical and Drug Induced Liver Injury pathology, Chemical and Drug Induced Liver Injury metabolism
Abstract

Ethnopharmacological Relevance: Paeonia lactiflora Pall. (PLP), a traditional Chinese medicine, is recognized for its antioxidative and anti-apoptotic properties. Despite its potential medicinal value, the mechanisms underlying its efficacy have been less explored, particularly in alleviating acute liver injury (ALI) caused by excessive intake of acetaminophen (APAP)., Aim of the Study: This study aims to elucidate the role and mechanisms of PLP in mitigating oxidative stress and apoptosis induced by APAP., Materials and Methods: C57BL/6 male mice were pre-treated with PLP for seven consecutive days, followed by the induction of ALI using APAP. Liver pathology was assessed using HE staining. Serum indicators, immunofluorescence (IF), immunohistochemical (IHC), and transmission electron microscopy were employed to evaluate levels of oxidative stress, ferroptosis and apoptosis. Differential expression proteins (DEPs) in the APAP-treated and PLP pre-treated groups were analyzed using quantitative proteomics. Subsequently, the potential mechanisms of PLP pre-treatment in treating ALI were validated using western blotting, molecular docking, molecular dynamics simulations, and surface plasmon resonance (SPR) analysis., Results: The UHPLC assay confirmed the presence of three compounds, i.e., albiflorin, paeoniflorin, and oxypaeoniflorin. Pre-treatment with PLP was observed to ameliorate liver tissue pathological damage through HE staining. Further confirmation of efficacy of PLP in alleviating APAP-induced liver injury and oxidative stress was established through liver function serum biochemical indicators, IF of reactive oxygen species (ROS) and IHC of glutathione peroxidase 4 (GPX4) detection. However, PLP did not demonstrate a significant effect in alleviating APAP-induced ferroptosis. Additionally, transmission electron microscopy and TUNEL staining indicated that PLP can mitigate hepatocyte apoptosis. PKC-ERK pathway was identified by proteomics, and subsequent molecular docking, molecular dynamics simulations, and SPR verified binding of the major components of PLP to ERK protein. Western blotting demonstrated that PLP suppressed protein kinase C (PKC) phosphorylation, blocking extracellular signal-regulated kinase (ERK) phosphorylation and inhibiting oxidative stress and cell apoptosis., Conclusion: This study demonstrates that PLP possesses hepatoprotective abilities against APAP-induced ALI, primarily by inhibiting the PKC-ERK cascade to suppress oxidative stress and cell apoptosis., Competing Interests: Declaration of competing interest T.E. is an Editorial Board Member/Associate Editor for Journal of Ethnopharmacology and was not involved in the editorial review or the decision to publish this article., (Copyright © 2024 Elsevier B.V. All rights reserved.)

Published
2024
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37. Anti-Inflammatory and Cancer-Preventive Potential of Chamomile ( Matricaria chamomilla L.): A Comprehensive In Silico and In Vitro Study.

Author

Drif AI, Yücer R, Damiescu R, Ali NT, Abu Hagar TH, Avula B, Khan IA, and Efferth T

Abstract

Background and Aim: Chamomile tea, renowned for its exquisite taste, has been appreciated for centuries not only for its flavor but also for its myriad health benefits. In this study, we investigated the preventive potential of chamomile ( Matricaria chamomilla L.) towards cancer by focusing on its anti-inflammatory activity., Methods and Results: A virtual drug screening of 212 phytochemicals from chamomile revealed β-amyrin, β-eudesmol, β-sitosterol, apigenin, daucosterol, and myricetin as potent NF-κB inhibitors. The in silico results were verified through microscale thermophoresis, reporter cell line experiments, and flow cytometric determination of reactive oxygen species and mitochondrial membrane potential. An oncobiogram generated through comparison of 91 anticancer agents with known modes of action using the NCI tumor cell line panel revealed significant relationships of cytotoxic chamomile compounds, lupeol, and quercetin to microtubule inhibitors. This hypothesis was verified by confocal microscopy using α-tubulin-GFP-transfected U2OS cells and molecular docking of lupeol and quercetin to tubulins. Both compounds induced G2/M cell cycle arrest and necrosis rather than apoptosis. Interestingly, lupeol and quercetin were not involved in major mechanisms of resistance to established anticancer drugs (ABC transporters, TP53 , or EGFR ). Performing hierarchical cluster analyses of proteomic expression data of the NCI cell line panel identified two sets of 40 proteins determining sensitivity and resistance to lupeol and quercetin, further pointing to the multi-specific nature of chamomile compounds. Furthermore, lupeol, quercetin, and β-amyrin inhibited the mRNA expression of the proinflammatory cytokines IL-1β and IL6 in NF-κB reporter cells (HEK-Blue Null1). Moreover, Kaplan-Meier-based survival analyses with NF-κB as the target protein of these compounds were performed by mining the TCGA-based KM-Plotter repository with 7489 cancer patients. Renal clear cell carcinomas (grade 3, low mutational rate, low neoantigen load) were significantly associated with shorter survival of patients, indicating that these subgroups of tumors might benefit from NF-κB inhibition by chamomile compounds., Conclusion: This study revealed the potential of chamomile, positioning it as a promising preventive agent against inflammation and cancer. Further research and clinical studies are recommended.

Published
2024
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38. Antidiabetic and antioxidant properties of Boswellia sacra oleo-gum in streptozotocin-induced diabetic rats.

Author

Al-Matubsi H, Rashan L, Aburayyan W, Al Hanbali O, Abuarqoub D, and Efferth T

Abstract

Background: Diabetes is a metabolic disorder requiring the administration of insulin or other oral hypoglycemic medicines. Although metformin is a popular prescription for type 2 diabetes, long-term use of chemotherapy-based diabetes medications can be hazardous. As a result, novel plant medicines with a high concentration of bioactive molecules, no harmful side effects, and potent pharmacological effects must be found. Edible Boswellia sacra (B. sacra) Flueck oleo-gum resin is widely utilized to treat many clinical diseases in traditional Arab, Chinese, African, and Ayurvedic medicine., Objective: The goal of this study was to examine the possible therapeutic benefits of several B. sacra oleo-gum resin extracts on rat streptozotocin (STZ)-induced hyperglycemia (Type II)., Materials and Methods: For 29 days, hyperglycemic rats are given either metformin (the reference drug; 250 mg/kg body weight per day) or several B. sacra extracts (ethanol, methanol, hydrodistilled, ethyl acetate, and acetone extracts) at doses of 200 or 400 mg/kg/day. Blood glucose levels and body weights were measured before the initiation and at 7, 11, 16, 22, and 29 days after oral treatment. Furthermore, an oral glucose tolerance test (OGTT) was carried out. At the end of the study, the rats were euthanized, and blood samples were obtained to evaluate cytokines (interleukin (IL-)2 and IL-8), reduced glutathione (GSH), superoxide dismutase (SOD), and serum insulin levels. The pancreas and liver tissues were rapidly excised, washed, fixed, and kept in a 10% formalin buffer for histological examination., Results: B. sacra's ethanolic extract had the greatest concentration of total pentacyclic triterpenic acid (PTA) (391.52 mg/g) in comparison to the other extracts. The lower dose of B. sacra ethanol extract, 200 mg/kg/day, reduces blood glucose levels more efficiently than the higher dose of 400 mg/kg/day. In a 180-min OGTT, diabetic rats given ethanol extract (200 mg/kg) performed no better than control rats and even outperformed those given the reference medication metformin. Additionally, ethanol extract (200 mg/kg)- or metformin-treated diabetic rats gained weight. This was associated with a significant (p < 0.05) decrease in serum levels of IL-2 and IL-8, a reduction in oxidative stress as evidenced by a significant (p < 0.05) increase in SOD and GSH compared to the untreated diabetic group, and a significant (p < 0.05) increase in serum insulin levels compared to normal plasma rat levels. These discoveries, which were eventually confirmed by histochemical assays, indicated that the ethanol extract of B. sacra greatly enhanced the cellular architecture of pancreatic and liver cells., Conclusion: The present investigation indicates that the ethanol extract of B. sacra oleo-gum resin, which contains a high proportion of acetyl-β-boswellic acid (β-ABA) and acetyl-11-keto-β-boswellic acid (AKBA), possesses antihyperglycemic, anti-inflammatory, and anti-oxidant properties for the first time to our knowledge. Additionally, it restores hepatic cells in STZ-induced diabetic rats and protects the pancreas against oxidative damage. Thus, the current study's results give a scientific rationale for the use of B. sacra in the medical management of diabetes and associated complications. More investigation into the metabolic profiles of these extracts must be conducted to establish the precise mechanism of action of the ethanol extract., Competing Interests: Conflict of Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper, (Copyright © 2024 The Authors. Published by Elsevier B.V. All rights reserved.)

Published
2024
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39. Optimized therapeutic potential of Yinchenhao decoction for cholestatic hepatitis by combined network meta-analysis and network pharmacology.

Author

Luo S, Huang M, Lu X, Zhang M, Xiong H, Tan X, Deng X, Zhang W, Ma X, Zeng J, and Efferth T

Subjects
Humans, Network Meta-Analysis, Cholestasis drug therapy, Rheum chemistry, Hepatitis drug therapy, Drugs, Chinese Herbal pharmacology, Drugs, Chinese Herbal therapeutic use, Network Pharmacology
Abstract

Background: Cholestatic hepatitis is recognized as a significant contributor to the development of liver fibrosis and cirrhosis. As a well-known classic formula for the treatment of cholestatic hepatitis, Yinchenhao decoction (YCHD) is widely used in countries in Asia, including China, Japan, and Korea. However, in recent years, a risk of liver injury has been reported from Rheum palmatum L. and Gardenia jasmonoides J.Ellis which are the main ingredients of YCHD. Therefore, the question arises whether YCHD is still safe enough for the treatment of cholestatic hepatitis or whether an optimized ratio of ingredients should be applied. These is inevitable questions for the clinical application of YCHD., Purpose: To provide a scientific basis for the clinical application of YCHD through a combination of meta-analysis and network pharmacology and to find the best ratio of components to ensure optimal therapeutic efficacy and safety. At the same time, a deeper understanding of the mechanisms of YCHD was explored., Methods: We retrieved relevant trials from various databases including PubMed, Web of Science, EMBASE, Cochrane Library, China National Knowledge Infrastructure (CNKI), VIP and Wanfang databases up to August 2023. After screening for inclusion and exclusion criteria, we assessed efficiency, ALT, AST, and TBIL as outcome parameters. The relevant data underwent a network meta-analysis using STATA 16.0 software. Based on network pharmacology, we screened the disease targets, active ingredients, and targets related to YCHD. The targets were visualized using Cytoscape 3.9.1. Then, potential mechanisms were explored based on bioinformatic techniques., Results: Twenty eligible studies were finally screened and a total of 1,591 patients who fulfilled the inclusion criteria were enrolled in the study. The meta-analysis results indicated that TG-c (treatment group c) [(Artemisia capillaris Thunb. : Gardenia jasminoides J.Ellis : Rheum palmatum L. = 10:5:2-10:5:3) + CT] was the most promising therapeutic approach, demonstrating superior efficacy and notable improvements in both AST and TBIL levels. For ALT, TG-d [(Artemisia capillaris : Gardenia jasminoides : Rheum palmatum = 5:1:1-5:2:1) + CT] exhibited the greatest potential as optimal therapy option. Based on the surface under the cumulative ranking curve (SUCRA) values, TG-c was the best therapy in terms of efficiency and improvement in TBIL levels, while TG-d was the most effective in reducing ALT levels. For AST levels, TG-e [(Artemisia capillaris : Gardenia jasminoides : Rheum palmatum = 5:2:2-5:3:3) + CT] was the most effective therapy. The comprehensive analysis revealed that TG-c exhibited the most pronounced efficacy. Combined network pharmacology, GO enrichment analysis and KEGG pathway enrichment analysis displayed that the key target genes of Artemisia capillaris, Rheum palmatum, and Gardenia jasminoides were closely involved in inflammation response, bile transport, apoptosis, oxidative stress, and regulation of leukocyte migration. Notably, bile secretion dominated the common pathway of the three herbs. On the other hand, Artemisia capillaris exhibited a unique mode of action by regulating the IL-17 signaling pathway, which may play a crucial role in its effectiveness., Conclusion: Based on our findings, the optimal TG-C demonstrated the most favorable overall therapeutic efficacy by increasing the dosage of Artemisia capillaris while reducing the dosage of Gardenia jasminoides and Rheum palmatum. This is attributed to the potent ability of Artemisia capillaris. to effectively modulate the IL-17 signaling pathway, thereby exerting a beneficial therapeutic effect. Conversely, Gardenia jasminoides and Rheum palmatum may potentially enhance the activation of the NF-кB signaling pathway, thereby elevating the risk of hepatotoxicity., Competing Interests: Declaration of competing interest The authors declare that they have no conflicts of interest regarding the research, authorship, or publication of this paper., (Copyright © 2024 Elsevier GmbH. All rights reserved.)

Published
2024
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40. Anticancer diterpenes of African natural products: Mechanistic pathways and preclinical developments.

Author

Bangay G, Brauning FZ, Rosatella A, Díaz-Lanza AM, Domínguez-Martín EM, Goncalves B, Hussein AA, Efferth T, and Rijo P

Subjects
Humans, Africa, Neoplasms drug therapy, Antineoplastic Agents, Phytogenic pharmacology, Antineoplastic Agents, Phytogenic chemistry, Animals, Antineoplastic Agents pharmacology, Antineoplastic Agents chemistry, Diterpenes pharmacology, Diterpenes chemistry, Biological Products pharmacology, Biological Products chemistry
Abstract

Background: The African continent is home to five biodiversity hotspots, boasting an immense wealth of medicinal flora, fungi and marine life. Diterpenes extracted from such natural products have compelling cytotoxic activities that warrant further exploration for the drug market, particularly in cancer therapy, where mortality rates remain elevated worldwide., Purpose: To demonstrate the potential of African natural products on the global stage for cancer therapy development and provide an in-depth analysis of the current literature on the activity of cancer cytotoxic diterpenes from African natural sources (to our knowledge, the first of its kind); not only to reveal the most promising candidates for clinical development, but to demonstrate the importance of preserving the threatened ecosystems of Africa., Methods: A comprehensive search by means of the PRISMA strategy was conducted using electronic databases, namely Web of Science, PubMed, Google Scholar and ScienceDirect. The search terms employed were 'diterpene & mechanism & cancer' and 'diterpene & clinical & cancer'. The selection process involved assessing titles in English, Portuguese and Spanish, adhering to predefined eligibility criteria. The timeframe for inclusion spanned from 2010 to 2023, resulting in 218 relevant papers. Chemical structures were visualized using ChemDraw 21.0, PubChem was utilized to search for CID numbers., Results: Despite being one of the richest biodiverse zones in the world, African natural products are proportionally underreported compared to Asian countries or otherwise. The diterpenes andrographolide (Andrographis paniculata), forskolin (Coleus forskohlii), ent-kauranes from Isodon spp., euphosorophane A (Euphorbia sororia), cafestol & kahweol (Coffea spp.), macrocylic jolkinol D derivatives (Euphorbia piscatoria) and cyathane erinacine A (Hericium erinaceus) illustrated the most encouraging data for further cancer therapy exploration and development., Conclusions: Diterpenes from African natural products have the potential to be economically significant active pharmaceutical and medicinal ingredients, specifically focussed on anticancer therapeutics., Competing Interests: Declaration of competing interest The authors declare the following financial interests/personal relationships which may be considered as potential competing interests: Patricia rijo reports financial support was provided by Universidade Lusófona. Patricia Rijo reports a relationship with Universidade Lusófona that includes: employment. If there are other authors, they declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier GmbH. All rights reserved.)

Published
2024
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41. SIRT1-activating butein inhibits arecoline-induced mitochondrial dysfunction through PGC1α and MTP18 in oral cancer.

Author

Behera BP, Mishra SR, Mahapatra KK, Patil S, Efferth T, and Bhutia SK

Subjects
Humans, Cell Line, Tumor, Cell Survival drug effects, Peroxisome Proliferator-Activated Receptor Gamma Coactivator 1-alpha metabolism, Mouth Neoplasms chemically induced, Mouth Neoplasms drug therapy, Mitochondria drug effects, Mitochondria metabolism, Arecoline pharmacology, Reactive Oxygen Species metabolism, Chalcones pharmacology, Sirtuin 1 metabolism
Abstract

Background: Mitochondrial dysfunction associated with mitochondrial DNA mutations, enzyme defects, generation of ROS, and altered oxidative homeostasis is known to induce oral carcinogenesis during exposure to arecoline. Butein, a natural small molecule from Butea monosperma, possesses anti-inflammatory, anti-diabetic, and anti-cancer effects. However, the role of butein in the mitochondrial quality control mechanism has not been illuminated clearly., Purpose: This study aimed to explore the role of butein in preserving mitochondrial quality control during arecoline-induced mitochondrial dysfunction in oral cancer to curtail the early onset of carcinogenesis., Methods: Cell viability was evaluated by MTT assay. The relative protein expressions were determined by western blotting. Immunofluorescence and confocal imaging were used to analyze the relative fluorescence and co-localization of proteins. Respective siRNAs were used to examine the knockdown-based studies., Results: Butein, in the presence of arecoline, significantly caused a decrease in mitochondrial hyperpolarization and ROS levels in oral cancer cells. Mechanistically, we found an increase in COXIV, TOM20, and PGC1α expression during butein treatment, and inhibition of PGC1α blunted mitochondrial biogenesis and decreased the mitochondrial pool. Moreover, the fission protein MTP18, and its molecular partners DRP1 and MFF were dose-dependently increased during butein treatment to maintain mitochondria mass. In addition, we also found increased expression of various mitophagy proteins, including PINK1, Parkin, and LC3 during butein treatment, suggesting the clearance of damaged mitochondria to maintain a healthy mitochondrial pool. Interestingly, butein increased the activity of SIRT1 to enhance the functional mitochondrial pool, and inhibition of SIRT1 found to reduce the mitochondrial levels, as evident from the decrease in the expression of PGC1α and MTP18 in oral cancer cells., Conclusion: Our study proved that SIRT1 maintains a functional mitochondrial pool through PGC1α and MTP18 for biogenesis and fission of mitochondria during arecoline exposure and could decrease the risk of mitochondria dysfunctionality associated with the onset of oral carcinogenesis., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier GmbH. All rights reserved.)

Published
2024
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42. Anti-aging effects of medicinal plants and their rapid screening using the nematode Caenorhabditis elegans.

Author

Chen X, Bahramimehr F, Shahhamzehei N, Fu H, Lin S, Wang H, Li C, Efferth T, and Hong C

Subjects
Animals, Humans, Signal Transduction drug effects, Metformin pharmacology, Sirolimus pharmacology, Plant Extracts pharmacology, Plant Extracts chemistry, Caenorhabditis elegans drug effects, Plants, Medicinal chemistry, Aging drug effects
Abstract

Background: Aging is the primary risk factor of most chronic diseases in humans, including cardiovascular diseases, osteoporosis and neurodegenerative diseases, which extensively damage the quality of life for elderly individuals. Aging is a multifaceted process with numerous factors affecting it. Efficient model organisms are essential for the research and development of anti-aging agents, particularly when investigating pharmacological mechanisms are needed., Purpose: This review discusses the application of Caenorhabditis elegans for studying aging and its related signaling pathways, and presents an overview of studies exploring the mechanism and screening of anti-aging agents in C. elegans. Additionally, the review summarizes related clinical trials of anti-aging agents to inspire the development of new medications., Method: Literature was searched, analyzed, and collected using PubMed, Web of Science, and Science Direct. The search terms used were "anti-aging", "medicinal plants", "synthetic compounds", "C. elegans", "signal pathway", etc. Several combinations of these keywords were used. Studies conducted in C. elegans or humans were included. Articles were excluded, if they were on studies conducted in silico or in vitro or could not offer effective data., Results: Four compounds mainly derived through synthesis (metformin, rapamycin, nicotinamide mononucleotide, alpha-ketoglutarate) and four active ingredients chiefly obtained from plants (resveratrol, quercetin, Astragalus polysaccharide, ginsenosides) are introduced emphatically. These compounds and active ingredients exhibit potential anti-aging effects in preclinical and clinical studies. The screening of these anti-aging agents and the investigation of their pharmacological mechanisms can benefit from the use of C. elegans., Conclusion: Medicinal plants provide valuable resource for the treatment of diseases. A wide source of raw materials for the particular plant medicinal compounds having anti-aging effects meet diverse pharmaceutical requirements, such as immunomodulatory, anti-inflammation and alleviating oxidative stress. C. elegans possesses advantages in scientific research including short life cycle, small size, easy maintenance, genetic tractability and conserved biological processes related to aging. C. elegans can be used for the efficient and rapid evaluation of compounds with the potential to slow down aging., Competing Interests: Declaration of competing interest We confirm that there are no known conflicts of interest associated with this publication., (Copyright © 2024. Published by Elsevier GmbH.)

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2024
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43. Strategies to enhance the response of liver cancer to pharmacological treatments.

Author

Marin JJG, Macias RIR, Asensio M, Romero MR, Temprano AG, Pereira OR, Jimenez S, Mauriz JL, Di Giacomo S, Avila MA, Efferth T, and Briz O

Subjects
Humans, Animals, Antineoplastic Agents therapeutic use, Carcinoma, Hepatocellular drug therapy, Carcinoma, Hepatocellular immunology, Carcinoma, Hepatocellular pathology, Carcinoma, Hepatocellular genetics, Immunotherapy methods, Immune Checkpoint Inhibitors therapeutic use, Immune Checkpoint Inhibitors pharmacology, Drug Resistance, Neoplasm drug effects, Protein Kinase Inhibitors therapeutic use, Cholangiocarcinoma drug therapy, Cholangiocarcinoma immunology, Cholangiocarcinoma pathology, Epigenesis, Genetic drug effects, Liver Neoplasms drug therapy, Liver Neoplasms immunology, Liver Neoplasms pathology, Liver Neoplasms genetics
Abstract

In contrast to other types of cancers, there is no available efficient pharmacological treatment to improve the outcomes of patients suffering from major primary liver cancers, i.e., hepatocellular carcinoma and cholangiocarcinoma. This dismal situation is partly due to the existence in these tumors of many different and synergistic mechanisms of resistance, accounting for the lack of response of these patients, not only to classical chemotherapy but also to more modern pharmacological agents based on the inhibition of tyrosine kinase receptors (TKIs) and the stimulation of the immune response against the tumor using immune checkpoint inhibitors (ICIs). This review summarizes the efforts to develop strategies to overcome this severe limitation, including searching for novel drugs derived from synthetic, semisynthetic, or natural products with vectorial properties against therapeutic targets to increase drug uptake or reduce drug export from cancer cells. Besides, immunotherapy is a promising line of research that is already starting to be implemented in clinical practice. Although less successful than in other cancers, the foreseen future for this strategy in treating liver cancers is considerable. Similarly, the pharmacological inhibition of epigenetic targets is highly promising. Many novel "epidrugs," able to act on "writer," "reader," and "eraser" epigenetic players, are currently being evaluated in preclinical and clinical studies. Finally, gene therapy is a broad field of research in the fight against liver cancer chemoresistance, based on the impressive advances recently achieved in gene manipulation. In sum, although the present is still dismal, there is reason for hope in the non-too-distant future.

Published
2024
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44. Structural features and antiproliferative activity of Pd(II) complexes with halogenated ligands: a comparative study between Schiff base and reduced Schiff base complexes.

Author

Forooghi K, Amiri Rudbari H, Stagno C, Iraci N, Cuevas-Vicario JV, Kordestani N, Schirmeister T, Efferth T, Omer EA, Moini N, Aryaeifar M, Blacque O, Azadbakht R, and Micale N

Subjects
Humans, Ligands, Crystallography, X-Ray, Cell Line, Tumor, Halogenation, Molecular Structure, Drug Screening Assays, Antitumor, Models, Molecular, Schiff Bases chemistry, Schiff Bases pharmacology, Palladium chemistry, Palladium pharmacology, Cell Proliferation drug effects, Antineoplastic Agents pharmacology, Antineoplastic Agents chemistry, Antineoplastic Agents chemical synthesis, Coordination Complexes chemistry, Coordination Complexes pharmacology, Coordination Complexes chemical synthesis
Abstract

In order to investigate the structural features and antiproliferative activity of Pd(II) complexes containing halogenated ligands with different flexibility, several Schiff base and reduced Schiff base Pd(II) complexes, namely X1X2PicPd, X1X2PyPd, X1X2Pic(R)Pd, and X1X2Py(R)Pd (where X 1 = X 2 = Cl, Br and I; Pic: 2-picolylamine; Py = 2-(2-pyridyl)ethylamine), were synthesized and characterized by spectroscopic methods and, in the case of Br2PyPd, Cl2Py(R)Pd and ClBrPy(R)Pd, also by X-ray crystallography. The results of the X-ray crystallography showed that in both series of complexes the Pd(II) ion has a distorted square-planar geometry, although the coordination modes of the two ligands are different. In the Schiff base-type complexes the ligand acts as a tridentate chelate with NN'O donor atoms, whereas in the reduced Schiff base-type complexes the ligand acts as a bidentate chelate with NN' donor atoms. In both series of complexes, the chloride ions occupy the residual coordination sites of the Pd(II) ion. TD-DFT calculations were performed for a better understanding of the UV-Vis spectra. From these calculations it was found that the signal appearing at ∼400 nm in the complexes with reduced Schiff base ligands (X1X2Pic(R)Pd and X1X2Py(R)Pd) is mainly due to a HOMO → LUMO transition, while for the Schiff base complex ClBrPyPd the signal is due to a HOMO → LUMO+1 transition. For the complex I2PicPd, combinations of HOMO-4 → LUMO and HOMO-2 → LUMO transitions were found to be responsible for that signal. In regard to the biological activity profile, all complexes were first investigated as proteasome inhibitors by fluorometric methods. From these enzymatic assays, it emerged that they are good inhibitors with IC 50 values in the low-micromolar range and that their inhibitory activity is strictly related to the presence of the metal ion. Subsequently they were also subjected to cell-based assays (the resazurin method) to assess their antiproliferative properties by using two leukemic cell lines, namely the drug-sensitive CCRF-CEM cell line and its multidrug-resistant sub-cell line CEM/ADR5000. In this test they displayed IC 50 values in the sub-micromolar and low-micromolar range determined for a selected metal complex (Br2Pic(R)Pd) and ligand (Cl2Pic(R)), respectively. Moreover, docking studies were performed on the two expected molecular targets, i.e. proteasome and DNA, to shed light on the mechanisms of action of these types of Pd(II) complexes.

Published
2024
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45. The Histogenetic Origin of Malignant Cells Predicts Their Susceptibility towards Synthetic Lethality Utilizing the TK.007 System.

Author

Pallasch FB, Freytag V, Kriegs M, Gatzemeier D, Mair T, Voss H, Riecken K, Dawood M, Fehse B, Efferth T, Schlüter H, and Schumacher U

Abstract

Background: Remarkable differences exist in the outcome of systemic cancer therapies. Lymphomas and leukemias generally respond well to systemic chemotherapies, while solid cancers often fail. We engineered different human cancer cells lines to uniformly express a modified herpes simplex virus thymidine kinase TK.007 as a suicide gene when ganciclovir (GCV) is applied, thus in theory achieving a similar response in all cell lines., Methods: Fifteen different cell lines were engineered to express the TK.007 gene. XTT-cell proliferation assays were performed and the IC 50 -values were calculated. Functional kinome profiling, mRNA sequencing, and bottom-up proteomics analysis with Ingenuity pathway analysis were performed., Results: GCV potency varied among cell lines, with lymphoma and leukemia cells showing higher susceptibility than solid cancer cells. Functional kinome profiling implies a contribution of the SRC family kinases and decreased overall kinase activity. mRNA sequencing highlighted alterations in the MAPK pathways and bottom-up proteomics showed differences in apoptotic and epithelial junction signaling proteins., Conclusions: The histogenetic origin of cells influenced the susceptibility of human malignant cells towards cytotoxic agents with leukemias and lymphomas being more sensitive than solid cancer cells.

Published
2024
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46. Advances in antitumor activity and mechanism of natural steroidal saponins: A review of advances, challenges, and future prospects.

Author

Wang F, Liang L, Yu M, Wang W, Badar IH, Bao Y, Zhu K, Li Y, Shafi S, Li D, Diao Y, Efferth T, Xue Z, and Hua X

Subjects
Humans, Neoplasms drug therapy, Animals, Apoptosis drug effects, Saponins pharmacology, Saponins chemistry, Saponins therapeutic use, Steroids pharmacology, Steroids chemistry, Antineoplastic Agents, Phytogenic pharmacology, Antineoplastic Agents, Phytogenic chemistry
Abstract

Background: Cancer, the second leading cause of death worldwide following cardiovascular diseases, presents a formidable challenge in clinical settings due to the extensive toxic side effects associated with primary chemotherapy drugs employed for cancer treatment. Furthermore, the emergence of drug resistance against specific chemotherapeutic agents has further complicated the situation. Consequently, there exists an urgent imperative to investigate novel anticancer drugs. Steroidal saponins, a class of natural compounds, have demonstrated notable antitumor efficacy. Nonetheless, their translation into clinical applications has remained unrealized thus far. In light of this, we conducted a comprehensive systematic review elucidating the antitumor activity, underlying mechanisms, and inherent limitations of steroidal saponins. Additionally, we propose a series of strategic approaches and recommendations to augment the antitumor potential of steroidal saponin compounds, thereby offering prospective insights for their eventual clinical implementation., Purpose: This review summarizes steroidal saponins' antitumor activity, mechanisms, and limitations., Methods: The data included in this review are sourced from authoritative databases such as PubMed, Web of Science, ScienceDirect, and others., Results: A comprehensive summary of over 40 steroidal saponin compounds with proven antitumor activity, including their applicable tumor types and structural characteristics, has been compiled. These steroidal saponins can be primarily classified into five categories: spirostanol, isospirostanol, furostanol, steroidal alkaloids, and cholestanol. The isospirostanol and cholestanol saponins are found to have more potent antitumor activity. The primary antitumor mechanisms of these saponins include tumor cell apoptosis, autophagy induction, inhibition of tumor migration, overcoming drug resistance, and cell cycle arrest. However, steroidal saponins have limitations, such as higher cytotoxicity and lower bioavailability. Furthermore, strategies to address these drawbacks have been proposed., Conclusion: In summary, isospirostanol and cholestanol steroidal saponins demonstrate notable antitumor activity and different structural categories of steroidal saponins exhibit variations in their antitumor signaling pathways. However, the clinical application of steroidal saponins in cancer treatment still faces limitations, and further research and development are necessary to advance their potential in tumor therapy., Competing Interests: Declaration of competing interest The authors declare not to have any conflicts of interest., (Copyright © 2024 Elsevier GmbH. All rights reserved.)

Published
2024
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47. Lignan contents of Schisandra chinensis (Turcz.) Baill. from different origins-A new model for evaluating the content of prominent components of Chinese herbs.

Author

He D, Pei X, Liu B, Li J, Dong J, Efferth T, and Ma P

Subjects
Chromatography, High Pressure Liquid methods, China, Polycyclic Compounds analysis, Dioxoles analysis, Quality Control, Principal Component Analysis, Schisandra chemistry, Lignans analysis, Drugs, Chinese Herbal chemistry, Drugs, Chinese Herbal analysis, Cyclooctanes analysis
Abstract

Background: As a traditional Chinese herbal medicine, Schisandra chinensis exhibits various effects such as liver protection, blood sugar regulation, blood lipid regulation, immune function regulation, antidepressant activity, etc. However, because of its intricate composition, diverse origins, and medicinal effects depending on complex compound groups, there are differences in the lignan composition of S. chinensis from different origins. Therefore, it is currently difficult to evaluate the quality of medicinal materials from plants of different origins using a single qualitative quality control index., Purpose: This paper aims to investigate the potential relationship between the lignan components of S. chinensis from different origins and to establish stable assessment indices for determining the lignan content of S. chinensis from multiple perspectives., Methods: In this study, we collected S. chinensis samples of seven major origins in China, and randomly sampled 6-9 batches of each origin for a total of 60 batches. The lignan content was determined by HPLC, and its distribution law of the ratio of each lignan component of S. chinensis to Schisandrol A content was analyzed. Combining network pharmacology and differential analysis between samples, the stable and effective substances used as quality markers were determined., Results: There were some correlations among the lignan contents of S. chinensis, some correlations between schisandrin A and other lignans of S. chinensis could be determined. The ratio of each component to the indicator component schisandrol A was evenly distributed and reflected the lignan content of S. chinensis to some extent. Four substances (schisandrol A, schisandrol B, schisantherin A, and schisandrin C) were determined by network pharmacology combined with the analysis results of HCA, PCA and PLS-DA to further optimize the model. They displayed a strong connection with the core target, a large contribution rate to the principal components, and a stable content in each batch of samples, suggesting that these components may be the main active substances of S. chinensis lignans. Therefore, they could be used as main indicators evaluating the advantages and disadvantages of S. chinensis by examining the consistency of component proportions., Conclusion: This method can intuitively evaluate the content of main lignans in S. chinensis. This quality assessment model is an exploration of the multi-component comprehensive evaluation system of S. chinensis, providing a new concept for the quality evaluation system of Chinese herbal medicines., Competing Interests: Declaration of competing interest The authors declare that there is no conflict of interest., (Copyright © 2024 Elsevier GmbH. All rights reserved.)

Published
2024
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48. Recent advancement of autophagy in polyploid giant cancer cells and its interconnection with senescence and stemness for therapeutic opportunities.

Author

Patra S, Naik PP, Mahapatra KK, Alotaibi MR, Patil S, Patro BS, Sethi G, Efferth T, and Bhutia SK

Subjects
Humans, Animals, Epithelial-Mesenchymal Transition, Autophagy, Polyploidy, Cellular Senescence drug effects, Neoplasms pathology, Neoplasms genetics, Neoplasms drug therapy, Neoplasms metabolism, Neoplastic Stem Cells pathology, Neoplastic Stem Cells metabolism, Neoplastic Stem Cells drug effects
Abstract

Recurrent chemotherapy-induced senescence and resistance are attributed to the polyploidization of cancer cells that involve genomic instability and poor prognosis due to their unique form of cellular plasticity. Autophagy, a pre-dominant cell survival mechanism, is crucial during carcinogenesis and chemotherapeutic stress, favouring polyploidization. The selective autophagic degradation of essential proteins associated with cell cycle progression checkpoints deregulate mitosis fidelity and genomic integrity, imparting polyploidization of cancer cells. In connection with cytokinesis failure and endoreduplication, autophagy promotes the formation, maintenance, and generation of the progeny of polyploid giant cancer cells. The polyploid cancer cells embark on autophagy-guarded elevation in the expression of stem cell markers, along with triggered epithelial and mesenchymal transition and senescence. The senescent polyploid escapers represent a high autophagic index than the polyploid progeny, suggesting regaining autophagy induction and subsequent autophagic degradation, which is essential for escaping from senescence/polyploidy, leading to a higher proliferative phenotypic progeny. This review documents the various causes of polyploidy and its consequences in cancer with relevance to autophagy modulation and its targeting for therapeutic intervention as a novel therapeutic strategy for personalized and precision medicine., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier B.V. All rights reserved.)

Published
2024
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49. In Vivo and Clinical Studies of Natural Products Targeting the Hallmarks of Cancer.

Author

Elbadawi M and Efferth T

Abstract

Despite more than 200 approved anticancer agents, cancer remains a leading cause of death worldwide due to disease complexity, tumour heterogeneity, drug toxicity, and the emergence of drug resistance. Accordingly, the development of chemotherapeutic agents with higher efficacy, a better safety profile, and the capability of bypassing drug resistance would be a cornerstone in cancer therapy. Natural products have played a pivotal role in the field of drug discovery, especially for the pharmacotherapy of cancer, infectious, and chronic diseases. Owing to their distinctive structures and multiple mechanistic activities, natural products and their derivatives have been utilized for decades in cancer treatment protocols. In this review, we delve into the potential of natural products as anticancer agents by targeting cancer's hallmarks, including sustained proliferative signalling, evading growth suppression, resisting apoptosis and cell death, enabling replicative immortality, inducing angiogenesis, and activating invasion and metastasis. We highlight the molecular mechanisms of some natural products, in vivo studies, and promising clinical trials. This review emphasizes the significance of natural products in fighting cancer and the need for further studies to uncover their fully therapeutic potential., (© 2024. The Author(s), under exclusive license to Springer Nature Switzerland AG.)

Published
2024
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50. Salvimulticanol from Salvia multicaulis suppresses LPS-induced inflammation in RAW264.7 macrophages: in vitro and in silico studies.

Author

Hamed AR, Nabih HK, El-Rashedy AA, Mohamed TA, Mostafa OE, K Ali S, Efferth T, and Hegazy MF

Abstract

Sustained inflammatory responses can badly affect several vital organs and lead to chronic inflammation-related disorders, such as atherosclerosis, pneumonia, rheumatoid arthritis, obesity, diabetes, Alzheimer's disease, and cancers. Salvia multicaulis is one of the widely distributed plants that contains several biologically active phytochemicals and diterpenoids with anti-inflammatory effects. Therefore, finding alternative and safer natural plant-extracted compounds with good curative anti-inflammatory efficiencies is an urgent need for the clinical treatment of inflammation-related diseases. In the current study, S. multicaulis Vahl was used to extract and isolate two compounds identified as salvimulticanol and candesalvone B methyl ester to examine their effects against inflammation in murine macrophage RAW264.7 cells that were induced by lipopolysaccharide (LPS). Accordingly, after culturing RAW264.7 cells and induction of inflammation by LPS (100 ng/ml), cells were exposed to different concentrations (9, 18, 37.5, 75, and 150 µM) of each compound. Then, Griess assay for detection of nitric oxide (NO) levels and western blotting for the determination of inducible nitric oxide synthase (iNOS) expression were performed. Molecular docking and molecular dynamics (MD) simulation studies were employed to investigate the anti-inflammatory mechanism. Our obtained results validated that the level of NO was significantly decreased in the macrophage cell suspensions as a response to salvimulticanol treatment in a dose-dependent manner (IC 50 : 25.1 ± 1.2 µM) as compared to the methyl ester of candesalvone B which exerted a weaker inhibition (IC 50 : 69.2 ± 3.0 µM). This decline in NO percentage was comparable with a down-regulation of iNOS expression by western blotting. Salvimulticanol strongly interacted with both the Toll-like receptor 4 (TLR4)/myeloid differentiation factor 2 (MD-2) complex and the inhibitor of nuclear factor kappa-B (NF- κ B) kinase subunit beta (IKKβ) to disrupt their inflammatory activation due to the significant hydrogen bonds and effective interactions with amino acid residues present in the target proteins' active sites. S.multicaulis is a rich natural source of the aromatic abietane diterpenoid, salvimulticanol, which exerted a strong anti-inflammatory effect through targeting iNOS and diminishing NO production in LPS-induced RAW264.7 cells in a mechanism that is dependent on the inhibition of TLR4-MD-2 and IKKβ as activators of the classical NF- κ B-mediated inflammatory pathway., Competing Interests: Conflict of interestThe authors declared no conflict of interest., (© King Abdulaziz City for Science and Technology 2024. Springer Nature or its licensor (e.g. a society or other partner) holds exclusive rights to this article under a publishing agreement with the author(s) or other rightsholder(s); author self-archiving of the accepted manuscript version of this article is solely governed by the terms of such publishing agreement and applicable law.)

Published
2024
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