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International Journal of Pharmaceutics:... Jun 2024This study aimed to present findings on a paclitaxel (PTX)-loaded polymeric micellar formulation based on polycaprolactone-vitamin E TPGS (PCL-TPGS) and evaluate its in...
This study aimed to present findings on a paclitaxel (PTX)-loaded polymeric micellar formulation based on polycaprolactone-vitamin E TPGS (PCL-TPGS) and evaluate its in vitro anticancer activity as well as its in vivo pharmacokinetic profile in healthy mice in comparison to a marketed formulation. Micelles were prepared by a co-solvent evaporation method. The micelle's average diameter and polydispersity were determined using dynamic light scattering (DLS) technique. Drug encapsulation efficiency was assessed using an HPLC assay. The in vitro cytotoxicity was performed on human breast cancer cells (MCF-7 and MDA-MB-231) using MTT assay. The in vivo pharmacokinetic profile was characterized following a single intravenous dose of 4 mg/kg to healthy mice. The mean diameters of the prepared micelles were ≤ 100 nm. Moreover, these micelles increased the aqueous solubility of PTX from ∼0.3 μg/mL to reach nearly 1 mg/mL. While the PTX-loaded micelles showed an in vitro cytotoxicity comparable to the marketed formulation (Ebetaxel), drug-free PCL-TPGS micelles did not show any cytotoxic effects on both types of breast cancer cells (∼100% viability). Pharmacokinetics of PTX as part of PCL-TPGS showed a significant increase in its volume of distribution compared to PTX conventional formulation, Ebetaxel, which is in line with what was reported for clinical nano formulations of PTX, i.e., Abraxane, Genexol-PM, or Apealea. The findings of our studies indicate a significant potential for PCL-TPGS micelles to act as an effective system for solubilization and delivery of PTX.
PubMed: 38845681
DOI: 10.1016/j.ijpx.2024.100253 -
Scientific Reports Jun 2024New sulfonamide-triazole-glycoside hybrids derivatives were designed, synthesised, and investigated for anticancer efficacy. The target glycosides' cytotoxic activity...
New sulfonamide-triazole-glycoside hybrids derivatives were designed, synthesised, and investigated for anticancer efficacy. The target glycosides' cytotoxic activity was studied with a panel of human cancer cell lines. Sulfonamide-based derivatives, 4, 7 and 9 exhibited promising activity against HepG-2 and MCF-7 (IC = 8.39-16.90 μM against HepG-2 and 19.57-21.15 μM against MCF-7) comparing with doxorubicin (IC = 13.76 ± 0.45, 17.44 ± 0.46 μM against HepG-2 and MCF-7, rescpectively). To detect the probable action mechanism, the inhibitory activity of these targets was studied against VEGFR-2, carbonic anhydrase isoforms hCA IX and hCA XII. Compoumds 7 and 9 gave favorable potency (IC = 1.33, 0.38 μM against VEGFR-2, 66, 40 nM against hCA IX and 7.6, 3.2 nM against hCA XII, respectively), comparing with sorafenib and SLC-0111 (IC = 0.43 μM, 53 and 4.8 nM, respectively). Moreover, the docking simulation was assessed to supply better rationalization and gain insight into the binding affinity between the promising derivatives and their targeted enzymes that was used for further modification in the anticancer field.
Topics: Humans; Carbonic Anhydrase Inhibitors; Sulfonamides; Glycosides; Triazoles; Vascular Endothelial Growth Factor Receptor-2; Antineoplastic Agents; Molecular Docking Simulation; Carbonic Anhydrase IX; Carbonic Anhydrases; MCF-7 Cells; Hep G2 Cells; Cell Line, Tumor; Antigens, Neoplasm; Structure-Activity Relationship
PubMed: 38844493
DOI: 10.1038/s41598-024-62864-9 -
Heliyon Jun 2024Cancer is the second most fatal disease among women. In recent years, utilizing strategies based on carbon quantum dots (CQDs) as targeted drug delivery systems has had...
Cancer is the second most fatal disease among women. In recent years, utilizing strategies based on carbon quantum dots (CQDs) as targeted drug delivery systems has had a significant impact on advancing and improving cancer treatment. This study is focused on the development of a nanocarrier, based on CQDs, for improving the therapeutic efficiency of mitoxantrone (MTX). Hence, the N-doped CQDs were synthesized by a hydrothermal method. Following its purification, MTX was loaded to the CQD, resulting in an increase in the size from 36.78 ± 0.9 nm to 157.8 ± 12.18 nm, with an ideal drug entrapment efficiency of 97 %. Drug release investigation showed a pH-dependent improvement, from 8 % at pH 7.4 to 11 % at pH 5.2 after 48 h. Based on the Methylthiazolyldiphenyl-tetrazolium bromide (MTT) results after 5 h of treatment on MCF-7 breast cancer cells, the N-doped CQD showed no significant effect on the cancer cells, whereas a half maximal Inhibitory Concentration (IC) was achieved with the N-doped CQD-MTX complex at a concentration between 0.5 to 0.8 μM. Therefore, the newly developed drug delivery complex was capable of providing a rather identical influence on MCF-7 cells, as the free MTX, however, improving the pharmacokinetic of the drug by its controlled and on-target drug release, due to an alteration in distribution and absorption parameters.
PubMed: 38841446
DOI: 10.1016/j.heliyon.2024.e31674 -
RSC Advances May 2024Twelve tricarbonyl rhenium(i) complexes in the '2 + 1' system with the anionic bidentate N,O-donor ligand (deprotonated 8-hydroxyquinoline (HQ) or its 2-methyl (MeHQ) or...
Twelve tricarbonyl rhenium(i) complexes in the '2 + 1' system with the anionic bidentate N,O-donor ligand (deprotonated 8-hydroxyquinoline (HQ) or its 2-methyl (MeHQ) or 5-chloro (ClHQ) derivative) and neutral N-donor diazoles (imidazole (Him), 2-methylimidazole (MeHim), 3,5-dimethylpyrazole (Hdmpz), and 3-phenylpyrazole (HPhpz)) were synthesized: [Re(CO)(L)L] (L = Q, MeQ, ClQ; L = Him, MeHim, Hdmpz, HPhpz). Their crystal structures were determined by the scXRD method, compared with the DFT-calculated ones, and characterized by analytical (EA) and spectroscopic techniques (FT-IR, NMR, and UV-Vis) interpreted with DFT and TD-DFT calculations. Most of the Re(i) complexes did not show relevant antibacterial activity against Gram-negative and Gram-positive bacterial strains. Only [Re(CO)(MeQ)Him] demonstrated significant action 4-fold better against Gram-negative than the free MeHQ ligand. The cytotoxicity of the compounds was estimated using human acute promyelocytic leukemia (HL-60), ovarian (SKOV-3), prostate (PC-3), and breast (MCF-7) cancer, and breast non-cancerous (MCF-10A) cell lines. Only HQ and ClHQ ligands and [Re(CO)(Q)Hdmpz] complex had good selectivity toward MCF-7 cell line. HL-60 cells were sensitive to all complexes (IC = 1.5-14 μM). Still, pure HQ and ClHQ ligands were slightly more active than the complexes.
PubMed: 38841398
DOI: 10.1039/d4ra03141e -
PloS One 2024In recent years, a cancer research trend has shifted towards identifying novel therapeutic compounds from natural assets for the management of cancer. In this study, we...
In recent years, a cancer research trend has shifted towards identifying novel therapeutic compounds from natural assets for the management of cancer. In this study, we aimed to assess the cytotoxic activity of Kigelia Africana (KA) extracts on breast cancer (MDA-MB-231 and MCF-7) and noncancerous kidney cells (HEK-293T) to develop an efficient anticancer medication. We used gas chromatography mass spectrometry (GC-MS to analyze the constituents of EKA and HKA extracts meanwhile the crystal violet and the MTT (3-(4,5-Dimethylthiazol-2-yl)-2,5-Diphenyltetrazolium Bromide) assays were used to examine the possible cytotoxic effects of plant extracts on our cancer cell lines along with non-cancerous control. The quantitative real-time PCR (RT-PCR) was run on cell samples to evaluate the differential expression of cell proliferative markers of cancer (BCL-2 and TP53). These phytochemicals have been reported to have binding affinity for some other growth factors and receptors as well which was evaluated by the in-silico molecular docking against Bcl2, EGFR, HER2, and TP53. Our Morphological observation showed a significant difference in the cell morphology and proliferation potential which was decreased under the effect of plant extracts treatment as compared to the control samples. The ethanol extract exhibited a marked antiproliferative activity towards MDA-MB-231 and MCF-7 cell lines with IC50 = 20 and 32 μg/mL, respectively. Quantitative RT-PCR gene expression investigation revealed that the IC50 concentration of ethanolic extract regulated the levels of mRNA expression of apoptotic genes. With the target and active binding site amino acids discovered in the molecular docking investigation, TP53/Propanoic acid, 3-(2, 3, 6-trimethyl-1, 4-dioxaspiro [4.4] non-7-yl)-, methyl ester (-7.1 kcal/mol) is the best-docked ligand. The use of this plant in folk remedies justifies its high in vitro anti-cancer capabilities. This work highlights the role of phytochemicals in the inhibition of cancer proliferation. Based on all these findings, it can be concluded that EKA extract has promising anti-proliferative effect on cancerous cells but more study is required in future to further narrow down the active ingredients of total crude extract with specific targets in cancer cells.
Topics: Humans; Plant Extracts; MCF-7 Cells; Molecular Docking Simulation; Tumor Suppressor Protein p53; Cell Proliferation; Cell Line, Tumor; Antineoplastic Agents, Phytogenic; Breast Neoplasms; Gene Expression Regulation, Neoplastic; Female; HEK293 Cells; Proto-Oncogene Proteins c-bcl-2
PubMed: 38837975
DOI: 10.1371/journal.pone.0303134 -
International Journal of Nanomedicine 2024The purpose of this study is to address the need for efficient drug delivery with high drug encapsulation efficiency and sustained drug release. We aim to create...
PURPOSE
The purpose of this study is to address the need for efficient drug delivery with high drug encapsulation efficiency and sustained drug release. We aim to create nanoparticle-loaded microgels for potential applications in treatment development.
METHODS
We adopted the process of ionic gelation to generate microgels from sodium alginate and carboxymethyl cellulose. These microgels were loaded with doxorubicin-conjugated amine-functionalized zinc ferrite nanoparticles (AZnFe-NPs). The systems were characterized using various techniques. Toxicity was evaluated in MCF-7 cells. In vitro release studies were conducted at different pH levels at 37 C, with the drug release kinetics being analyzed using various models.
RESULTS
The drug encapsulation efficiency of the created carriers was as high as 70%. The nanoparticle-loaded microgels exhibited pH-responsive behavior and sustained drug release. Drug release from them was mediated via a non-Fickian type of diffusion.
CONCLUSION
Given their high drug encapsulation efficiency, sustained drug release and pH-responsiveness, our nanoparticle-loaded microgels show promise as smart carriers for future treatment applications. Further development and research can significantly benefit the field of drug delivery and treatment development.
Topics: Doxorubicin; Humans; Delayed-Action Preparations; Drug Liberation; MCF-7 Cells; Ferric Compounds; Hydrogen-Ion Concentration; Microgels; Drug Carriers; Alginates; Amines; Carboxymethylcellulose Sodium; Nanoparticles; Zinc; Zinc Compounds; Cell Survival
PubMed: 38836007
DOI: 10.2147/IJN.S448594 -
Scientific Reports Jun 2024Metabolic reprogramming is widely recognized as a hallmark of malignant tumors, and the targeting of metabolism has emerged as an appealing approach for cancer...
Metabolic reprogramming is widely recognized as a hallmark of malignant tumors, and the targeting of metabolism has emerged as an appealing approach for cancer treatment. Mitochondria, as pivotal organelles, play a crucial role in the metabolic regulation of tumor cells, and their morphological and functional alterations are intricately linked to the biological characteristics of tumors. As a key regulatory subunit of mitochondria, mitochondrial inner membrane protein (IMMT), plays a vital role in degenerative diseases, but its role in tumor is almost unknown. The objective of this research was to investigate the roles that IMMT play in the development and progression of breast cancer (BC), as well as to elucidate the underlying biological mechanisms that drive these effects. In this study, it was confirmed that the expression of IMMT in BC tissues was significantly higher than that in normal tissues. The analysis of The Cancer Genome Atlas (TCGA) database revealed that IMMT can serve as an independent prognostic factor for BC patients. Additionally, verification in clinical specimens of BC demonstrated a positive association between high IMMT expression and larger tumor size (> 2 cm), Ki-67 expression (> 15%), and HER-2 status. Furthermore, in vitro experiments have substantiated that the suppression of IMMT expression resulted in a reduction in cell proliferation and alterations in mitochondrial cristae, concomitant with the liberation of cytochrome c, but it did not elicit mitochondrial apoptosis. Through Gene Set Enrichment Analysis (GSEA) analysis, we have predicted the associated metabolic genes and discovered that IMMT potentially modulates the advancement of BC through its interaction with 16 metabolic-related genes, and the changes in glycolysis related pathways have been validated in BC cell lines after IMMT inhibition. Consequently, this investigation furnishes compelling evidence supporting the classification of IMMT as prognostic marker in BC, and underscoring its prospective utility as a novel target for metabolic therapy.
Topics: Humans; Breast Neoplasms; Female; Cell Proliferation; Mitochondria; Mitochondrial Proteins; Cell Line, Tumor; Gene Expression Regulation, Neoplastic; Middle Aged; Prognosis; Membrane Proteins; Biomarkers, Tumor; MCF-7 Cells; Muscle Proteins
PubMed: 38834715
DOI: 10.1038/s41598-024-63427-8 -
Biomedicine & Pharmacotherapy =... Jul 2024The incidence of breast cancer is increasing annually, making it a major health threat for women. Chemoprevention using natural, dietary, or synthetic products has...
The incidence of breast cancer is increasing annually, making it a major health threat for women. Chemoprevention using natural, dietary, or synthetic products has emerged as a promising approach to address this growing burden. Atractylenolide-III (AT-III), a sesquiterpenoid present in various medicinal herbs, has demonstrated potential therapeutic effects against several diseases, including tumors, nonalcoholic fatty liver disease, and cerebral ischemic injury. However, its impact on breast cancer chemoprevention remains unexplored. In this study, we used an N-methyl-N-nitrosourea (NMU)-induced rat breast cancer model and 17β-estradiol (E2)-treated MCF-10A cells to evaluate the chemopreventive potential of AT-III on mammary tumorigenesis. AT-III inhibited mammary tumor progression, evidenced by reduced tumor volume and multiplicity, prolonged tumor latency, and the reversal of NMU-induced weight loss. Furthermore, AT-III suppressed NMU-induced inflammation and oxidative stress through the Nrf2/ARE pathway in breast cancer tissues. In vitro, AT-III effectively suppressed E2-induced anchorage-independent growth and cell migration in MCF-10A cells. Nrf2 knockdown attenuated the protective effects of AT-III, highlighting the pivotal role of Nrf2 in AT-III-mediated suppression of tumorigenesis. The mechanism involves the induction of Nrf2 expression by AT-III through the autophagic degradation of Kelch-like ECH-associated protein 1 (Keap1). Overall, the results of this study indicate that AT-III is a promising candidate for breast cancer chemoprevention and provide valuable insights into its molecular interactions and signaling pathways.
Topics: Animals; NF-E2-Related Factor 2; Sesquiterpenes; Female; Kelch-Like ECH-Associated Protein 1; Lactones; Autophagy; Signal Transduction; Rats; Humans; Cell Line, Tumor; Rats, Sprague-Dawley; Mammary Neoplasms, Experimental; Oxidative Stress; Methylnitrosourea; Carcinogenesis; Anticarcinogenic Agents; Estradiol
PubMed: 38834007
DOI: 10.1016/j.biopha.2024.116852 -
RNA Biology Jan 2024LncRNA is a group of transcripts with a length exceeding 200 nucleotides that contribute to tumour development. Our research group found that LINC00052 expression was...
LncRNA is a group of transcripts with a length exceeding 200 nucleotides that contribute to tumour development. Our research group found that LINC00052 expression was repressed during the formation of breast cancer (BC) multicellular spheroids. Intriguingly, LINC00052 precise role in BC remains uncertain. We explored LINC00052 expression in BC patients` RNA samples (TCGA) in silico, as well as in an in-house patient cohort, and inferred its cellular and molecular mechanisms. In vitro studies evaluated LINC00052 relevance in BC cells viability, cell cycle and DNA damage. Results. Bioinformatic RNAseq analysis of BC patients showed that LINC00052 is overexpressed in samples from all BC molecular subtypes. A similar LINC00052 expression pattern was observed in an in-house patient cohort. In addition, higher LINC00052 levels are related to better BC patient´s overall survival. Remarkably, MCF-7 and ZR-75-1 cells treated with estradiol showed increased LINC00052 expression compared to control, while these changes were not observed in MDA-MB-231 cells. In parallel, bioinformatic analyses indicated that LINC00052 influences DNA damage and cell cycle. MCF-7 cells with low LINC00052 levels exhibited increased cellular protection against DNA damage and diminished growth capacity. Furthermore, in cisplatin-resistant MCF-7 cells, LINC00052 expression was downregulated. Conclusion. This work shows that LINC00052 expression is associated with better BC patient survival. Remarkably, LINC00052 expression can be regulated by Estradiol. Additionally, assays suggest that LINC00052 could modulate MCF-7 cells growth and DNA damage repair. Overall, this study highlights the need for further research to unravel LINC00052 molecular mechanisms and potential clinical applications in BC.
Topics: Humans; Breast Neoplasms; Computational Biology; RNA, Long Noncoding; Gene Expression Regulation, Neoplastic; Female; DNA Damage; Cell Cycle; Cell Proliferation; Cell Line, Tumor; MCF-7 Cells; Biomarkers, Tumor; Drug Resistance, Neoplasm; Cell Survival; Prognosis; Gene Expression Profiling
PubMed: 38832821
DOI: 10.1080/15476286.2024.2355393 -
Heliyon Jun 2024The effective treatment of cancer presents numerous challenges, including drug resistance and the risk of detrimental effects on normal tissues. Harmine, a...
The effective treatment of cancer presents numerous challenges, including drug resistance and the risk of detrimental effects on normal tissues. Harmine, a beta-carboline alkaloid, has demonstrated diverse biological properties. This study aimed to synthesize and characterize harmine encapsulated in polylactic--glycolic acid (PLGA) nanoparticles (Ha-PLGA-NPs) to investigate their potential as agents against cancer and angiogenesis. The synthesized Ha-PLGA-NPs were thoroughly characterized, exhibiting a connected rod-shaped crystal which some retaining the spherical shape of nanoparticles with an average size of 302.96 nm. Furthermore, the nanoparticles demonstrated a dispersion index of 0.23 and a surface charge of -16.51 mV. In vitro cytotoxicity assays conducted on the breast cancer cell line (MCF-7) revealed that Ha-PLGA-NPs possessed significant cytotoxic properties, with an observed IC value of 87.74 μg/mL. Notably, no substantial cytotoxicity was observed in human foreskin fibroblasts, indicating a favorable selectivity towards cancer cells. Evaluation of the anti-angiogenic activity of Ha-PLGA-NPs demonstrated a concentration-dependent inhibition of angiogenesis. Mechanistic investigations indicated that the observed inhibition was mediated through the regulation of key genes involved in angiogenesis, including caspase 3, caspase 9, VEGF, and VEGF-R. In vivo studies involving dietary administration of Ha-PLGA-NPs in mice revealed improvements in weight gain, feed intake, liver enzyme levels, and redox potential. These findings underscore the potential of Ha-PLGA-NPs as a promising therapeutic agent for cancer treatment. The observed effects are attributed to their ability to induce programmed cell death and inhibit angiogenesis, thus offering a multifaceted approach to combat cancer.
PubMed: 38832286
DOI: 10.1016/j.heliyon.2024.e31678