Your search keyword '"Anti-Cancer"' showing total 6,184 results

1. Purple Tomato - Importance and scope: A review

Author

Sharma, Laxmi, Kumar, Rajeev, Paul, Vijay, Pandey, Rakesh, and Lal, Milan Kumar

Published

2024

2. Newly Synthesized Citral Derivatives Serve as Novel Inhibitor in HepG2 Cells.

Author

Gao, Wei, Hua, Xiaoju, Liao, Shengliang, Xiahou, Zhikai, Yang, Haikuan, Hu, Lifang, and Chi, Yunyang

Abstract

2H‐pyran compound 1 synthesized from 6‐methylpyridine‐2,4‐diol and citral, has been used for Cu‐catalyzed N‐arylation with a range of arylboric acids to obtain arylated pyranopyridine core structure derivatives (yield up to 77 %). Among them, compound 3 h exhibited a much better inhibitory effect on HepG2 liver cancer cells compared to citral, and the IC50 value was 5.3 μM following exposure with the newly synthesized derivatives (herein named 3 h for short in this paper), which was lower than that of the cisplatin (6.5 μM). Meanwhile, the cell‐cycle arrest of HepG2 cells occurred in the S phase, and the apoptosis of HepG2 cells was significantly increased with increasing drug concentration. In addition, real‐time fluorescence quantification PCR and Western blotting experiments showed that the expression of apoptotic protein BAX was increased, while the expression of anti‐apoptotic protein BCL2 was inhibited in a dose‐dependent fashion. The results of these experiments indicated that apoptosis was promoted in HepG2 cells via apoptotic signaling pathway activated by 3 h. Furthermore, 3 h effectively decreased the phosphorylation levels of PI3 K, ATK and ERK, resulting in the inhibitions of MAPK/ERK and PI3 K/ATK signaling pathways. Briefly, 3 h has been found to show inhibitory effects on the survival of HepG2 liver cancer cells and may be used as anti‐cancer drug in the future. [ABSTRACT FROM AUTHOR]

Published

2024

3. "Cleome rutidosperma leaf extract mediated biosynthesis of silver nanoparticles and anti-candidal, anti-biofilm, anti-cancer, and molecular docking analysis".

Author

Ganesh Kumar A, Pugazhenthi E, Sankarganesh P, Muthusamy C, Rajasekaran M, Lokesh E, Khusro, Ameer, and Kavya G

Abstract

Biofilms are notoriously difficult to eradicate and are a source of many recalcitrant infections. There is effective biofilm management with silver nanoparticles. However, silver nanoparticles that are chemically mediated are extremely harmful to ecosystems. The current study synthesized AgNPs using Cleome rutidosperma leaf extract (CrLE) and analyzed it in UV-VIS, FT-IR, XRD spectroscopy, and TEM for the physical formation and tested with Candida albicans, A431 (Epidermoid carcinoma) cells for its biological efficacy and molecular docking also done. The CrLF has significant phytochemicals such as flavonoids, tannins, terpenoids, and glycosides. The CrLE-AgNPs produced a surface plasmon resonance (SPR) peak at 450 nm in the UV-Vis spectrum and the FT-IR functional groups had -O-H, -N-H stretching at 3423.83 cm-1 due to hydroxyl and amino groups; C=C and C=O stretching at 1632.53 cm-1 due to flavonoid; and C-H deformation at 1110.42 cm-1 due to AgO formation. The XRD peaks revealed the particle size as 14.07 nm. The TEM and SAED studies confirmed the development of spherical shaped AgNPs with agglomeration. During biological characterization, the synthesized AgNPs produced an inhibitory zone against Candida albicans and its biofilm between 30 μg/mL to 50 μg/mL concentrations and produced cytotoxicity against A431 (epidermoid carcinoma) cells (in vitro) at an IC50 value of 36.56 µg/ml. A molecular docking study revealed that a well-conserved binding region is present and predicted the best binding energy value between Als3 adhesin (PDB ID: 4LE8) and silver oxide nanoparticle is -9.60 kcal/mol. The results of this study show that AgNPs made from the leaf extract of Cleome rutidosperma could be used to treat infections caused by anti-candida. [ABSTRACT FROM AUTHOR]

Published

2024

4. Deciphering quinazoline derivatives' interactions with EGFR: a computational quest for advanced cancer therapy through 3D-QSAR, virtual screening, and MD simulations.

Author

Anwar, Sirajudheen, Alanazi, Jowaher, Ahemad, Nafees, Raza, Shafaq, Chohan, Tahir Ali, and Saleem, Hammad

Subjects

EPIDERMAL growth factor receptors, QSAR models, MOLECULAR dynamics, QUINAZOLINE, MEDICAL screening

Abstract

Introduction: The epidermal growth factor receptor (EGFR) presents a crucial target for combatting cancer mortality. Methods: This study employs a suite of computational techniques, including 3D-QSAR, ligand-based virtual screening, molecular docking, fingerprinting analysis, ADME, and DFT-based analyses (MESP, HOMO, LUMO), supplemented by molecular dynamics simulations and MMGB/PBSA free energy calculations, to explore the binding dynamics of quinazoline derivatives with EGFR. With strong q2 and r2 values from CoMFA and CoMSIA models, our 3D- QSAR models reliably predict EGFR inhibitors' efficacy. Results and Discussion: Utilizing a potent model compound as a reference, an E-pharmacophore model was developed to sift through the eMolecules database, identifying 19 virtual screening hits based on ShapeTanimoto, ColourTanimoto, and TanimotoCombo scores. These hits, assessed via 3D- QSAR, showed pIC50 predictions consistent with experimental data. Our analyses elucidate key features essential for EGFR inhibition, reinforced by ADME studies that reveal favorable pharmacokinetic profiles for most compounds. Among the primary phytochemicals examined, potential EGFR inhibitors were identified. Detailed MD simulation analyses on three select ligands—1Q1, 2Q17, and VS1—demonstrated their stability and consistent interaction over 200 ns, with MM/GBSA values corroborating their docking scores and highlighting 1Q1 and VS1's superior EGFR1 affinity. These results position VS1 as an especially promising lead in EGFR1 inhibitor development, contributing valuable insights towards crafting novel, effective EGFR1 inhibitors. [ABSTRACT FROM AUTHOR]

Published

2024

5. Design, synthesis, and biological evaluation of 2,4-dimorpholinopyrimidine-5-carbonitrile derivatives as orally bioavailable PI3K inhibitors.

Author

Huang, Daowei, Yang, Jixia, Zhang, Qingwei, Zhou, Xiaolei, Wang, Yanbo, Shang, Zhenhua, Li, Jianqi, and Zhang, Baoyin

Subjects

AMES test, PHOSPHATIDYLINOSITOL 3-kinases, CYTOTOXINS, OVARIAN cancer, CANCER cells

Abstract

Introduction: Phosphoinositide-3-kinase (PI3K) is overexpressed in many tumors and is, thus, an ideal target for cancer treatments. Accordingly, there is an urgent need for the development of PI3K inhibitors with high potency and low toxicity. Methods: In this study, we designed and synthesized a series of 2,4-dimorpholinopyrimidine-5-carbonitrile derivatives, which were evaluated for their PI3K inhibitory potency. Results and discussion: Compound 17p demonstrated comparable PI3Kα inhibitory activity (IC50: 31.8 ± 4.1 nM) to the positive control, BKM-120 (IC50: 44.6 ± 3.6 nM). In addition, 17p showed significant inhibitory activity against PI3Kδ (IC50: 15.4 ± 1.9 nM) and significant isoform selectivity against PI3Kβ, PI3Kγ, and mTOR. Furthermore, 17p exhibited good antiproliferative activities against cancer cell activity and good safety in the Ames and hERG tests while having outstanding liver microsomal stability in vitro , with half-lives of 38.5 min in rats and 127.9 min in humans. In addition, in an apoptosis assay, 17p could induce dose-dependent cytotoxicity in the ovarian cancer cell line A2780. In a pharmacokinetic study, 17p was stable (T ½: 2.03 h) and showed high bioavailability (46.2%). Collectively, these results indicate that 17p could be a promising PI3K agent for cancer treatment. [ABSTRACT FROM AUTHOR]

Published

2024

6. Heterocyclic Organic Compounds as a Fluorescent Chemosensor for Cell Imaging Applications: A Review.

Author

Mohammad Abu-Taweel, Gasem, Alharthi, Salman S., Al-Saidi, Hamed M., Babalghith, Ahmad O., Ibrahim, Munjed M., and Khan, Sikandar

Subjects

*HETEROCYCLIC compounds, *CELL imaging, *METAL ions, *ORGANIC compounds, *DETECTION limit

Abstract

Fluorometric determination of different biologically, industrially, and environmentally important analytes is a powerful technique because this technique has excellent selectivity, high sensitivity, rapid photoluminescence response, low cost, applicability to bioimaging, and low detection limit. Fluorescence imaging is a powerful technique for screening different analytes in the living system. Heterocyclic organic compounds have been extensively used as a fluorescence chemosensor for the determination of different biologically important cations like Co2+, Zn2+, Cu2+, Hg2+, Ag+, Ni2+, Cr3+, Al3+, Pd2+, Fe3+ Pt2+, Mn2+, Sn2+, Pd2+, Au3+, Pd2+, Cd2+, Pb2+ and other ions in biological and environmental systems. These compounds also showed significant biological applications such as anti-cancer, anti-ulcerogenic, antifungal, anti-inflammatory, anti neuropathic, antihistaminic, antihypertensive, analgesic, antitubercular, antioxidant, antimalarial, antiparasitic, antiglycation, antiviral anti-obesity, and antibacterial potency. In this review, we summarize the heterocyclic organic compounds based on fluorescent chemosensors and their applications in bioimaging studies for the recognition of different biologically important metal ions. [ABSTRACT FROM AUTHOR]

Published

2024

7. Oil/water (O/W) nanoemulsions developed from essential oil extracted from wildly growing Calotropis gigantea (Linn.) Aiton F.: synthesis, characterization, stability and evaluation of anti-cancerous, anti-oxidant, anti-inflammatory and anti-diabetic activities

Author

Sharma, Arun Dev, Chhabra, Ravindresh, Rani, Jyoti, Chauhan, Amrita, Kaur, Inderjeet, and Kapoor, Gaurika

Subjects

*ESSENTIAL oils, *IRON chelates, *CALOTROPIS, *HYDROXYL group, *PHARMACOKINETICS

Abstract

Calotropis gigantea essential oil is utilized in outmoded medicine, therapeutics, and the cosmetic industries. However, the extreme volatility, oxidation susceptibility, and instability of this oil restricts its application. Thus, encapsulation is a more effective method of shielding this oil from unfavorable circumstances. The creation of oil/water (O/W) nanoemulsions based on Calotropis gigantea essential oil (CEO), known as CNE (Calotropis gigantea essential oil nanoemulsions), and an assessment of its biological potential were the goals of this work. UV, fluorescence, and FT-IR methods were used for physiological characterization. Biological activities, including anti-inflammatory, anti-diabetic, and anti-cancer effects. Studies on the pharmacokinetics of CNE were conducted. CNEs encapsulation efficiency was found to be 92%. The CNE nanoemulsions had a spherical shape with polydispersity index of 0.531, size of 200 nm, and a zeta potential of −35.9 mV. Even after being stored at various temperatures for 50 days, CNE nanoemulsions remained stable. Numerous tests were used to determine the antioxidant capacity of CNE, and the following IC50 values (µl/mL) were found: iron chelating assay: 18, hydroxyl radical scavenging: 37, and nitric oxide radical scavenging activity: 58. The percentage of HeLa cells that remained viable after being treated with CNE was 41% at a higher dose of 1 µl. CNE inhibited α-amylase in a dose-dependent manner, with 72% inhibition at its higher dose of 250 µL. Research on the kinetics of drugs showed that nanoemulsions showed Higuchi pattern. This research showed potential use of Calotropis gigantea oil-based nanoemulsions in the food, cosmetic, and pharmaceutical industries. [ABSTRACT FROM AUTHOR]

Published

2024

8. Studies on pharmacological aspects, integrated pest management and economic importance of Rosa damascena L.

Author

Fazili, Mohammad Afaan, Ganie, Irfan Bashir, and Hassan, Qazi Parvaiz

Subjects

*DAMASK rose, *ANTI-HIV agents, *HYPOGLYCEMIC agents, *PEST control, *SKIN care

Abstract

• Rose oil is used for medicinal, pharmaceutical, therapeutical purposes • Pharmacologically Damask Rose serves as an anti-HIV agent, source of antioxidant, antitussive usage, hypnotic uses, and anti-diabetic agent • Rose oil is reported to cure many physiological roles as well as psychological ailments of humans • Rose is prone to a number of pests viz., diseases, insect pests, nematodes, and weeds This review highlights recent advancements in the utilization of rose oil across medicinal, pharmaceutical, therapeutic, and clinical trials, as well as its integration into pest management strategies that significantly contribute to its economic value. The Damask Rose, recognized for its potent pharmacological properties, serves multiple roles including as an anti-HIV agent, antioxidant source, antitussive, hypnotic, anti-diabetic treatment, and tracheal system soother. There is a crucial focus on enhancing the content of aromatic monoterpenes and sesquiterpenes in Rosa damascena L. Clinical studies affirm that rose oil effectively addresses various physiological and psychological conditions such as pain relief, anxiety reduction, depression alleviation, respiratory system improvement, blood oxygenation, pulse regulation, skin temperature control, stress management, menstrual discomfort, and exhibits antifungal, antibacterial properties, and potential as a sex stimulant. Rose cultivation faces challenges from numerous pests including diseases, insects, nematodes, and weeds, which detrimentally affect yield and flower quality. Effective management of these pests ensures optimal returns for rose growers. [ABSTRACT FROM AUTHOR]

Published

2024

9. Design, synthesis, structural inspection, and DFT calculation of some novel imine ciprofloxacin metal chelates: A novel approach for pharmaceutical applications and DNA interaction.

Author

Abu‐Dief, Ahmed M., Al‐hawamy, Yasser, Abdou, Aly, Alsehli, Amal H., Altayeb, Bader M., Alqurashi, Abdulmajeed, and Mohamed, Gehad G.

Subjects

*STABILITY constants, *MOLAR conductivity, *MOLECULAR shapes, *LIGANDS (Chemistry), *MASS spectrometry

Abstract

Novel compounds with pharmacological activity were synthesized from Pd (II), Fe (III), Cr (III), Ni (II), and Cu (II) ions with 4‐{2‐(3‐carboxy‐1‐cyclopropyl‐6‐fluoro‐7‐piperazin‐1‐yl‐2,3‐dihydro‐1H‐quinolin‐4‐ylideneamino)‐phenylimino}‐1‐cyclopropyl‐6‐fluoro‐7‐piperazin‐1‐yl‐1,4‐dihydro‐quinoline‐3‐carboxylic acid (CFPD). The newly synthesized compounds have been investigated by 1H‐ and 13C‐NMR spectra, Fourier transform infrared spectra, CHN analyses, ultraviolet‐visible spectra, mass spectra, molar conductivity, and magnetic moment measurements. In addition, the pH profile of the CFPD complexes showed remarkable stability, and their stability constant was identified in solution. To find out essential characteristics for CFPD and its complexes and to investigate the molecular geometry, computational analysis occurred. Through its nitrogen and OH of carboxylate groups, the ligand interacted with the metal ions to form CFPDPd complex with a square planar geometry and CFPDCu, CFPDCr, CFPDNi, and CFPDFe complexes with octahedral geometry. The M:L ratio of 1:1 was demonstrated by the molar ratio and sequence variation techniques' outcomes. The effect of the investigated CFPD imine ligand on bacterial community and its metal chelate was examined within vitro using a range of fungal and viral pathogens The findings showed that the effectiveness of antimicrobial went with the directive: CFPDPd complex when compared to the highly suppressor complex, fluconazol and ofloxacin as model medication. The novel ligand's and its complexes' in vitro cytotoxic potential against the Hep‐G2, MCF‐7, and HCT‐116 cell lines was also studied. The findings once more indicated that, when compared to vinblastine medication, the CFPDPd chelate is the most active agent. In addition, the complexes showed high reactivity in catching free radicals when their antioxidant activity was examined. By the application of viscosity, spectrum analysis, and gel electrophoreses, the interaction among metal chelates and DNA was determined. Studies on viscosity and spectrophotometric titration showed that every substance in test is a strong DNA binder. Increased hydrophobic and electrostatic interactions between aromatic rings could be the cause of this. In conclusion, these complexes have the potential to be effective bioactive agents. [ABSTRACT FROM AUTHOR]

Published

2024

10. Photo‐Triggered ROS‐Responsive Supramolecular Nanoprodrugs for Targeted and Synergistic Chemo/Photodynamic/Gas Therapy.

Author

Shi, Jingtao, Ma, Ke, Yang, Yibo, Pei, Yuxin, and Pei, Zhichao

Subjects

*CELL receptors, *PHOTODYNAMIC therapy, *GALACTOSE, *IRRADIATION, *CANCER chemotherapy

Abstract

Photo‐triggered ROS‐responsive supramolecular nanoprodrugs (BNN6@GBTC NPs) are constructed via supramolecular self‐assembly of amphiphilic prodrug molecule (GBTC) and NO donor (BNN6). BNN6@GBTC NPs possess good stability, ROS responsiveness, and selective HepG2 cells targetability via overexpressed galactose receptors on the cell membrane. When BNN6@GBTC NPs are taken up by HepG2 cells, they can generate ROS upon light irradiation, which can not only be used for photodynamic therapy, but also cleave the thioketal linkage to release camptothecin for chemotherapy. Meanwhile, BNN6 triggering release NO for gas therapy. BNN6@GBTC NPs enable targeted and synergistic chemo/photodynamic/gas therapy, which results in reduced damage to normal cells and enhanced anti‐cancer efficacy in vitro. This work provides a novel approach for the design of nanoprodrugs based on supramolecular self‐assembly to achieve the multimodal synergistic anti‐cancer therapy. [ABSTRACT FROM AUTHOR]

Published

2024

11. Novel sulfamethoxazole and 1-(2-fluorophenyl) piperazine derivatives as potential apoptotic and antiproliferative agents by inhibition of BCL2; design, synthesis, biological evaluation, and docking studies.

Author

Vadabingi, Nagalakshmamma, Mallepogu, Venkataswamy, Mallapu, Rani E., Pasala, Chiranjeevi, Poreddy, Sumithra, Bellala, Poojitha, Amineni, Umamaheswari, Cirandur, Suresh Reddy, and Meriga, Balaji

Subjects

*ANTINEOPLASTIC agents, *MOLECULAR docking, *CHEMICAL synthesis, *CANCER cells, *PIPERAZINE, *MASS spectrometry

Abstract

In the present study, a novel series of sulfamethoxazole and 1-(2-fluorophenyl) piperazine derivatives were designed, synthesized and characterized by FTIR, IH NMR,13C NMR, Mass spectrometry, CHN data, and evaluated for their efficiency as BCL2 inhibitors that could lead to potential antiproliferative activity. The ten newly synthesized compounds were screened for their therapeutic activity using MDA-MB-231 breast cancer cell lines. All the test compounds exhibited moderate to high cytotoxic activity in MTT assay. Among them, compounds 3e and 6b exhibited promising antitumor activity, as evidenced by their IC50 values of 16.98 and 17.33 μM respectively. In addition, both compounds 3e and 6b displayed potential antioxidant and apoptosis induction properties. The qRT-PCR analysis showed down regulation of BCL2 expression and up regulation of Casp3 expression in 3e and 6b treated MDA-MB-231 cells. Further, the interaction between critical amino acids of the active domains of BCL2 and 3e and 6b was evaluated by MD simulation, and the results reflected the potent inhibitory activities of 3e and 6b. In summary, the novel compounds 3e and 6b demonstrate their potent anti-cancer properties by inducing apoptosis and selectively targeting BCL2 and caspases-3. [ABSTRACT FROM AUTHOR]

Published

2024

12. Design, synthesis and mechanistic study of N-4-Piperazinyl Butyryl Thiazolidinedione derivatives of ciprofloxacin with Anticancer Activity via Topoisomerase I/II inhibition.

Author

Aziz, Hossameldin A., El-Saghier, Ahmed M., badr, Mohamed, Elsadek, Bakheet E. M., Abuo-Rahma, Gamal El-Din A., and Shoman, Mai E.

Abstract

A new group of thiazolidine-2,4-dione derivatives of ciprofloxacin having butyryl linker 3a-l was synthesized via an alkylation of thiazolidine-2,4-diones with butyryl ciprofloxacin with yield range 48–77% andfully characterized by various spectroscopic and analytical tools. Anti-cancer screening outcomes indicated that 3a and 3i possess antiproliferative activities against human melanoma LOX IMVI cancer cell line with IC50 values of 26.7 ± 1.50 and 25.4 ± 1.43 µM, respectively, using doxorubicin and cisplatin as positive controls with an IC50 of 7.03 ± 0.40 and 5.07 ± 0.29 µM, respectively. Additionally, compound 3j showed promising anticancer activity against human renal cancer A498 cell line with IC50 value of 33.9 ± 1.91 µM while doxorubicin and cisplatin showed IC50 values of 3.59 ± 0.20 and 7.92 ± 0.45, respectively. On the other hand, compound 3i did not show considerable anti-bacterial activity against S. aureus, E. coli and P. aeruginosa, and only moderate activity against K. pneumoniae with only a tenth of the activity of ciprofloxacin, confirming the cytotoxicity observed. Mechanistically, compound 3i inhibited both topoisomerase I and II with IC50 of 4.77 ± 0.26 and 15 ± 0.81 µM. Furthermore, it induced cell cycle arrest at S phase in melanoma LOX IMVI cells. Moreover, 3i provoked substantial levels of early, late apoptosis and necrosis in melanoma LOX IMVI cell line comparable to that induced by doxorubicin. Furthermore, compound 3i increased the expression level of active caspase-3 by 49 folds higher in LOX IMVI cell, increased protein expression level of Bax more than the control by 3 folds and inhibited PARP-1by 33% in LOX IMVI. All results were supported by theoretical docking studies on both tested enzymes confirming potential cytotoxicity for the synthesized hybrids. [ABSTRACT FROM AUTHOR]

Published

2024

13. Molecular Docking, Synthesis and Biological Evaluation of New Benzimidazole‐Pyridine Derivatives as Potential Aromatase Inhibitor for the Treatment of Cancer.

Author

Sabale, Prafulla, Sayyad, Nusrat, Sabale, Vidya, Begum, Touseef, Murali Prakash, Jatla, Gobalakriahnan, P., Hemalatha, K., Parupathi, Prashanth, Kumar Reddy, Konatham Teja, Kolli, Deepti, Ali Alshehri, Mohammed, Obaidur Rab, Safia, and Bin Emran, Talha

Subjects

*MOIETIES (Chemistry), *BIOSYNTHESIS, *AROMATASE inhibitors, *AROMATASE, *MOLECULAR docking, *BENZIMIDAZOLES, *DIAMINES

Abstract

This study describes the synthesis of N5‐(4‐(1H‐benzo[d]imidazol‐2‐yl)phenyl)‐N2‐phenylpyridine‐2,5‐diamine derivatives from Orthophenylenediamine (1) and 4‐aminobenzoic acid (2) and all the synthesized chemical moieties screened against a panel of cancer cell lines resulted in the identification compound 6 a with good anti‐cancer potential and a GI50 of 2.95 μM, 3.35 μM, 2.27 μM, 8.46 nM and 1.56 μM against MDAMB‐231, MCF‐7, A‐549, NCI‐H23 and A‐498 respectively. As the second greatest cause of death globally, cancer continues to pose a serious threat to public health. An essential enzyme called aromatase catalyses the last, rate‐limiting step in the production of oestrogens. As a well‐researched endocrine therapeutic strategy, aromatase inhibitors (AIs) efficiently block the production of oestrogen, which is necessary for aromatase activity. [ABSTRACT FROM AUTHOR]

Published

2024

14. Review of the Structural Characteristics and Biological Activities of Tricholoma Secondary Metabolites (2018–2023).

Author

Zhao, Meili, Yuan, Shiqin, Li, Zhiming, Liu, Chengwei, and Zhang, Ruiying

Subjects

*METABOLITES, *FRUITING bodies (Fungi), *CHEMICAL properties, *RESEARCH personnel, *SCIENTIFIC community, *EDIBLE mushrooms

Abstract

Tricholoma are significant medicinal and edible mushrooms within Basidiomycota. Known for their various medicinal properties such as anti-tumor, immune regulation, and antioxidant effects, they are regarded worldwide as health foods of the 21st century. Tricholoma species produce various types of secondary metabolites, which have been extensively studied by the scientific community. In 2018, Clericuzio et al. summarized the structures, biosynthesis, and biological activities of over one hundred different secondary metabolites isolated from the fruiting bodies of 25 Tricholoma species. Building on this, the present article reviews the research progress on Tricholoma secondary metabolites from 2018 to 2023, identifying a total of 101 compounds, 46 of which were newly discovered. These secondary metabolites include a wide range of chemical categories such as terpenoids, steroids, and alkaloids, demonstrating broad biological activities. This article aims to provide in-depth scientific insights and guidance for researchers in this field by summarizing the chemical and biological properties of these secondary metabolites, promoting further applications and development of Tricholoma fungi in the pharmaceutical and food industries. [ABSTRACT FROM AUTHOR]

Published

2024

15. A comprehensive review on microbial diversity and anticancer compounds derived from seaweed endophytes: a pharmacokinetic and pharmacodynamic approach.

Author

Tharani, P. V. and Rao, K. V. Bhaskara

Abstract

Seaweed endophytes are a rich source of microbial diversity and bioactive compounds. This review provides a comprehensive analysis of the microbial diversity associated with seaweeds and their interaction between them. These diverse bacteria and fungi have distinct metabolic pathways, which result in the synthesis of bioactive compounds with potential applications in a variety of health fields. We examine many types of seaweed-associated microorganisms, their bioactive metabolites, and their potential role in cancer treatment using a comprehensive literature review. By incorporating recent findings, we hope to highlight the importance of seaweed endophytes as a prospective source of novel anticancer drugs and promote additional studies in this area. We also investigate the pharmacokinetic and pharmacodynamic profiles of these bioactive compounds because understanding their absorption, distribution, metabolism, excretion (ADMET), and toxicity profiles is critical for developing bioactive compounds with anticancer potential into effective cancer drugs. This knowledge ensures the safety and efficacy of proposed medications prior to clinical trials. This study not only provides promise for novel and more effective treatments for cancer with fewer side effects, but it also emphasizes the necessity of sustainable harvesting procedures and ethical considerations for protecting the delicate marine ecology during bioprospecting activities. [ABSTRACT FROM AUTHOR]

Published

2024

16. Environmental, industrial, and health benefits of Moringa oleifera.

Author

Mahaveerchand, Harshika and Abdul Salam, Abdul Ajees

Abstract

The rise of air, water, and soil pollution poses a significant threat to global health, leading to widespread disease and premature mortality. Soil health is vital, ensuring the production of safe food, but it is compromised by pollutants such as heavy metals, pesticides, plastics, and excessive fertilization, resulting in the depletion of beneficial microorganisms and subsequently groundwater contamination. Water bodies are polluted due to contamination from industrial effluents, domestic wastewater, agricultural runoff, and oil spillage, further intensifying environmental pollution. On the other hand, atmospheric pollution, characterized by high emissions of gases, volatile compounds, greenhouse gases, not only impacts the climate but also poses serious risks to human health, leading to respiratory diseases, cardiovascular issues, and increased cancer risks. Thus, the strategic utilization of traditional plants emerges as a potent tool for environmental restoration and improving human health. The plants possess natural filtering capabilities, absorbing pollutants from air, soil, and water, thus mitigating their adverse effects. Through phytoremediation, plants can be actively used to extract and remove contaminants, contributing to detoxification and improving water and soil quality. Additionally, plants offer various health benefits. Moringa oleifera or the drumstick plant belonging to the Moringaceae family is one such indigenous plant with wide applications, that can be grown in extreme arid conditions. Since ancient times, this plant has been used for treating skin infections, anaemia, and blood impurities. This plant thrives in diverse climates addressing over 300 different aliments. Rich in phytochemicals and bioactive compounds, M. oleifera serve as a superfood, offering high nutritional values and exhibiting potential for drug development with fewer side effects. Extensive research has elucidated the diverse properties and applications of M. oleifera, however, in-depth research is needed to identify bioactive molecules, phytochemicals, and protein compounds involved, which will aid in understanding of the mechanisms of action of the plant's diverse functions. Although studies have reported several of individual M. oleifera attributes, there is no comprehensive study available addressing its diverse applications. This review covers the findings of past three decades and provides a detailed outline of M. oleifera plant and its various parts, its applications in environmental, industrial, food and health aspects documented to date. [ABSTRACT FROM AUTHOR]

Published

2024

17. Potential Role of Tarantula Venom Peptides in Targeting Human Death Receptors: A Computational Study.

Author

Quiambao, Janus Isaiah R., Fowler, Peter Matthew Paul T., and Tayo, Lemmuel L.

Subjects

DEATH receptors, CANCER cell proliferation, MOLECULAR docking, SPIDER venom, VENOM, TARANTULAS

Abstract

Featured Application: The application of this study is all computational studies considering venom peptides as potential sources of therapeutics. Animal venom has been gaining traction as a potential source of therapeutics for various diseases. Spiders encompass a wide variety of venom-producing species, of which tarantulas of the family Theraphosidae are widely known across the globe. Research towards tarantula venom therapeutics has led to its potential application as antinociceptives. Death receptors are cellular receptors that induce apoptosis—the body's natural suicide mechanism—to destroy malfunctioning cells. These are particularly of interest in cancer research, as this mechanism is tampered with, resulting in cancer cell proliferation. In this study, the viability of venom toxins from the Theraphosidae family of spiders to induce apoptosis by binding to human death receptors is investigated by carrying out anti-cancer screening, molecular docking, ADMET evaluation, then molecular dynamics and thermodynamic analysis twice, first to ascertain the best receptor–peptide systems per receptor, and secondly to more comprehensively describe binding stability and thermodynamics. Results point to favorable receptor–peptide interactions due to similarities in equilibrium behavior with the death ligand–death receptor systems, along with favorable end-state binding energies and ADMET analysis results. Further inquiry is recommended to assess the real-life efficacy and viability of theraphotoxins as apoptosis therapeutics and further improve on their ability to induce apoptosis. [ABSTRACT FROM AUTHOR]

Published

2024

18. 静电纺丝纳米纤维在药物输送领域的应用.

Author

杨海贞, 魏肃桀, 马 闯, 周泽林, and 胡亚雯

Abstract

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

Published

2024

19. Docetaxel-tethered di-Carboxylic Acid Derivatised Fullerenes: A Promising Drug Delivery Approach for Breast Cancer.

Author

Misra, Charu, Kaur, Jasleen, Kumar, Manish, Kaushik, Lokesh, Chitkara, Deepak, Preet, Simran, Wahajuddin, Muhammad, and Raza, Kaisar

Abstract

Docetaxel (DTX) has become widely accepted as a first-line treatment for metastatic breast cancer; however, the frequent development of resistance provides challenges in treating the disease.C60 fullerene introduces a unique molecular form of carbon, exhibiting attractive chemical and physical properties. Our study aimed to develop dicarboxylic acid-derivatized C60 fullerenes as a novel DTX delivery carrier. This study investigated the potential of water-soluble fullerenes to deliver the anti-cancer drug DTX through a hydrophilic linker. The synthesis was carried out using the Prato reaction. The spectroscopic analysis confirmed the successful conjugation of DTX molecules over fullerenes. The particle size of nanoconjugate was reported to be 122.13 ± 1.63 nm with a conjugation efficiency of 76.7 ± 0.14%. The designed conjugate offers pH-dependent release with significantly less plasma pH, ensuring maximum release at the target site. In-vitro cell viability studies demonstrated the enhanced cytotoxic nature of the developed nanoconjugate compared to DTX. These synthesized nanoscaffolds were highly compatible with erythrocytes, indicating the safer intravenous route administration. Pharmacokinetic studies confirmed the higher bioavailability (~ 6 times) and decreased drug clearance from the system vis-à-vis plain drug. The histological studies reveal that nanoconjugate-treated tumour cells exhibit similar morphology to normal cells. Therefore, it was concluded that this developed formulation would be a valuable option for clinical use. [ABSTRACT FROM AUTHOR]

Published

2024

20. Adsorption of Dacarbazine as Anticancer Drug on Si60, C60, B30N30, Sc-Si60, Sc-C60, Sc-B30N30 Nanocages.

Author

Zhang, Junjuan, Yu, Xiangtao, Wang, Jing, and Yao, Xiangwen

Abstract

In this work, the capacities of Si60, C60, B30N30, Sc-Si60, Sc-C60, Sc-B30N30 to deliver the Dacarbazine are examined. The Eadoption of Sc-Si60, Sc-C60 and Sc-B30N30 are -4.45, -4.57 and -4.70 eV. The Ecohesive of Si60, C60 and B30N30 nanocages are -6.23, -6.51 and -6.86 eV, respectively and so the Si60, C60 and B30N30 nanocages are stable nanostructures. Results shown than the Sc-B30N30 has acceptable potential to adsorb and deliver the Dacarbazine. Results shown that the Sc-Si60, Sc-C60 and Sc-B30N30 nanocages have higher capacitates and abilities to deliver and transfer of the Dacarbazine as anticancer drug than other nanostructures in previous works. The adsorption of Dacarbazine on Si60, C60, B30N30, Sc-Si60, Sc-C60, Sc-B30N30 nanocages have the τ values ca 48.8, 51.1, 54.2, 54.9, 57.5 and 62.1 s, respectively. Finally, the Sc-B30N30 is proposed to adsorb and deliver the Dacarbazine. [ABSTRACT FROM AUTHOR]

Published

2024

21. Anti-tumor Effects of Polyphenols via Targeting Cancer Driving Signaling Pathways: A Review.

Author

Moar, Kareena, Yadav, Somu, Pant, Anuja, Deepika, and Maurya, Pawan Kumar

Abstract

The use of drugs in chemotherapy poses numerous side effects. Hence the use of natural substances that can help in the prevention and cure of the disease is a dire necessity. Cancer is a deadly illness and combination of diseases, the menace of which is rising with every passing year. The research community and scientists from all over the world are working towards finding a cure of the disease. The use of polyphenols which are naturally derived from plants have a great potential to be used as anti-cancer drugs and also the use of fruits and vegetables which are rich in these polyphenols can also help in the prevention of diseases. The study aims to compile the available literature and research studies on the anti-cancer effects of polyphenols and the signaling pathways that are affected by them. To review the anti-cancer effects of polyphenols, Google Scholar, PubMed and ScienceDirect were used to study the literature available. The article that have been used for literature review were filtered using keywords including cancer, polyphenols and signaling pathways. Majorly articles from the last 10 years have been considered for the review but relevant articles from earlier than 10 years have also been considered. Almost 400 articles were studied for the review and 200 articles have been cited. The current review shows the potential of polyphenols as anti-cancer compounds and how the consumption of a diet rich in polyphenols can help in the prevention of cancer. Because of their capacity to affect a variety of oncogenic and oncosuppressive signaling pathways, phytochemicals derived from plants have been effectively introduced as an alternative anticarcinogenic medicines. [ABSTRACT FROM AUTHOR]

Published

2024

22. The antioxidant and selective apoptotic activities of modified auraptene-loaded graphene quantum dot nanoparticles (M-AGQD-NP).

Author

Golestani, Parisa, Homayouni Tabrizi, Masoud, Karimi, Ehsan, and Soltani, Mozhgan

Subjects

VASCULAR endothelial cells, FIELD emission electron microscopy, QUANTUM dots, CANCER cells, PANCREATIC cancer

Abstract

Background: Pancreatic and Gastric cancers are very aggressive and deadly types of cancer that require effective treatment strategies to stop their progression. Nano-drug delivery systems, like those using Auraptene-loaded GQD nanoparticles, play a crucial role in addressing this need by delivering targeted and controlled treatments to cancer cells, making treatment more effective, and reducing side effects. The study focused on investigating the effects of Auraptene, an efficient anticancer compound when loaded into Graphene Quantum Dots (GQDs) on types of human cancer cells. Methods: To create auraptene-loaded graphene quantum dot nanoparticles (AGQD-NP) (Unmodified and modified types) a combination of hydrothermal and high-energy homogenization methods was used. The nanoparticles were characterized by conducting DLS (Dynamic light scattering), FTIR (Fourier-transform infrared spectroscopy), FESEM (Field Emission Scanning Electron microscopy), and zeta potential analysis. bioactivity of AGQD-NP was assessed through tests, including antioxidant capacity measured by ABTS and DPPH scavenging abilities well as cytotoxicity tested using MTT assay on both human cancer cell lines and normal human vascular endothelial cells. Results: The modified AGQD-NP (M-AGQD-NP) demonstrated antioxidant properties by neutralizing free radicals. They also displayed selective toxicity, towards human gastric adenocarcinoma cell-line (AGS) and human pancreatic adenocarcinoma (PANC) cancer cells with IC50 values recorded at 78.8 µg/mL and 89.72 µg/mL respectively. The specific targeting of gastric cancer cells was evident from the differing IC50 values compared to the Human breast adenocarcinoma cell line (MCF-7), Human hepatocellular carcinoma cell line (Hella), and normal vascular endothelial cells (Huvec). Additionally, the induced apoptotic death, in the human pancreatic adenocarcinoma (PANC) cancer cells was confirmed through AO/PI staining and Annexin-based flow cytometry revealing increased expression levels of P53, Caspase3, BAX, and Caspase8. Conclusion: In summary, the M-AGQD-NP have shown encouraging effects displaying antioxidant capabilities and a specific focus, on pancreatic and gastric cancer cells. These findings indicate uses for AGQD-NP as an efficient apoptosis inducer in cancer treatment. Additional In-vivo researches are required to validate their effectiveness, in living organisms. [ABSTRACT FROM AUTHOR]

Published

2024

23. Synergistic Role of Green‐Synthesized Zinc Oxide Nanomaterials in Biomedicine Applications.

Author

Muhammad Salman Ajmal, Hafiz, Muneer, Rabbia, Saeed, Atiqa, Tanveer, Muhammad, and Ahsan Saeed, Muhammad

Subjects

*ZINC oxide, *SURFACE chemistry, *MATERIALS science, *ANTINEOPLASTIC agents, *THERAPEUTICS

Abstract

The substantial impact of nanotechnology on material sciences is exemplified through zinc oxide nanomaterials (ZnO NMs), which play a pivotal role in healthcare and environmental applications. This comprehensive review focuses on the eco‐friendly synthesis of ZnO NMs and their cutting‐edge practices in biomedical, including drug delivery, bioimaging, and anticancer therapies. Exploring environmentally responsible production techniques for ZnO NMs aims to mitigate risks associated with conventional methods, such as the use of costly and toxic precursors. In addition, these green methodologies present opportunities for generating diverse and significant morphologies. The study delves into the inhibitory effects of these NMs against microbes, cancer, and inflammation. The utilization of ZnO NMs in disease treatment and diagnosis prompts us to explore recent developments in emerging biomedical applications. Leveraging ZnO variable optical characteristics, biodegradability, inherent biocompatibility, adaptable surface chemistry, and high stability, the review covers a range of remarkable research studies for novel applications that possibly open up the potential for identifying, treating, and preventing serious human diseases. [ABSTRACT FROM AUTHOR]

Published

2024

24. Marine natural compounds as potential CBP bromodomain inhibitors for treating cancer: an in-silico approach using molecular docking, ADMET, molecular dynamics simulations and MM-PBSA binding free energy calculations.

Author

Ali, Md. Liakot, Noushin, Fabiha, Azme, Eva, Hasan, Md. Mahmudul, Hoque, Neamul, and Metu, Afroz Fathema

Abstract

The cAMP-responsive element binding protein (CREB) binding protein (CBP), a bromodomain-containing protein, engages with multiple transcription factors and enhances the activation of many genes. CBP bromodomain acts as an epigenetic reader and plays an important role in the CBP-chromatin interaction which makes it an important drug target for treating many diseases. Though inhibiting CBP bromodomain was reported to have great potential in cancer therapeutics, approved CBP bromodomain inhibitor is yet to come. We utilized various in silico approaches like molecular docking, ADMET, molecular dynamics (MD) simulations, MM-PBSA calculations, and in silico PASS predictions to identify potential CBP bromodomain inhibitors from marine natural compounds as they have been identified as having distinctive chemical structures and greater anticancer activities. To develop a marine natural compound library for this investigation, Lipinski’s rule of five was used. Sequential investigations utilizing molecular docking, ADMET studies, 100 ns MD simulations, and MM-PBSA calculations revealed that three marine compounds—ascididemin, neoamphimedine, and stelletin A—demonstrated superior binding affinity compared to the standard inhibitor, 69 A. These compounds also exhibited suitable drug-like properties, a favorable safety profile, and formed stable protein-ligand complexes. The in-silico PASS tool predicted that these compounds have significant potential for anticancer activity. Among them, ascididemin demonstrated the highest binding affinity in both molecular docking and MM-PBSA calculations, as well as a better stability profile in MD simulations. Hence, ascididemin can be a potential inhibitor of CBP bromodomain. However, in vitro and in vivo validation is required for further confirmation of these findings. [ABSTRACT FROM AUTHOR]

Published

2024

25. Cancer Prevention and Treatment with Polyphenols: Type IV Collagenase-Mediated Mechanisms.

Author

Pawłowski, Wojciech, Caban, Miłosz, and Lewandowska, Urszula

Subjects

*THERAPEUTIC use of antineoplastic agents, *CHEMOPREVENTION, *NF-kappa B, *CELLULAR signal transduction, *PROTEOLYTIC enzymes, *MOLECULAR structure, *MATRIX metalloproteinases, *TUMORS, *EXTRACELLULAR space, *POLYPHENOLS, TUMOR prevention

Abstract

Simple Summary: Natural polyphenols are well-known dietary supplements that have been used for medical purposes for a long time. Consuming foods and beverages of plant origin, especially those rich in polyphenolic compounds, may have chemopreventive and therapeutic effects on cancer due to the health-promoting properties of these compounds. Polyphenols are characterized by high structural diversity, which contributes to their wide range of therapeutic effects, including anti-oxidant and anti-cancer activities. These compounds can modulate the expression and activity of many proteins, including enzymes, and regulate multiple cell signaling pathways. Among the molecular targets of anti-cancer agents are matrix metalloproteinases, particularly metalloproteinase-2 and metalloproteinase-9, and nuclear factor-kappa B. Matrix metalloproteinases can degrade the protein components of the extracellular matrix and play key roles in physiological processes such as tissue repair and morphogenesis, as well as in carcinogenesis and other pathological processes. The inhibition of their synthesis and activity is closely related to a reduction in the metastasis and invasion of cancer cells. This review discusses the current state of knowledge concerning the anti-invasive and anti-metastatic potential of selected polyphenols, with a focus on in vitro and in vivo evidence. Polyphenols are natural compounds found in many plants and their products. Their high structural diversity bestows upon them a range of anti-inflammatory, anti-oxidant, proapoptotic, anti-angiogenic, and anti-metastatic properties, and a growing body of research indicates that a polyphenol-rich diet can inhibit cancer development in humans. Polyphenolic compounds may modulate the expression, secretion, or activity of compounds that play a significant role in carcinogenesis, including type IV collagenases, such as matrix metalloproteinase-2 (MMP-2) and matrix metalloproteinase-9 (MMP-9), by suppressing cellular signaling pathways such as nuclear factor-kappa B. These enzymes are responsible for the degradation of the extracellular matrix, thus promoting the progression of cancer. This review discusses the current state of knowledge concerning the anti-cancer activity of polyphenols, particularly curcumin, resveratrol, epigallocatechin-3-gallate, genistein, and quercetin, with a specific focus on their anti-invasive and anti-metastatic potential, based on the most recent in vitro and in vivo studies. It appears that polyphenols may be valuable options for the chemoprevention and treatment of cancer via the inhibition of MMP-2 and MMP-9 and the suppression of signaling pathways regulating their expression and activity. [ABSTRACT FROM AUTHOR]

Published

2024

26. Overview of Cancer and Treatment Challenges: Harnessing the Anti-cancer Potential of Jasminum Sambac and its Nanoparticle Formulations.

Author

Nomier, Yousra. A., Mohanan, Anugeetha Thacheril, El-Dakroury, Walaa A., Hassan, Dallin A., Nithya, Sermugapandian, Jabeen, Aamena, Ali Mohammed, Eman Merghani, Zewail, Moataz B., Asaad, Gihan F., and Abbady, Zeinah Y.

Subjects

*NANOPARTICLE synthesis, *NANOPARTICLES, *DRUG delivery systems, *JASMINE, *MEDICAL screening

Abstract

Cancer research strives to discover effective treatment strategies that target tumour cells while minimising the negative effects of traditional chemotherapy. Studies conducted on plant-based leads have yielded promising therapeutic activities, prompting researchers to remain vigilant in exploring further plant-based studies. Research has shown that phytochemicals found in the roots, leaves, and flowers of Jasminum sambac (J.sambac) have demonstrated various active functions, including anti-inflammatory, antimicrobial, immunomodulatory, and anxiolytic effects. The progress made in nanoparticle drug delivery systems for cancer treatment is noteworthy as it allows for higher doses of medication to be delivered directly to cancer cells while minimising the negative impact on healthy cells. Various reports showcase the nanoparticle synthesis of J.sambac for screening multiple diseases. This review provides an overview of cancer and the challenges of available treatments while exploring the potential of J.sambac for its anticancer, cytotoxic, and antioxidant properties. Furthermore, it sheds light on the recent advances made in nanoparticle formulations of Jasminum sambac for cancer and other ailments. Disseminating these updates could encourage additional exploration into the potential anti-cancer properties of J.sambac and foster the development of nanoparticles for more effective cancer treatment. [ABSTRACT FROM AUTHOR]

Published

2024

27. Oxyresveratrol Enhances the Anti-Cancer Effect of Cisplatin against Epithelial Ovarian Cancer Cells through Suppressing the Activation of Protein Kinase B (AKT).

Author

Thaklaewphan, Phatarawat, Wikan, Nitwara, Potikanond, Saranyapin, and Nimlamool, Wutigri

Subjects

*PROTEIN kinase B, *OVARIAN epithelial cancer, *ANTINEOPLASTIC agents, *CELL cycle, *OVARIAN cancer

Abstract

Epithelial ovarian carcinoma poses a significant challenge due to its resistance to chemotherapy and propensity for metastasis, thereby reducing the effectiveness of conventional treatments. Hence, the identification of novel compounds capable of augmenting the anti-cancer efficacy of platinum-based chemotherapy is imperative. Oxyresveratrol (OXY), a derivative of resveratrol, has been demonstrated to possess antiproliferative and apoptosis-inducing effects across various cancer cell lines. Notably, OXY appears to exert its effects by inhibiting the PI3K/AKT/mTOR signaling pathway. However, the synergistic potential of OXY in combination with cisplatin against epithelial ovarian cancer has not yet been elucidated. The current study investigated the synergistic effects of OXY and cisplatin on the ovarian cancer cell lines SKOV3 and TOV21G. We found that OXY significantly enhanced cisplatin's ability to reduce cell viability, induce apoptosis, induce cell cycle arrest, and increase the proportion of cells in the sub-G1 phase. Furthermore, OXY treatment alone dose-dependently inhibited the production of anti-apoptotic proteins including Mcl-1, Bcl-xL, and XIAP under EGF activation. Mechanistically, OXY suppressed the PI3K/AKT/mTOR signaling pathway by reducing phosphorylated AKT, while having no discernible effect on the MAPK pathway. These findings highlight OXY's potential to enhance ovarian cancer cell sensitivity to chemotherapy, suggesting its development as a pharmaceutical adjunct for clinical use in combination therapies. [ABSTRACT FROM AUTHOR]

Published

2024

28. Multifunctional Bioactivity Electrospinning Nanofibers Encapsulating Emodin Provides a Potential Postoperative Management Strategy for Skin Cancer.

Author

Ye, Peiwen, Yusufu, Reyisha, Guan, Zhenfeng, Chen, Tiantian, Li, Siyi, Feng, Yanping, Zeng, Xiaoyan, Lu, Jingya, Luo, Muxiang, and Wei, Fenghuan

Subjects

*POSTOPERATIVE care, *SKIN cancer, *EMODIN, *ANTHRAQUINONES, *ANTINEOPLASTIC agents, *NANOFIBERS

Abstract

Skin cancer is threatening more and more people's health; its postoperative recurrence and wound infection are still critical challenges. Therefore, specialty wound dressings with multifunctional bioactivity are urgently desired. Emodin is a natural anthraquinone compound that has anti-cancer and anti-bacterial properties. Herein, we fabricated coaxial electrospinning nanofibers loaded with emodin to exploit a multifunctional wound dressing for skin cancer postoperative management, which encapsulated emodin in a polyvinylpyrrolidone core layer, combined with chitosan-polycaprolactone as a shell layer. The nanofibers were characterized via morphology, physicochemical nature, drug load efficiency, pH-dependent drug release profiles, and biocompatibility. Meanwhile, the anti-cancer and anti-bacterial effects were evaluated in vitro. The emodin-loaded nanofibers exhibited smooth surfaces with a relatively uniform diameter distribution and a clear shell-core structure; remarkably, emodin was evenly dispersed in the nanofibers with significantly enhanced dissolution of emodin. Furthermore, they not only display good wettability, high emodin entrapment efficiency, and biphasic release profile but also present superior biocompatibility and anti-cancer properties by increasing the levels of MDA and ROS in A-375 and HSC-1 cells via apoptosis-related pathway, and long-term anti-bacterial effects in a dose-independent manner. The findings indicate that the emodin-loaded nanofiber wound dressing can provide a potential treatment strategy for skin cancer postoperative management. [ABSTRACT FROM AUTHOR]

Published

2024

29. Anti-cancer effects of benzimidazole derivative BNZ-111 on paclitaxel-resistant ovarian cancer.

Author

Koh, Byumseok, Ryu, Ji-Yoon, Noh, Joseph J., Hwang, Jae Ryoung, Choi, Jung-Joo, Cho, Young-Jae, Jang, Jiyoon, Jo, Jeong Hyeon, Lee, Kwangho, and Lee, Jeong-Won

Subjects

*OVARIAN epithelial cancer, *CELL cycle, *OVARIAN cancer, *BENZIMIDAZOLE derivatives, *GYNECOLOGIC oncology, *CYTOTOXINS

Abstract

Ovarian cancer, a leading cause of cancer-related deaths in women, remains a formidable challenge, especially in the context of platinum-resistant disease. This study investigated the potential of the benzimidazole derivative BNZ-111 as a novel treatment strategy for platinum-resistant ovarian cancer. The human EOC cell lines A2780, HeyA8, SKOV3ip1, A2780-CP20, HeyA8-MDR, and SKOV3-TR were treated with BNZ-111, and cell proliferation, apoptosis, and cell cycle were assessed. It demonstrated strong cytotoxicity in both chemo-sensitive and chemo-resistant epithelial ovarian cancer cell lines, inducing apoptosis and G2/M cell cycle arrest. In vivo experiments using orthotopic and patient-derived xenograft models showed significant tumor growth inhibition without apparent toxicity to vital organs. Unlike paclitaxel, BNZ-111 proved effective in paclitaxel-resistant cells, potentially by bypassing interaction with MDR1 and modulating β-3 tubulin expression to suppress microtubule dynamics. BNZ-111, with favorable drug-like properties, holds promise as a therapeutic option for platinum-resistant ovarian cancer, addressing a critical clinical need in gynecologic oncology. [Display omitted] • The benzimidazole derivative BNZ-111 may be a novel treatment for ovarian cancer. • Disrupting tubulin polymerization is a mechanism of action through which BNZ-111 induces anti-cancer activity. • BNZ-111 demonstrates in vivo efficacy and potential for overcoming paclitaxel resistance. [ABSTRACT FROM AUTHOR]

Published

2024

30. Current advances in cancer energy metabolism under dietary restriction: a mini review.

Author

Yang, Liuxin, Shao, Yudian, Gao, Tingting, Bajinka, Ousman, and Yuan, Xingxing

Abstract

The manipulation of the energy or source of food for cancer cells has attracted significant attention in oncology research. Metabolic reprogramming of the immune system allows for a deeper understanding of cancer cell mechanisms, thereby impeding their progression. A more targeted approach is the restriction of cancer cells through dietary restriction (CR), which deprives cancer cells of the preferred energy sources within the tumor microenvironment, thereby enhancing immune cell efficacy. Although there is a plethora of CR strategies that can be employed to impede cancer progression, there is currently no comprehensive review that delineates the specific dietary restrictions that target the diverse metabolic pathways of cancer cells. This mini-review introduces amino acids as anti-cancer agents and discusses the role of dietary interventions in cancer prevention and treatment. It highlights the potential of a ketogenic diet as a therapeutic approach for cancer, elucidating its distinct mechanisms of action in tumor progression. Additionally, the potential of plant-based diets as anti-cancer agents and the role of polyphenols and vitamins in anti-cancer therapy were also discussed, along with some prospective interventions for CR as anti-tumor progression. [ABSTRACT FROM AUTHOR]

Published

2024

31. Herbal Therapies for Cancer Treatment: A Review of Phytotherapeutic Efficacy.

Author

Jenča, Andrej, Mills, David K, Ghasemi, Hadis, Saberian, Elham, Forood, Amir Mohammad Karimi, Petrášová, Adriána, Jenčová, Janka, Velisdeh, Zeinab Jabbari, Zare-Zardini, Hadi, and Ebrahimifar, Meysam

Subjects

DRUG therapy, CANCER chemotherapy, ANTINEOPLASTIC agents, CANCER treatment, CANCER patients

Abstract

Natural products have proven to be promising anti-cancer agents due to their diverse chemical structures and bioactivity. This review examines their central role in cancer treatment, focusing on their mechanisms of action and therapeutic benefits. Medicinal plants contain bioactive compounds, such as flavonoids, alkaloids, terpenoids and polyphenols, which exhibit various anticancer properties. These compounds induce apoptosis, inhibit cell proliferation and cell cycle progression, interfere with microtubule formation, act on topoisomerase targets, inhibit angiogenesis, modulate key signaling pathways, improve the tumor microenvironment, reverse drug resistance and activate immune cells. Herbal anti-cancer drugs offer therapeutic advantages, particularly selective toxicity against cancer cells, reducing the adverse side effects associated with conventional chemotherapy. Recent studies and clinical trials highlight the benefits of herbal medicines in alleviating side effects, improving tolerance to chemotherapy and the occurrence of synergistic effects with conventional treatments. For example, the herbal medicine SH003 was found to be safe and potentially effective in the treatment of solid cancers, while Fucoidan showed anti-inflammatory properties that are beneficial for patients with advanced cancer. The current research landscape on herbal anticancer agents is extensive. Numerous studies and clinical trials are investigating their efficacy, safety and mechanisms of action in various cancers such as lung, prostate, breast and hepatocellular carcinoma. Promising developments include the polypharmacological approach, combination therapies, immunomodulation and the improvement of quality of life. However, there are still challenges in the development and use of natural products as anti-cancer drugs, such as the need for further research into their mechanisms of action, possible drug interactions and optimal dosage. Standardizing herbal extracts, improving bioavailability and delivery, and overcoming regulatory and acceptance hurdles are critical issues that need to be addressed. Nonetheless, the promising anticancer effects and therapeutic benefits of natural products warrant further investigation and development. Multidisciplinary collaboration is essential to advance herbal cancer therapy and integrate these agents into mainstream cancer treatment. [ABSTRACT FROM AUTHOR]

Published

2024

32. Preparation of NiO Nanosheets in a Lyotropic Liquid Crystal Medium and Their Application in Catalytic, Anti-Cancer and Anti-Bacterial Activities.

Author

Meyyathal, PR., Santhiya, N., Dharani, R., and Umadevi, S.

Abstract

Herein, we report the preparation of nickel oxide (NiO) nanosheets in a lyotropic liquid crystal (LLC) medium via a chemical reduction method. The LLC phase exhibiting a lamellar phase was formed using a binary mixture of triton X-100 (68 wt%) and water (32 wt%) at 4 °C. The nanomaterials were prepared in this medium by reducing NiCl2.6H2O using a strong reducing agent, NaBH4. The prepared nanomaterials were characterized through UV–Vis, SEM, FT-IR and XPS techniques. The NiO nanomaterials were found to exhibit good catalytic activity towards reduction and degradation reactions. An apparent rate constant (Kapp) value of 1.4 × 10–2 min−1 was obtained for the reduction reaction of 4-nitrophenol to 4-aminophenol using NiO nanomaterials (300 μL of as-prepared 80 mM dispersion). The nanomaterials showed good recyclability with effective activity until 5th cycle. Further, Kapp of 0.5 × 10–2 min−1 was obtained for the degradation reaction of methylene blue. The anti-bacterial studies suggested that the NiO nanomaterials were effective against gram positive (S. aureus) bacteria and anti-cancer studies of the particles against breast cancer cells (MCF-7) showed an IC50 value of 78.93 μg/mL. [ABSTRACT FROM AUTHOR]

Published

2024

33. Functional Significance and Implications of Phyto-Oxylipins as Potential Anti-Cancer Agents.

Author

Dofuor, Aboagye Kwarteng

Subjects

UNSATURATED fatty acids, DRUG discovery, PLANT genetic transformation, OXYLIPINS, ANTINEOPLASTIC agents

Abstract

Objective: Phyto-oxylipins are lipid molecules produced in plants by the oxidative transformation of unsaturated fatty acids via diverse metabolic pathways. Recently, the chemical diversity and functional significance of oxylipins is gaining significant attention. However, the functional significance of these compounds as anti-cancer agents remains largely uncharacterized. The objective of this review is to provide a comprehensive synthesis and analysis of the functional significance of plant oxylipins as anti-cancer agents to facilitate their exploitation in drug discovery and development. Methods: This review was based on a thorough compilation and analysis of research work carried out on biological significance and implications of plant-derived anti-cancer oxylipins. Curation of data was based on several databases and resources such as Scopus, PubMed, DrugBank and PubChem. Within the context of the scope and subject matter as guided by the objective, no exclusion and inclusion criteria were necessarily employed in the screening of articles. Results: The present review explores the origins, anti-cancer properties and functional mechanisms of phyto-oxylipins. The potential functional significance of new and poorly characterized plant oxylipins have also been highlighted. The prospects of plant oxylipins in research, medicine and biotechnology that could optimize their potential are also explored. Insights into the promising avenues that may originate from innovative therapeutic approaches are also discussed. Conclusion: Despite the rich source of oxylipins in plants, much of their potential as therapeutic agents for cancer treatment remains to be fully established. Clinical investigations are also needed to determine safe doses and effective delivery methods. Research into phyto-oxylipins require significant attention due to the promise it may hold in addressing key challenges in biotechnology, health, and environmental sustainability. [ABSTRACT FROM AUTHOR]

Published

2024

34. Role of Phytochemicals in Treatment of Aging and Cancer: Focus on Mechanism of FOXO3 Activation.

Author

Park, See-Hyoung

Subjects

REACTIVE oxygen species, PLANT extracts, ANTINEOPLASTIC agents, DISEASE risk factors, AGING prevention

Abstract

There have been many studies reporting that the regular consumption of fruits and vegetables is associated with reduced risks of cancer and age-related chronic diseases. Recent studies have demonstrated that reducing reactive oxygen species and inflammation by phytochemicals derived from natural sources can extend lifespans in a range of model organisms. Phytochemicals derived from fruits and vegetables have been known to display both preventative and suppressive activities against various types of cancer via in vitro and in vivo research by interfering with cellular processes critical for tumor development. The current challenge lies in creating tailored supplements containing specific phytochemicals for individual needs. Achieving this goal requires a deeper understanding of the molecular mechanisms through which phytochemicals affect human health. In this review, we examine recently (from 2010 to 2024) reported plant extracts and phytochemicals with established anti-aging and anti-cancer effects via the activation of FOXO3 transcriptional factor. Additionally, we provide an overview of the cellular and molecular mechanisms by which these molecules exert their anti-aging and anti-cancer effects in specific model systems. Lastly, we discuss the limitations of the current research approach and outline for potential future directions in this field. [ABSTRACT FROM AUTHOR]

Published

2024

35. Bioactivities and Anti-Cancer Activities of NKT-Stimulatory Phenyl-Glycolipid Formulated with a PEGylated Lipid Nanocarrier

Author

Hung JT, Chiou SP, Tang YH, Huang JR, Lo FY, and Yu AL

Subjects

phenyl-glycolipid, nkt cells, pegylated lipid nanocarrier, anti-cancer, Therapeutics. Pharmacology, RM1-950

Abstract

Jung-Tung Hung,1 Shih-Pin Chiou,1 Yun-Hsin Tang,1– 3 Jing-Rong Huang,1 Fei-Yun Lo,1 Alice L Yu1,4 1Institute of Stem Cell and Translational Cancer Research, Chang Gung Memorial Hospital at Linkou, Taoyuan, Taiwan; 2Department of Obstetrics and Gynecology, Chang Gung Memorial Hospital, Linkou Branch, and Chang Gung University, College of Medicine, Taoyuan, Taiwan; 3Gynecologic Cancer Research Center, Chang Gung Memorial Hospital, Linkou Branch, Taoyuan, Taiwan; 4Department of Pediatrics, University of California in San Diego, San Diego, California, USACorrespondence: Alice L Yu, Institute of Stem Cell and Translational Cancer Research, Chang Gung Memorial Hospital at Linkou, No. 15, Wenhua 1st Road, Guishan District, Taoyuan City, 333, Taiwan, Tel +886 3 328 1200#7813, Email a1yu@health.ucsd.eduPurpose: The glycolipid α-galactosylceramide (α-GalCer), when presented by CD1d, can modulate the immune system through the activation of natural killer T (NKT) cells. Previously, we synthesized over 30 analogs of α-GalCer and identified a compound, C34, which features two phenyl rings on the acyl chain. C34 exhibited the most potent NKT-stimulating activities, characterized by strong Th1-biased cytokines and potent anti-tumor effects in several murine tumor models. Importantly, unlike α-GalCer, C34 did not induce NKT cell anergy. Despite these promising results, the clinical application of C34 is limited by its poor aqueous solubility. PEGylation enhances the solubility of hydrophobic drugs, and numerous PEGylated drugs have received clinical approval. Consequently, we assessed the biological activity of PEGylated C34 in this study.Methods: Murine NK1.2 cells were cultured with A20-CD1d cells in the presence of either PEGylated lipid nanocarriers encapsulating C34 (PLN-C34) or C34 dissolved in DMSO to determine IL-2 production via ELISA. C57BL/6 mice were i.v. injected with C34 or PLN-C34 to examine cytokine profiles and immune cell populations using luminex and flow cytometry, respectively. The anticancer effects of C34 and PLN-C34 were evaluated in mice bearing TC-1 lung cancer and B16 melanoma tumors. Additionally, human PBMCs were cultured with C34 or PLN-C34 to measure cytokine production through luminex.Results: PLN-C34 demonstrated a comparable capacity to C34 in activating the NKT cell line in vitro and inducing various cytokines in vivo. Furthermore, treatment with either PLN-C34 or C34 significantly prolonged the survival of TC-1- and B16F10-bearing mice to a similar extent. Additionally, PLN-C34 effectively stimulated cytokine responses in human NKT cells, comparable to those induced by C34.Conclusion: These findings demonstrate that the newly formulated PLN-C34 retains NKT-stimulatory activity and anti-cancer efficacy of C34, supporting the potential of PLN as a solvent for C34 for further development in cancer therapy.Keywords: phenyl-glycolipid, NKT cells, PEGylated lipid nanocarrier, anti-cancer

Published

2024

36. Medicinal Cannabis in Reducing Physical and Psychological Problems Caused by Chemotherapy and Intestinal Inflammation; Advantages and Challenges (A Review)

Author

Razieh Esmaeili and Reza Rostami

Subjects

chemotherapy, anti-cancer, medicinal cannabis, mental problems, mucositis., Medicine (General), R5-920

Abstract

Introduction: A key trigger for many of the complications that are symptoms of cancer types is changes in the gastrointestinal environment, which is a major obstacle in the way of managing side effects. The purpose of this research was to investigate the benefits and challenges of using medicinal cannabis in reducing physical and psychological problems caused by chemotherapy and intestinal inflammation as a review study. Methods: In this review study, a comprehensive search in English was conducted in reputable scientific databases such as PubMed, ProQuest, Google, Google Scholar, Scopus, Web of Science, and CINAHL from 2019 to 2023, using a combination of keywords to find relevant sources and studies. . Based on the established inclusion and exclusion criteria, and the removal of duplicate studies, texts relevant to the objectives of this study were extracted from a total of 81 reviewed articles. Results: The studies reviewed showed that the breakdown of the mucosal barrier (mucositis) was a common and primary side effect of cancer treatments, contributed to a wide range of severe physical and psychological symptoms such as diarrhea, nausea, vomiting, infection, malnutrition, fatigue, depression, and insomnia, for which medical cannabis may be effective in alleviating these symptoms. Conclusion: Considering the potential challenges and benefits of medicinal cannabis in reducing physical and psychological problems caused by chemotherapy and intestinal inflammation, it is necessary to investigate more research in this field and if more clinical evidence is confirmed, medicinal cannabis can be used as a treatment.

Published

2024

37. Auxiliary effect of trolox on coenzyme Q10 restricts angiogenesis and proliferation of retinoblastoma cells via the ERK/Akt pathway

Author

Shikha Upreti, Prachi Sharma, Seema Sen, Subhrajit Biswas, and Madhumita P. Ghosh

Subjects

Rb cells, CoQ10, Trolox, Anti-cancer, ERK/Akt inhibition, Medicine, Science

Abstract

Abstract Reactive oxygen species (ROS) are essential for cancer signalling pathways and tumour maintenance, making ROS targeting a promising anti-cancer strategy. Coenzyme Q10 (CoQ10) has been shown to be effective against various cancers, but its impact on retinoblastoma, alone or with trolox, remains unreported. Cytotoxicity of CoQ10 alone and with trolox was evaluated in normal human retinal pigment epithelium cells (ARPE-19) and Y79 retinoblastoma cells using CCK-8. Flow cytometry was used to assess apoptosis, cell cycle, ROS, and mitochondrial membrane potential (MMP). Anti-angiogenic potential was tested using human umbilical vein endothelial cells (HUVECs) and chick chorioallantoic membrane (CAM) assays. Mechanistic studies were conducted via RT-PCR and western blotting. CoQ10, alone and with trolox, reduced Y79 cell viability, induced apoptosis through excess ROS generation, and decreased MMP significantly. Both treatments caused G2/M phase cell arrest. The CAM assay showed a significant reduction in endothelial cell proliferation, evidenced by fewer number of co-cultured HUVECs when exposed to CoQ10 or CoQ10 with trolox. The combination of CoQ10 and trolox significantly reduced VEGF-A, ERK, and Akt receptor levels, while CoQ10 alone significantly inhibited ERK and Akt phosphorylation. Together, CoQ10 and trolox reduced protein expression of VEGFA. CoQ10 alone and with trolox, induces apoptosis in Y79 retinoblastoma cells by inhibiting the ERK/Akt pathway and downregulating VEGFA. This study is the first to report the in vitro and in-ovo anti-cancer potential of CoQ10 alone or when combined with trolox, on human retinoblastoma Y79 cells.

Published

2024

38. Gamma irradiation green synthesis of (polyacrylamide/chitosan/silver nanoparticles) hydrogel nanocomposites and their using as antifungal against Candida albicans and anti-cancer modulator

Author

Salwa A. Khalil, Ahmed Awadallah-F, Mervat R. Khaffaga, Rasha Mohammad Fathy, and Ahmad S. Kodous

Subjects

Hydrogel, Nanocomposite, Gamma irradiation, Antimicrobial, Anti-cancer, Medicine, Science

Abstract

Abstract Silver nanoparticles-loaded hydrogel nanocomposites are exploited for medicinal and pharmaceutical applications. Hydrogel nanocomposites were prepared from acrylamide (Am), chitosan (CS) and AgNO3 utilizing gamma rays. Diverse variables were applied in preparation of silver nanoparticles-laoded hydrogel nanocomposites of (PAm/CS)-AgNPs such as influence of radiation dose and influnece of CS concentration. Diverse techniques were utilized to characterize hydrogel nanocomposites; Fourier transform infrared spectroscopy (FTIR), thermal gravimetric analysis (TGA), X-ray diffraction (XRD), Transmission electron microscopy (TEM), energy dispersive X-ray (EDX) and scanning electron microscopy (SEM). Results confirmed formation of silver nanoparticles-loaded hydrogel nanocomposites of (PAm/CS)-AgNPs. Antifungal activity of (PAm/CS)-AgNPs hydrogel nanocomposites on viability of C. albicans was esitmated. Results displayed the efficient microbial inhibition activity of treatment against C. albicans compared to control. Furthermore, (PAm/CS)-AgNPs hydrogel nanocomposite against cervical cancer HeLa cell line was investigated. Cytotoxicity of (PAm/CS)-AgNPs hydrogel nanocomposites on prior cancer cell line empolyed to prohibition of cell growth assesssed by MTT test. HeLa cancer cell is treated by (PAm/CS)-AgNPs for 48 h exposed a potential apoptotic activity by noticeable up-regulation of p53 gene expression. Moreover, anticancer activity was investigated by down-regulation of platelet-based growth variable receptor beta (PDGFR-β), Bcl2, Cathepsine, and MMP-2 gene expression. antioxidant activity was investigated and results showed antioxidant activity of (PAm/CS) hydrogel and (PAm/CS)-AgNPs hydrogel nanocomposite are 87.8% and 62.9%, respectively.

Published

2024

39. Design, synthesis and mechanistic study of N-4-Piperazinyl Butyryl Thiazolidinedione derivatives of ciprofloxacin with Anticancer Activity via Topoisomerase I/II inhibition

Author

Hossameldin A. Aziz, Ahmed M. El-Saghier, Mohamed badr, Bakheet E. M. Elsadek, Gamal El-Din A. Abuo-Rahma, and Mai E. Shoman

Subjects

Fluoroquinolones, Thiazolidinedione-2,4-dione, Anti-cancer, Topoisomerase inhibitors, Medicine, Science

Abstract

Abstract A new group of thiazolidine-2,4-dione derivatives of ciprofloxacin having butyryl linker 3a-l was synthesized via an alkylation of thiazolidine-2,4-diones with butyryl ciprofloxacin with yield range 48–77% andfully characterized by various spectroscopic and analytical tools. Anti-cancer screening outcomes indicated that 3a and 3i possess antiproliferative activities against human melanoma LOX IMVI cancer cell line with IC50 values of 26.7 ± 1.50 and 25.4 ± 1.43 µM, respectively, using doxorubicin and cisplatin as positive controls with an IC50 of 7.03 ± 0.40 and 5.07 ± 0.29 µM, respectively. Additionally, compound 3j showed promising anticancer activity against human renal cancer A498 cell line with IC50 value of 33.9 ± 1.91 µM while doxorubicin and cisplatin showed IC50 values of 3.59 ± 0.20 and 7.92 ± 0.45, respectively. On the other hand, compound 3i did not show considerable anti-bacterial activity against S. aureus, E. coli and P. aeruginosa, and only moderate activity against K. pneumoniae with only a tenth of the activity of ciprofloxacin, confirming the cytotoxicity observed. Mechanistically, compound 3i inhibited both topoisomerase I and II with IC50 of 4.77 ± 0.26 and 15 ± 0.81 µM. Furthermore, it induced cell cycle arrest at S phase in melanoma LOX IMVI cells. Moreover, 3i provoked substantial levels of early, late apoptosis and necrosis in melanoma LOX IMVI cell line comparable to that induced by doxorubicin. Furthermore, compound 3i increased the expression level of active caspase-3 by 49 folds higher in LOX IMVI cell, increased protein expression level of Bax more than the control by 3 folds and inhibited PARP-1by 33% in LOX IMVI. All results were supported by theoretical docking studies on both tested enzymes confirming potential cytotoxicity for the synthesized hybrids.

Published

2024

40. The antioxidant and selective apoptotic activities of modified auraptene-loaded graphene quantum dot nanoparticles (M-AGQD-NP)

Author

Parisa Golestani, Masoud Homayouni Tabrizi, Ehsan Karimi, and Mozhgan Soltani

Subjects

Modified-auraptene-loaded graphene quantum dot nanoparticles (M-AGQD-NP), Selective toxicity, Anti-cancer, Apoptosis inducer, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract Background Pancreatic and Gastric cancers are very aggressive and deadly types of cancer that require effective treatment strategies to stop their progression. Nano-drug delivery systems, like those using Auraptene-loaded GQD nanoparticles, play a crucial role in addressing this need by delivering targeted and controlled treatments to cancer cells, making treatment more effective, and reducing side effects. The study focused on investigating the effects of Auraptene, an efficient anticancer compound when loaded into Graphene Quantum Dots (GQDs) on types of human cancer cells. Methods To create auraptene-loaded graphene quantum dot nanoparticles (AGQD-NP) (Unmodified and modified types) a combination of hydrothermal and high-energy homogenization methods was used. The nanoparticles were characterized by conducting DLS (Dynamic light scattering), FTIR (Fourier-transform infrared spectroscopy), FESEM (Field Emission Scanning Electron microscopy), and zeta potential analysis. bioactivity of AGQD-NP was assessed through tests, including antioxidant capacity measured by ABTS and DPPH scavenging abilities well as cytotoxicity tested using MTT assay on both human cancer cell lines and normal human vascular endothelial cells. Results The modified AGQD-NP (M-AGQD-NP) demonstrated antioxidant properties by neutralizing free radicals. They also displayed selective toxicity, towards human gastric adenocarcinoma cell-line (AGS) and human pancreatic adenocarcinoma (PANC) cancer cells with IC50 values recorded at 78.8 µg/mL and 89.72 µg/mL respectively. The specific targeting of gastric cancer cells was evident from the differing IC50 values compared to the Human breast adenocarcinoma cell line (MCF-7), Human hepatocellular carcinoma cell line (Hella), and normal vascular endothelial cells (Huvec). Additionally, the induced apoptotic death, in the human pancreatic adenocarcinoma (PANC) cancer cells was confirmed through AO/PI staining and Annexin-based flow cytometry revealing increased expression levels of P53, Caspase3, BAX, and Caspase8. Conclusion In summary, the M-AGQD-NP have shown encouraging effects displaying antioxidant capabilities and a specific focus, on pancreatic and gastric cancer cells. These findings indicate uses for AGQD-NP as an efficient apoptosis inducer in cancer treatment. Additional In-vivo researches are required to validate their effectiveness, in living organisms.

Published

2024

41. Plant bioactive compounds driven microRNAs (miRNAs): A potential source and novel strategy targeting gene and cancer therapeutics

Author

Sahreen Sumaira, Soundararajan Vijayarathna, Manisekaran Hemagirri, Mohd Adnan, Md Imtaiyaz Hassan, Mitesh Patel, Reena Gupta, Shanmugapriya, Yeng Chen, Subash C.B. Gopinath, Jagat R. Kanwar, and Sreenivasan Sasidharan

Subjects

Anti-cancer, Gene therapy, miRNA, Apoptosis, Plant bioactive compounds, Genetics, QH426-470

Abstract

Irrespective of medical technology improvements, cancer ranks among the leading causes of mortality worldwide. Although numerous cures and treatments exist, creating alternative cancer therapies with fewer adverse side effects is vital. Since ancient times, plant bioactive compounds have already been used as a remedy to heal cancer. These plant bioactive compounds and their anticancer activity can also deregulate the microRNAs (miRNAs) in the cancerous cells. Therefore, the deregulation of miRNAs in cancer cells by plant bioactive compounds and the usage of the related miRNA could be a promising approach for cancer cure, mainly to prevent cancer and overcome chemotherapeutic side effect problems. Hence, this review highlights the function of plant bioactive compounds as an anticancer agent through the underlying mechanism that alters the miRNA expression in cancer cells, ultimately leading to apoptosis. Moreover, this review provides insight into using plant bioactive compounds -driven miRNAs as an anticancer agent to develop miRNA-based cancer gene therapy. They can be the potential resource for gene therapy and novel strategies targeting cancer therapeutics.

Published

2024

42. Predominance of non-covalent interactions of polyphenols with milk proteins and their health promoting properties.

Author

Mao, Ting, Wescombe, Philip, and Mohan, Maneesha S.

Subjects

*POLYPHENOLS, *LOCAL delivery services, *MOLECULAR weights, *CELL lines, *PROTEIN-protein interactions, *MILK proteins

Abstract

Polyphenols have widely accepted health benefits which are limited by their low uptake, low bioavailability, and rapid degradation in the gut. While milk proteins are excellent carriers for polyphenols, the specific interactions of the polyphenols with the milk proteins, need to be understood to facilitate the utilization of these delivery systems in food and pharmaceutical applications. We have evaluated the relevance of different factors affecting milk protein-polyphenol interactions and the subsequent impact on the bioavailability and health promoting aspects of polyphenols. Hydrophobic forces are the primary binding forces of polyphenols to milk proteins. The significant factors affecting the interactions and binding affinity are the molecular weight and the hydrophobicity of the polyphenols. The interaction of polyphenols with milk proteins improved the antioxidant activity in comparison to milk proteins, while conflicting results exists for comparisons with polyphenols. In-vitro and cell line studies demonstrated enhanced bioavailability of polyphenols in the presence of milk proteins as well as higher anti-cancer and anti-allergy benefits. Overall, this work will pave the way for better understanding of polyphenol interactions with milk proteins and enable the tailoring of complexes through sustainable green processes, enabling higher bioavailability and health promoting effects of the polyphenols in food and pharmaceutical applications. [ABSTRACT FROM AUTHOR]

Published

2024

43. Enhancement of anti-cancer compounds in fungal elicited-Oldenlandia umbellata culture.

Author

Saranya, S., Chellapandi, P., and Velayutham, P.

Abstract

Our study focused on enhancing the production of anthraquinone derivatives in Oldenlandia umbellata using fungal elicitors. Aspergillus niger, Mucor prayagensis, and Trichoderma viride were used to elicit the anthraquinone derivatives in root cultures. The elicitation process led to an increase in the production of phytochemicals and secondary metabolites, with the highest total protein content observed in A. niger-elicited plants. We performed qualitative and quantitative phytochemical screening of the 80% methanol extract of the plants. Using reverse phase-ultra-fast liquid chromatography, we identified and quantified five anthraquinone compounds: aloe-emodin, rhein, emodin, chrysophanol, and alizarin. The in vitro root samples elicited with A. niger and M. prayagensis exhibited four and three anthraquinone derivatives, respectively, whereas those elicited with T. viride showed only two derivatives. Interestingly, chrysophanol content was the highest in A. niger-elicited root samples. We constructed a system pharmacology framework consisting of 40 nodes and 45 edges with 34 interacting genes. We also identified human proteins that interact with these derivatives, and inferred their roles in cancer-associated pathways. These anthraquinone derivatives interact with various proteins in multiple pathways, including apoptosis, human cytomegalovirus infection, proteoglycans in cancer, MAPK signaling, and hepatitis C, highlighting their potential therapeutic applications in cancer treatment. [ABSTRACT FROM AUTHOR]

Published

2024

44. Exploring the diverse therapeutic benefits of metformin: from anti-cancer to anti-inflammation and PCOS management

Author

Nurul Azizah, Annisa Abdi Ghifari, Wirawan Adikusuma, Darmawi, and Muhammad Yulis Hamidy

Subjects

anti-cancer, anti-inflammation, drug repurposing, metformin, polycystic ovarian syndrome, (pcos), Pharmacy and materia medica, RS1-441, Therapeutics. Pharmacology, RM1-950

Abstract

Background: Metformin is widely prescribed for type 2 diabetes mellitus and is recognized for its therapeutic benefits beyond glycemic control. This review summarizes current data on metformin's diverse roles in various therapeutic contexts, including treating polycystic ovarian syndrome (PCOS), anti-inflammatory effects, and cancer prevention. Method: This comprehensive examination highlights the multifaceted applications of metformin in modern medicine and its potential to enhance the treatment of inflammatory diseases, cancer, and reproductive disorders. Results and Discussion: Metformin's anti-inflammatory properties may benefit autoimmune disorders, neurological diseases, and cardiovascular illnesses. In women with PCOS, metformin aids in restoring menstrual regularity, inducing ovulation, and improving reproductive outcomes by enhancing insulin sensitivity, modulating ovarian function, and reducing hyperandrogenism. Additionally, emerging evidence suggests that metformin may reduce cancer incidence and mortality in diabetic individuals by modulating cellular metabolism, inducing apoptosis, and inhibiting tumor cell proliferation. Conclusion: Our review suggests promising evidence for metformin's role in cancer prevention, reducing inflammation, and managing PCOS. However, further research is required to identify patient subgroups that will benefit most from metformin therapy, elucidate its mechanisms of action, and optimize dosing regimens.

Published

2024

45. Transforming Cancer Treatment with Nanotechnology: The Role of Berberine as a Star Natural Compound

Author

Sun L, Lan J, Li Z, Zeng R, Shen Y, Zhang T, and Ding Y

Subjects

berberine, anti-cancer, nano drug delivery system, combination therapy, Medicine (General), R5-920

Abstract

Liyan Sun,1 Jinshuai Lan,1,2 Zhe Li,1,2 Ruifeng Zeng,1,2 Yi Shen,1 Tong Zhang,1,2 Yue Ding1– 3 1School of Pharmacy, Shanghai University of Traditional Chinese Medicine, Shanghai, 201203, People’s Republic of China; 2State Key Laboratory of Integration and Innovation of Classic Formula and Modern Chinese Medicine, Shanghai University of Traditional Chinese Medicine, Shanghai, 201203, People’s Republic of China; 3National Innovation Platform for Medical Industry-Education Integration, Shanghai University of Traditional Chinese Medicine, Shanghai, 201203, People’s Republic of ChinaCorrespondence: Yue Ding; Tong Zhang, Email dingyue-2001@hotmail.com; zhangtongshutcm@hotmail.comAbstract: Berberine (BBR), recognized as an oncotherapeutic phytochemical, exhibits its anti-cancer properties via multiple molecular pathways. However, its clinical application is hindered by suboptimal tumor accumulation, rapid systemic elimination, and diminished bioactive concentration owing to extensive metabolic degradation. To circumvent these limitations, the strategic employment of nanocarriers and other drugs in combination with BBR is emerging as a focus to potentiate its anti-cancer efficacy. This review introduced the expansive spectrum of BBR’s anti-cancer activities, BBR and other drugs co-loaded nanocarriers for anti-cancer treatments, and evaluated the synergistic augmentation of these amalgamated modalities. The aim is to provide an overview of BBR for cancer treatment based on nano-delivery. Berberine (BBR), recognized as an oncotherapeutic phytochemical, exhibits its anti-cancer properties via multiple molecular pathways. However, its clinical application is hindered by suboptimal tumor accumulation, rapid systemic elimination, and diminished bioactive concentration owing to extensive metabolic degradation. To circumvent these limitations, the strategic employment of nanocarriers and other drugs in combination with BBR is emerging as a focus to potentiate its anti-cancer efficacy. Nano-delivery systems increase drug concentration at the tumor site by improving pharmacological activity and tissue distribution, enhancing drug bioavailability. Organic nanocarriers have advantages for berberine delivery including biocompatibility, encapsulation, and controlled release of the drug. While the advantages of inorganic nanocarriers for berberine delivery mainly lie in their efficient loading ability of the drug and their slow release ability of the drug. This review introduced the expansive spectrum of BBR’s anti-cancer activities, BBR and other drugs co-loaded nanocarriers for anti-cancer treatments, and evaluated the synergistic augmentation of these amalgamated modalities. The aim is to provide an overview of BBR for cancer treatment based on nano-delivery.Keywords: berberine, anti-cancer, nano drug delivery system, combination therapy

Published

2024

46. Green, facile synthesis and evaluation of unsymmetrical carbamide derivatives as antimicrobial and anticancer agents with mechanistic insights

Author

Farid M. Sroor, Ahmed A. F. Soliman, Elham Mohamed Youssef, Mohamed Abdelraof, and Ahmed F. El-Sayed

Subjects

Unsymmetrical carbamide, Secondary amine, Isocyanate, Anti-cancer, Antimicrobial, Lipid peroxidation, Medicine, Science

Abstract

Abstract A very practical method for the synthesis of unsymmetrical carbamide derivatives in good to excellent yield was presented, without the need for any catalyst and at room temperature. Using a facile and robust protocol, fifteen unsymmetrical carbamide derivatives (9–23) bearing different aliphatic amine moieties were designed and synthesized by the reaction of secondary aliphatic amines with isocyanate derivatives in the presence of acetonitrile as an appropriate solvent in good to excellent yields. Trusted instruments like IR, mass spectrometry, NMR spectra, and elemental analyses were employed to validate the purity and chemical structures of the synthesized compounds. All the synthesized compounds were tested as antimicrobial agents against some clinically bacterial pathogens such as Salmonella typhimurium, Bacillus subtilis, Pseudomonas aeruginosa, Staphylococcus aureus and Candida albicans. Compounds 15, 16, 17, 19 and 22 showed potent antimicrobial activity with promising MIC values compared to the positive controls. Moreover, compounds 15 and 22 provide a potent lipid peroxidation (LPO) of the bacterial cell wall. On the other hand, we investigated the anti-proliferative activity of compounds 9–23 against selected human cancerous cell lines of breast (MCF-7), colon (HCT-116), and lung (A549) relative to healthy noncancerous control skin fibroblast cells (BJ-1). The mechanism of their cytotoxic activity has been also examined by immunoassaying the levels of key anti- and pro-apoptotic protein markers. The results of MTT assay revealed that compounds 10, 13, 21, 22 and 23 possessed highly cytotoxic effects. Out of these, three synthesized compounds 13, 21 and 22 showed cytotoxicity with IC50 values (13, IC50 = 62.4 ± 0.128 and 22, IC50 = 91.6 ± 0.112 µM, respectively, on MCF-7), (13, IC50 = 43.5 ± 0.15 and 21, IC50 = 38.5 ± 0.17 µM, respectively, on HCT-116). Cell cycle and apoptosis/necrosis assays demonstrated that compounds 13 and 22 induced S and G2/M phase cell cycle arrest in MCF-7 cells, while only compound 13 had this effect on HCT-116 cells. Furthermore, compound 13 exhibited the greatest potency in inducing apoptosis in both cell lines compared to compounds 21 and 22. Docking studies indicated that compounds 10, 13, 21 and 23 could potentially inhibit enzymes and exert promising antimicrobial effects, as evidenced by their lower binding energies and various types of interactions observed at the active sites of key enzymes such as Sterol 14-demethylase of C. albicans, Dihydropteroate synthase of S. aureus, LasR of P. aeruginosa, Glucosamine-6-phosphate synthase of K. pneumenia and Gyrase B of B. subtilis. Moreover, 13, 21, and 22 demonstrated minimal binding energy and favorable affinity towards the active pocket of anticancer receptor proteins, including CDK2, EGFR, Erα, Topoisomerase II and VEGFFR. Physicochemical properties, drug-likeness, and ADME (absorption, distribution, metabolism, excretion, and toxicity) parameters of the selected compounds were also computed.

Published

2024

47. Underlying anti-cancer mechanisms of histone deacetylase (HDAC) inhibitors in tamoxifen-resistant breast cancer cells

Author

Lingyan Wang, Yukai Xu, and Chunhui Gao

Subjects

anti-cancer, breast cancer, drug resistance, histone deacetylase- inhibitors, tamoxifen, Medicine

Abstract

Objective(s): Breast cancer is an important women’s malignancy with high cancer-related deaths worldwide. Drug resistance lowers the treatment efficacy in this malignancy. This study aimed to explore the underlying mechanisms of histone deacetylase (HDAC) inhibitor trichostatin A (TSA) to overcome resistance to tamoxifen in breast cancer cells.Materials and Methods: Tamoxifen-resistance in MCF-7 breast cancer cells was simulated. MTT assay was used to detect the cytotoxic effects of HDAC inhibitor and PI3K inhibitor on the cancer cells. Trans-well assay was applied to evaluate the invasion and migration of the treated cancer cells. Flow cytometer assay was also applied to evaluate cell cycle phases in the treated cancer cells. Finally, expression of vascular endothelial growth factor (VEGF), E-cadherin, Vimentin, phosphorylated phosphatidylinositol kinase (p-PI3k), phosphorylated protein kinase B (p-AKT), and phosphorylated mammalian target protein of rapamycin (p-mTOR) was evaluated by western blotting.Results: The obtained results indicated that HDAC inhibitor treatments significantly decreased viability, migration, and invasion in the cancer cells. Furthermore, the frequency of the treated cancer cells significantly increased in the S phase as well as significantly decreasing in the G2/M phase of the cell cycle. Moreover, HDAC inhibitor modified levels of VEGF, E-cadherin, Vimentin, p-PI3k, p-AKT, and p-mTOR proteins. However, HDAC inhibitor combined with PI3K inhibitor exerts more profound effects on the cancer cells as compared to HDAC inhibitor monotherapy.Conclusion: HDAC inhibitors inhibited the survival of breast cancer drug-resistant cells, invasion, migration, and angiogenesis by inhibiting the PI3k/Akt/mTOR signaling pathway.

Published

2024

48. Folic acid-modified nanocrystalline cellulose for enhanced delivery and anti-cancer effects of crocin

Author

Mozhgan Soltani, Amin Farhadi, Sarah Rajabi, Masoud Homayouni‐Tabrizi, Fatimah Sameer Hussein, and Navid Mohammadian

Subjects

Crocin, Saffron, Anti-cancer, Nanocrystal cellulose, Folic acid, Apoptosis, Medicine, Science

Abstract

Abstract Crocin is a carotenoid compound in saffron with anti-cancer properties. However, its therapeutic application is limited by its low absorption, bioavailability, and stability, which can be overcome through nanocarrier delivery systems. This study used surface-modified Nano-crystalline cellulose (NCC) to deliver crocin to cancer cells. NCC modified with CTAB were loaded with crocin and then conjugated with folic acid (NCF-CR-NPs). The synthesized nanoparticles (NPs) were characterized using FTIR, XRD, DLS, and FESEM. The crystallinity index of NCC was 66.64%, higher than microcrystalline cellulose (61.4%). The crocin loading and encapsulation efficiency in NCF-CR-NPs were evaluated. Toxicity testing by MTT assay showed that NCF-CR-NPs had higher toxicity against various cancer cell lines, including colon cancer HT-29 cells (IC50 ~ 11.6 μg/ml), compared to free crocin. Fluorescent staining, flow cytometry, and molecular analysis confirmed that NCF-CR-NPs induced apoptosis in HT-29 cells by increasing p53 and caspase 8 expression. The antioxidant capacity of NCF-CR-NPs was also evaluated using ABTS and DPPH radical scavenging assays. NCF-CR-NPs exhibited high free radical scavenging ability, with an IC50 of ~ 46.5 μg/ml for ABTS. In conclusion, this study demonstrates the potential of NCF-CR-NPs to deliver crocin to cancer cells effectively. The NPs exhibited enhanced anti-cancer and antioxidant activities compared to free crocin, making them a promising nanocarrier system for crocin-based cancer therapy.

Published

2024

49. Analysis of Clinical Trials Using Anti-Tumor Traditional Chinese Medicine Monomers

Author

Lv D, Liu Y, Tang R, Fu S, Kong S, Liao Q, Li H, and Lin L

Subjects

traditional chinese medicine monomers, anti-cancer, interventional clinical trials, research progress, adverse reactions, Therapeutics. Pharmacology, RM1-950

Abstract

Dan Lv,1 Yuling Liu,1 Ruying Tang,1 Sai Fu,1 Shasha Kong,1 Qian Liao,1 Hui Li,1,2 Longfei Lin1 1Institute of Chinese Materia Medica, China Academy of Chinese Medical Sciences, Beijing, 100700, People’s Republic of China; 2Institute of Traditional Chinese Medicine Health Industry, China Academy of Chinese Medical Sciences, Jiangxi, 330006, People’s Republic of ChinaCorrespondence: Hui Li; Longfei Lin, Institute of Chinese Materia Medica, China Academy of Chinese Medical Sciences, Nanxiaojie 16, 8 Dongzhimennei Ave, Beijing, 100700, People’s Republic of China, Tel +86-10-64032658, Email hli1967@icmm.ac; lflin@icmm.ac.cnAbstract: The potential anti-cancer effect of traditional Chinese medicine (TCM) monomers has been widely studied due to their advantages of well-defined structure, clear therapeutic effects, and easy quality control during the manufacturing process. However, clinical trial information on these monomers is scarce, resulting in a lack of knowledge regarding the research progress, efficacy, and adverse reactions at the clinical stage. Therefore, this study systematically reviewed the clinical trials on the anti-cancer effect of TCM monomers registered in the Clinicaltrials.gov website before 2023.4.30, paying special attention to the trials on tumors, aiming to explore the research results and development prospects in this field. A total of 1982 trials were started using 69 of the 131 TCM monomers. The number of clinical trials performed each year showed an overall upward trend. However, only 26 monomers entered into 519 interventional anti-tumor trials, with vinblastine (194, 37.38%) and camptothecin (146, 28.13%) being the most used. A total of 45 tumors were studied in these 519 trials, with lymphoma (112, 21.58%) being the most frequently studied. Clinical trials are also unevenly distributed across locations and sponsors/collaborators. The location and the sponsor/collaborator with the highest number of performed trials were the United States (651,32.85%) and NIH (77). Therefore, China and its institutions still have large room for progress in promoting TCM monomers in anti-tumor clinical trials. In the next step, priority should be given to the improvement of the research and development ability of domestic enterprises, universities and other institutions, using modern scientific and technological means to solve the problems of poor water solubility and strong toxic and side effects of monomers, so as to promote the clinical research of TCM monomers.Keywords: traditional Chinese medicine monomers, anti-cancer, interventional clinical trials, research progress, adverse reactions

Published

2024

50. Progress on the Anti-inflammatory, Anti-cancer Activities and Mechanism of Action of Fucoxanthin

Author

Yingying ZHU, Qian LUAN, Fanzheng ZENG, Xiaona WANG, Yongjun YUAN, and Luyun CAI

Subjects

fucoxanthin, anti-inflammatory, anti-cancer, action mechanism, Food processing and manufacture, TP368-456

Abstract

Fucoxanthin is a carotenoid, reddish-brown in color, which is mainly derived from marine organisms such as brown algae and diatoms, and has aroused extensive scientific interest due to its unique chemical structure and abundant biological activities. Studies have shown that fucoxanthin processes significant anti-inflammatory and anti-cancer activities. Its anti-inflammatory mechanisms primarily include inhibiting oxidative stress, regulating inflammatory factors, inducting cell autophagy, and resisting cell apoptosis, etc. The main mechanism of anti-cancer activity includes inducing cell autophagy and apoptosis mechanisms, regulating the cell cycle, inhibiting cell migration, and suppressing cell invasion, among other aspects. In this paper, the research progress of anti-inflammatory and anti-cancer activities and related mechanisms of action of fucoxanthin is briefly summarized, which provides the theoretical basis and reference for further research and development of fucoxanthin.

Published

2024