Search Results (614)

Polydopamine (PDA) surface coatings are widely used in biomedical engineering to enhance cell–substrate interactions; however, their effects on cancer-cell behavior remain unclear. In this study, we investigated how PDA-coated two-dimensional (2D) culture surfaces influence oncogenic traits of human prostate cancer (PC) cells in vitro. Using LNCaP, DU145, and PC3 cell lines, we found that PDA-coated substrates markedly increased the adhesion, migration, invasion, proliferation, and colony formation in a dose- and time-dependent manner. PDA exposure also induced epithelial–mesenchymal transition (EMT), upregulated cancer stem cell markers (CD44, CD117, CD133, Sox2, Oct4, and Nanog), and elevated expression of metastasis- and chemoresistance-associated molecules (MMP-2, MMP-9, MDR1, and MRP1). Mechanistically, PDA coatings enhanced integrin α₂β₁-associated cell adhesion, accompanied by increased focal adhesion kinase (FAK) phosphorylation and downstream activation of JNK signaling. Pharmacological inhibition of integrin α₂β₁ (BTT-3033), FAK (PF573228) and JNK (SP600125) effectively abrogated PDA-induced malignant phenotypes and restored chemosensitivity to cabazitaxel, cisplatin, docetaxel, curcumin, and enzalutamide. Collectively, these findings identify PDA-coated surfaces as a simple, efficient, and reductionist in vitro platform for studying adhesion-mediated signaling and phenotypic plasticity in PC cells, while acknowledging that further validation in three-dimensional (3D) and patient-derived models will be required to establish in vivo relevance. Full article

Background/Objectives: The global fight against cancer persists despite advances in prevention and treatment. The current study investigated the phytochemical constituents, antioxidant, anti-inflammatory, and anticancer properties of Eucomis comosa, traditionally used in South Africa to treat elephantiasis and cancer-related conditions. Methods: Phytochemical screening, Fourier transform infrared spectroscopy (FTIR), and liquid chromatography–mass spectrometry (LC-MS) analyses were conducted. Antioxidant activity was measured through DPPH and nitric oxide (NO) radical scavenging assays. The anticancer activity was assessed using the MTT assay. Results: Phytochemical screening confirmed the presence of alkaloids, cardiac glycosides, terpenoids, flavonoids, saponins, and phlobatannins. FTIR analysis of the aqueous extract displayed characteristic peaks at 3278.92 cm⁻¹ for O–H stretch, at 2930.67 cm⁻¹ for C–H stretch, at 1623.97 cm⁻¹ for C=O stretch, 1410.24 cm⁻¹ for C=C stretch and at 931.17 cm⁻¹ for =C–H, while LC-MS identified diverse metabolites, including polyphenols such as flavan-3-ols, flavone glycosides, and chalcones. Among the extracts, methanol showed the strongest DPPH scavenging activity (IC₅₀ = 972.73 µg/mL), followed by ethanol (1296.36 µg/mL). For NO scavenging, methanol again outperformed ethanol, with IC₅₀ values of 1301 µg/mL and 2890 µg/mL, respectively. Cytotoxicity assays demonstrated that the ethanol extract completely inhibited cell growth at concentrations of 100 and 200 µg/mL. Methanol, ethanol, and hexane extracts significantly suppressed cell proliferation in DU-145, PC-3, and SKU-T-1 cancer cell lines at higher concentrations, with IC₅₀ values ranging between 0.2 and 2.5 µg/mL. Conclusions: These findings indicate that the phytochemicals and functional groups present in E. comosa extracts contribute to their dose-dependent antioxidant and anticancer activities, supporting their ethnomedicinal use. Full article

Background/Objectives: Docetaxel is a widely used chemotherapeutic agent for several malignancies and is an established treatment for castration-resistant prostate cancer. However, its poor aqueous solubility, systemic toxicity, and the emergence of drug resistance limit its clinical benefit. Zein, a prolamin, forms micelles that enhance the solubility and delivery of hydrophobic drugs. As PEG length and ligand presentation govern micelle behavior, we investigated transferrin-functionalized PEGylated zein micelles as docetaxel nanocarriers and examined how PEG chain length (5 K vs. 10 K) and transferrin-mediated targeting affect delivery to prostate cancer cells. Methods: Docetaxel-loaded zein micelles bearing 5 K or 10 K PEG chains were prepared and conjugated to transferrin. Formulations were characterized for size, charge, morphology, critical micelle concentration, colloidal stability, drug loading and transferrin density. Cellular uptake and mechanisms were assessed in PC-3-Luc, DU145 and LNCaP cells by confocal microscopy, flow cytometry and pharmacological inhibition. Anti-proliferative activity was determined by MTT assays. Results: Both PEG5K and PEG10K micelles formed micellar dispersions with low polydispersity and high encapsulation efficiency. PEG5K micelles achieved higher transferrin conjugation and drug loading. Transferrin-functionalized PEG5K micelles showed enhanced uptake in DU145 and LNCaP cells but lower internalization in PC-3-Luc cells. Inhibitor studies indicated receptor-dependent uptake via clathrin- and caveolae-mediated endocytosis. Free docetaxel remained the most potent. However, among nanocarriers, transferrin-targeted PEG5K micelles showed the greatest anti-proliferative efficacy relative to their non-targeted counterparts, whereas transferrin-targeted PEG10K micelles were less potent than the non-targeted PEG10K micelles across all three cell lines. Conclusions: PEG chain length and ligand presentation are key determinants of uptake and cytotoxicity of docetaxel-loaded zein micelles. Shorter PEG chains favor effective transferrin display and receptor engagement, whereas longer PEG likely induces steric hindrance and reduces targeting, supporting transferrin-conjugated PEG5K zein micelles (the lead formulation in this study) as a targeted delivery platform that improves performance relative to matched non-targeted micelles in vitro, while free docetaxel remains more potent in 2D monolayer assays. Full article

Background/Objectives: Near-infrared photoimmunotherapy (NIR-PIT) is a molecularly targeted cancer therapy that employs antibody–photoabsorber conjugates (APCs) comprising the photosensitizer IRDye700DX (IR700) and tumor-specific antibodies. Following near-infrared (NIR) light irradiation, IR700 undergoes structural modification, inducing selective and rapid necrotic cell death. In mouse tumor models, we observed that IR700 fluorescence decreased during irradiation but recovered immediately afterward. This study aimed to characterize this novel phenomenon, named “early fluorescence recovery,” and explore its therapeutic implications. Methods: Cetuximab-IR700 (Cet-IR700) was synthesized and administered to A431 and FaDu-Luc2 xenograft female BALB/c-nu/nu mouse models. In vivo fluorescence imaging was conducted using LIGHTVISION during and after NIR irradiation (690 nm, 50 J/cm²). Reactive oxygen species involvement was examined via intraperitoneal administration of L-sodium ascorbate. Tumor blood flow changes were assessed via indocyanine green (ICG) imaging, and therapeutic efficacy was compared between single and divided irradiation protocols. Results: Tumor fluorescence markedly decreased during NIR-PIT but rapidly recovered within 10 min after irradiation. This recovery was significantly inhibited by L-sodium ascorbate (p < 0.01) and accompanied by increased ICG fluorescence (p < 0.01), suggesting enhanced tumor perfusion. Divided irradiation performed after fluorescence recovery tended to yield greater tumor suppression than did single irradiation, although the difference was not statistically significant. Conclusions: Early fluorescence recovery after NIR-PIT reflects transient reactivation of photoactive APCs through oxygen-dependent molecular and vascular mechanisms. Exploiting this brief recovery window with divided irradiation may improve therapeutic efficacy and guide optimization of NIR-PIT protocols. Full article

Cancer is one of the most feared diseases in the world. Its incidence has increased steadily in recent years; it represents a significant burden of disease and is among the leading causes of death globally. Consequently, the search for novel compounds that serve as potential candidates for pharmacotherapeutic options and that can be used as treatments or adjuvants to control this disease is urgent. In this context, plant-derived phenolic diterpenes have shown antitumor activity against several types of cancer, inhibiting DNA synthesis, lipid metabolism, and bioenergetics of these cells, among other mechanisms, making these compounds an excellent alternative to continue investigating. The objective of this research was to evaluate the action of the previously undescribed natural diterpene 3,3′-diisopropyl-2,2′,5,5′-tetramethoxy-6,6′-dimethylbiphenyl-4,4′-diol (biisoespintanolcompound 2), against several human tumor cell lines (A549, MDA-MB-231, DU145, A2780, A2780-cis) and the non-tumor cell line MRC-5. Experiments with 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide (MTT) and fluorescence with propidium iodide (PI), 4′,6-diamidino-2-phenylindole dilactate (DAPI), and green plasma revealed the cytotoxicity of 2 against these cells. Furthermore, morphological and chromogenic studies demonstrated the action of 2 on cell morphology and its inhibitory capacity of reproductive viability for colony formation in A549 cells. Furthermore, 3D experiments validated the damage caused by this diterpene in these cells. These results contribute to the search for novel compounds with antitumor potential and serve as a basis for advancing studies into the mechanisms of action of these compounds and the development of synthetic derivatives or analogs with a better antitumor profile. Full article

Euryops floribundus has traditionally been recognized for its therapeutic benefits, although its pharmacological potential has not been fully explored. This study investigated the leaves of E. floribundus for volatile compounds, in vitro anticancer potential, antioxidant activity, and phytochemical composition using standard methods. Terpenoids, flavonoids, glycosides, tannins, saponins, and steroids were identified using qualitative screening. FTIR analysis verified that the functional groups corresponded to bioactive substances. Methanol, ethanol, and aqueous extracts showed dose-dependent 2,2-diphenyl-1-picrylhydrazyl (DPPH) radical scavenging activity. Nitric oxide scavenging activity ranged from 7.2% to 22.5% at 2500 μg/mL. GC-MS profiling of essential oils revealed monoterpenes as the primary constituents (60%), with sabinene (27.86%) and terpinen-4-ol (13.63%) as major chemicals. Significant antiproliferative effects were shown by ethanol and methanol extracts against DU-145, PC-3, and SK-UT-1 cancer cell lines with cell viability inhibition ranging from 82.6% to 85.6%, and IC₅₀ values ranging from 1.7 ± 0.02 to 2.7 ± 0.03 µg/mL. These findings support the potential therapeutic uses of E. floribundus leaves and necessitate additional bioassay-guided research since they indicate that the leaves are rich in bioactive phytochemicals with antioxidant and anticancer activities. Full article

Background: Spatial heterogeneity in tumor tissue has been linked to patient prognosis. To exploit both structural and semantic cues in whole slide images (WSIs), we propose Dual eXplanatory Framework (DuXplore), a dual-branch deep learning framework that integrates tissue architecture and cellular morphology for hepatocellular carcinoma (HCC) prognosis. Method: At the macroscopic level, DuXplore constructs a multi-channel tissue organization probability map (MTOP) to represent the spatial layout of eight tissue categories within the WSIs. At the microscopic level, a feature-guided Fused Structure Tensor (FST) based on tissue composition is employed to extract representative cell morphology patches. Accordingly, MTOP representations are modeled by Macro-Net, while FST-guided patches are modeled by Micro-Net. Each branch produces a 32-dimensional prognostic embedding, which are fused and passed through a multi-layer perceptron with a Cox proportional hazards head to generate patient-level risk predictions. To further elucidate the distinct contributions of the two branches, we conducted model-agnostic interpretability analyses, including occlusion sensitivity mapping (OSM) on MTOP and nuclear morphometrics from CellProfiler on high- versus low-risk tiles. Result: DuXplore achieves promising performance with C-indices of 0.764 on the public Cancer Genome Atlas (TCGA) dataset and 0.713 on the Eastern Hepatobiliary HCC (EHBH) cohort from our clinical center, along with significant patient risk stratification (log-rank p < 0.001). OSM highlighted necrosis and central fibrosis as high-risk and marginal fibrosis as protective; these patterns were corroborated by multivariable Cox using reproducible structural parameters (N-ratio, FIB-center, FIB-edge). Micro-level analysis revealed that higher nuclear staining intensity, increased texture irregularity (GLCM features), and greater morphological heterogeneity characterize high-risk tiles, aligning with pathological understanding. Conclusions: DuXplore advances prognostic modeling by coupling structure-aware micro-sampling with macro architectural encoding, delivering robust, generalizable survival prediction and biologically plausible explanations. While validated on HCC WSIs, broader multi-center, multi-omics studies are warranted to refine sampling scales and enhance clinical translation. Full article

Background: Medicinal plants continue to offer a promising source of novel bioactive compounds for cancer therapy due to their affordability, biocompatibility, and low toxicity. Rhus punjabensis Stewart, an ethnomedicinal species from the family Anacardiaceae, has long been used in the traditional medicine of northern Pakistan to treat inflammatory, hepatic, and infectious diseases. However, its phytochemical composition and anticancer potential remain largely unexplored. Methods: This study employed a bioactivity-guided isolation strategy to identify and characterize anticancer constituents from R. punjabensis leaves. The plant material was sequentially fractionated using solvents of increasing polarity, followed by purification via column chromatography. Each fraction and purified compound was evaluated using antioxidant (DPPH, total antioxidant capacity, and total reducing power) and cytotoxic assays, including brine shrimp lethality, Sulfo-rhodamine B (SRB) against five human cancer cell lines, protein kinase inhibition, and NF-κB chemo-preventive assays. Results: Comparative analysis of spectral data (UV, 1D/2D NMR, and ESI-MS) led to the identification of three triterpenoid compounds—Lupeol, Cycloartenol, and β-sitosterol—reported for the first time from R. punjabensis. Among them, Lupeol displayed the most potent cytotoxicity against DU-145 prostate (IC₅₀ = 11.2 ± 1.2 μg/mL) and HL-60 leukemia (IC₅₀ = 15.2 ± 1.1 μg/mL) cell lines and showed significant NF-κB inhibitory activity (IC₅₀ = 19.4 ± 1.1 μg/mL), indicating its chemo-preventive potential. Cycloartenoland β-sitosterol exhibited moderate antioxidant and antimicrobial activities. Conclusion: The findings validate the ethnopharmacological use of R. punjabensis and confirm it as a new source of triterpenoids with notable anticancer activity. This study provides the first comprehensive account of its bioactive metabolites, reinforcing the significance of bioactivity-directed isolation as a powerful approach for discovering natural anticancer agents. Further in vivo and mechanistic evaluations are warranted to establish their therapeutic efficacy and safety profiles. Full article

Background/Objectives: Here, we report the design, synthesis, and in vitro biological evaluation of a novel stimuli-sensitive nanotherapeutics based on cisplatin analog, cis-[PtCl₂(NH₃)(2-(3-oxobutyl)pyridine)] (Pt-OBP), covalently linked to a N-(2-hydroxypropyl)methacrylamide (HPMA) copolymer via a pH-sensitive hydrazone bond. Methods: Two polymer–drug conjugates, P-Pt-A and P-Pt-B, were synthesized, differing in spacer length between the polymer chain and hydrazone bond, which in turn modulates their drug release kinetics. Results: The spacer based on hydrazone bond demonstrated satisfactory stability under blood-mimicking conditions while enabling selective release of the active drug intracellularly or even in the mildly acidic tumor microenvironment. Pt-OBP exhibits comparable or even superior cytostatic and cytotoxic activity to carboplatin across a panel of murine and human cancer cell lines, with the highest potency observed in FaDu cells representing human head and neck squamous cell carcinoma. Mechanistically, Pt-OBP induced significant phosphorylation of γ-H2AX and activation of caspase-3, indicating its ability to cause DNA damage with subsequent apoptosis induction. P-Pt-A retained moderate biological activity, whereas the slower-releasing P-Pt-B exhibited reduced potency in vitro, consistent with its drug release profile. Conclusions: Notably, free Pt-OBP induced rapid apoptotic cell death, surpassing carboplatin at early time points, and the polymeric conjugates achieved comparable pro-apoptotic activity after extended incubation, suggesting effective intracellular release of the active drug. Full article

Introduction: Prostate cancer (PC) accounts for around 10% of all cancers worldwide and is the fourth most common neoplasm. Localized PC has high cure rates when diagnosed early, but 35% of patients progress to the metastatic form. The search for new molecular markers, such as microRNAs, is fundamental to improving diagnosis and treatment. The role of miR-10a is controversial between tumor tissues, opening a niche for studies on their role in PC. Objectives: To evaluate the role of miR-10a in metastatic PC cell lines, focusing on the mechanisms of proliferation, migration, and invasion, and to analyze the expression in surgical specimens of localized PC. Methods: Three commercial metastatic PC cell lines were used: LNCaP, DU145 and PC-3. Expression of mimic miR-10a was induced by cell transfection, followed by extraction of miRNA and total RNA. The synthesis of complementary DNA (cDNA) and analysis by real-time PCR enabled the expression of miR-10a and the VEGF, MYC, and HAS3 genes to be assessed. Matrigel, colony formation, invasion, and migration assays were evaluated for the transfected cells. The surgical specimens were used to evaluate the miR-10a expression. Results: Transfected cells with mimic significantly increased the expression of miR-10a in the LNCaP (p = 0.0179), PC-3 (p ≤ 0.001), and DU145 (p ≤ 0.001) cell lines. Transfected cells reduced cell invasion in the PC-3 (p = 0.001) and DU-145 (p = 0.0004) cell lines and decreased cell migration and proliferation. In surgical specimens, miR-10a expression was higher in PC compared to Benign Prostatic Hyperplasia (p = 0.0010). Conclusions: Increased expression of miR-10a affects cell migration, invasion, and proliferation, showing potential as a therapeutic target in treating PC. Full article

Background: ADAR1 (ADAR), ADAR2 (ADARB1), and ADAR3 (ADARB2) are deaminase adenosine RNA-specific enzymes that play a significant role in RNA metabolism. ADAR1 (ADAR) and ADAR2 (ADARB1) catalyze A-to-I editing and ADAR3 (ADARB2) plays a regulatory role. The role of these three genes still remains unknown in head and neck cancers (HNSCC). The aim of this study is to reveal the role of deaminase adenosine RNA-specific enzymes in pathomechanisms of HNSCC and to investigate their potential utility as diagnostic and/or prognostic biomarkers. Methods: The quantitative PCR analysis was conducted using RNA isolated from 22 pairs of matched tumor and adjacent normal tissues, 76 formalin-fixed paraffin-embedded (FFPE) tumor samples, and a panel of HNSCC cell lines (DOK, SCC-25, SCC-40, FaDu, and CAL-27). In parallel, transcriptomic and clinical data from the Cancer Genome Atlas HNSCC cohort were analyzed. Patients were stratified into high- and low-expression groups, and statistical assessments included overall survival and progression-free interval analyses, evaluation of gene expression in relation to clinicopathological parameters, correlation with other genes, and functional pathway exploration using gene set enrichment analysis. Results: ADARB2 was significantly downregulated in HNSCC tumor tissues compared to adjacent normal mucosa (p = 0.044), with discriminatory potential to distinguish malignant from non-malignant tissues (AUC = 0.692, p = 0.029). TCGA data confirmed ADAR (p < 0.0001) and ADARB1 (p < 0.0001) upregulation in tumors, while ADARB2 was markedly reduced (p = 0.04). Patients with high ADARB2 expression showed significantly longer overall survival (pa = 0.0121; pb = 0.0098), with a trend toward improved progression-free survival (pb = 0.0681). Subsite analysis revealed high ADAR expression correlated with poor OS in pharyngeal tumors (p < 0.05), whereas high ADARB2 expression was linked to improved DFS (pa = 0.0023, pb = 0.0047). GSEA indicated that low ADARB2 expression was enriched in oncogenic pathways, including Wnt/β-catenin (p = 0.006), MYC targets (p = 0.009), and TGF-β1 (p = 0.009). Conclusions: ADARB2 expression was significantly reduced in HNSCC tumor tissues compared to normal mucosa and demonstrated strong discriminatory power for distinguishing malignant from non-malignant samples. High ADARB2 expression was associated with markedly improved overall survival, whereas low expression correlated with enrichment of oncogenic pathways, including Wnt/β-catenin, Notch, and Hedgehog, consistent with a poorer clinical prognosis. These findings highlight ADARB2 as a promising diagnostic biomarker and independent prognostic factor in HNSCC. Full article

Background/Objectives: Quercetin is a bitter compound with demonstrated anticancer effects in preclinical models of head and neck squamous cell carcinoma (HNSCC). In taste transduction, bitter compounds activate bitter taste receptors (T2Rs), a group of G protein-coupled receptors with downstream signaling that includes cytosolic calcium (Ca²⁺) release. T2Rs are expressed in HNSCC cells, where their activation induces apoptosis in vitro. Increased T2R expression in HNSCC also correlates with improved patient survival. The objective of this study was to investigate the role of quercetin as an anticancer T2R agonist in HNSCC cells in vitro and ex vivo. Methods: Quercetin-mediated Ca²⁺ responses were assessed using live cell Ca²⁺ imaging in the presence of the T2R14 antagonist LF1 and G-protein inhibitor YM-254980 (YM) in UM-SCC-47 and FaDu HNSCC cell lines. Cell viability was evaluated using crystal violet assays in cell lines and MTS assays in patient-derived tumor slices. Mitochondrial depolarization was measured with TMRE in the presence and absence of T2R pathway inhibitors. Results: Quercetin induced a Ca²⁺ response in HNSCC cells, which was significantly reduced by LF1 and YM. Quercetin also decreased cell viability in vitro. Ex vivo experiments showed a decrease in viability that was not statistically significant. Finally, quercetin caused mitochondrial depolarization, which was reduced in the presence of LF1 but not by YM. Conclusions: In HNSCC cells, quercetin causes a Ca²⁺ response that is likely mediated by T2R14, although genetic knockdown or knockout models are needed to more definitively support this hypothesis. Additionally, quercetin decreases viability in vitro and causes mitochondrial depolarization. Full article

Background: Prostate cancer (PC) progression is strongly driven by dysregulated signaling pathways, with NF-κB playing a central role. Sesquiterpene lactones have been reported to modulate this pathway. This study evaluated and compared the cytotoxic effects of two structurally distinct sesquiterpene lactones: Tatridin A, a germacranolide, and desacetyl-β-cyclopyrethrosin, a eudesmanolide derivative. Their mechanisms of action were also examined, focusing on oxidative stress induction and NF-κB modulation. Methods: Chemical structures were confirmed by NMR and X-ray crystallography. Cytotoxicity was assessed in DU-145 and 22Rv1 PC cells using real-time cell analysis. Reactive oxygen species (ROS) and mitochondrial membrane potential (ΔΨm) were measured with fluorometric assays. NF-κB activity was determined in THP-1 reporter cells and by Western blot of IκBα phosphorylation. Results: Tatridin A markedly reduced viability, showing lower IC₅₀ values (81.4 ± 2.7 µM in DU-145 and 50.7 ± 1.9 µM in 22Rv1 cells) than desacetyl-β-cyclopyrethrosin (166.9 ± 3.2 µM and 290.3 ± 8.3 µM, respectively). It also inhibited proliferation at markedly lower concentrations, with clonogenic IC₅₀ values of 7.7 µM in DU-145 and 5.24 µM in 22Rv1cells. Both compounds increased ROS, but tatridin A induced earlier and stronger responses and ΔΨm loss. Furthermore, tatridin A more effectively inhibited NF-κB signaling than classical inhibitors. Conclusions: Tatridin A exerts cytotoxic effects through oxidative stress, mitochondrial impairment, and NF-κB inhibition, supporting the therapeutic potential of germacranolides for the treatment of advanced PC. Full article

Although multimodal therapeutic management has significantly improved outcome in prostate cancer (PCa) patients, treatment options for castrate-resistant disease remain challenging. Plant-derived mistletoe extracts have supported cancer patients and are, therefore, widely used as complementary medicine. However, mechanisms behind possible mistletoe benefits to PCa patients remain to be explored. The present study was designed to evaluate the effect of mistletoe extracts from four different host trees (Tiliae, Populi, Salicis, and Crataegi) on the growth and proliferation of PCa cell lines in vitro. PC3, DU145, and LNCaP cells were used to evaluate tumor cell growth (MTT assay) and proliferation (BrdU incorporation assay). Clonogenicity, apoptosis, cell cycle, and cell-cycle-regulating proteins (cyclin-dependent kinases (CDKs) and cyclins) were investigated, as was CD44 standard and splice variant expression and integrin α and β receptors. SiRNA knockdown studies were employed to investigate the functional relevance of integrins. All mistletoe extracts significantly inhibited cell growth in a dose-dependent manner and cell proliferation and clonogenicity were suppressed. Populi and Salicis induced cell-cycle arrest in the G2/M phase and increased apoptosis. Both extracts down-regulated CDK1 and cyclin A and altered CD44 expression. Integrins α5 in all cell lines and α6 in DU145 and LNCaP were particularly diminished. Knocking down α5 and α6 induced cell growth inhibition in DU145. Mistletoe extracts block the growth and proliferation of PCa cells in vitro and therefore qualify for use in future animal studies to evaluate mistletoe as an adjunct to standard PCa treatment. Full article

Background/Objectives: Ascorbic acid (AA)is a micronutrient with concentration-dependent anticancer properties, acting either as a reactive oxygen species (ROS) scavenger or inducer. Methods: Conventional redox-based assays such as MTS/MTT often overestimate cell proliferation due to AA’s interaction with tetrazolium salts, leading to increased formazan production. To overcome this limitation, we employed the Propidium Iodide Triton X-100 (PI/TX-100) assay to evaluate AA’s cytotoxic effects across a diverse panel of cancer and normal cell lines, including prostate (22Rv1, C4-2B, DU-145, LNCaP), breast (MCF-7, MDA-MB-231, MDA-MB-453), lung (A549), liver (HepG2, SK-HEP-1, Huh7), and kidney (Vero) cells. Results: AA significantly suppressed cancer cell viability compared to normal cells (RWPE1 and Vero), with the strongest effects observed in hormone receptor-positive lines. The relative sensitivity to AA followed distinct patterns within each cancer type. Mechanistically, AA-induced cell death involved ROS generation, lipid peroxidation, cell cycle arrest, ferroptosis, apoptosis, and downregulation of pyruvate dehydrogenase kinase 1 (PDHK1). Conclusions: These findings further support the potential of AA as a selective anticancer agent and highlight the importance of assay choice in evaluating its therapeutic efficacy. Full article