Antiproliferative Research Articles

An Assessment of Surface Contamination and Dermal Exposure to 5-Fluorouracil in Healthcare Settings by UPLC-MS/MS Using a New Atmospheric Pressure Ionization Source

5-Fluorouracil (5-FU) is a well-known cytostatic drug, which is often used in cancer treatments. Yet, it is also a very dangerous compound for people who are occupationally exposed to it for a long time, such as pharmacy employees, nurses and cleaning staff. We aimed to improve and implement a LC-MS/MS method for 5-FU quantification on surface contamination samples collected with swabs in a pharmacy department and outpatient nursing station of a university hospital. To improve the existing methods to quantify 5-FU, we compared a LC-MS/MS method using the frequently applied electrospray ionization source (ESI) with a UniSpray ionization source (USI). To determine the contamination of 5-FU in a pharmacy department preparing 5-FU infusion bags, which are then given to patients in the outpatient nursing stations, we collected multiple surface swabs of the laminar flow cabinets and frequently touched objects, before the preparation and administration of 5-FU and afterwards. Furthermore, we sampled the protective gloves and the bare hands of employees of the pharmacy department, involved in the preparation of the infusion bags. Using the USI source, we were able to reach the lowest limit of quantification (LOQ). With this technique, we were able to detect 5-FU contamination on the laminar flow cabinets and frequently used objects in the pharmacy department and the outpatient nursing station in the very low ng/cm2 range. This contamination was mostly higher after preparation or administration than before. While we also found 5-FU on the protective gloves, we almost found no 5-FU on the skin of the pharmacy technicians preparing the 5-FU infusion bags. In conclusion, our method was able to detect very low concentrations of 5-FU contamination, but the contamination we found is very unlikely to result in any issues for the personnel working in these areas.

A Snapshot on Clinical Trials on Zotarolimus DES: A Repurposing Drug against Myocardial Infarction

AbstractMyocardial infarction is the permanent death (necrosis) of heart muscle caused by a lack of oxygen for an extended period of time (ischemia). Since the very first percutaneous transluminal coronary angioplasty was done 40 years ago, the science of interventional cardiology has advanced dramatically. The above progression began with a balloon catheter attached to a fixed wire, advancing to bare-metal stents, first-generation drug-eluting stents (DES), second- and third-generation biodegradable polymer-based DES. Ultimately, bioabsorbable stents are still in development. Zotarolimus is a new pharmacologic therapy with a similar reprint address; for example, the antirestenosis agent sirolimus has recently been investigated as part of a stent platform combined with a biomimetic phosphorylcholine and BioLINX polymer for its biological activity, as well as its usefulness as an antiproliferative agent. Several clinical trials have been conducted to assess the safety and efficacy of the zotarolimus drug-eluting stent (Z-DES). Medtronic Medical Devices, a global leader in medical technology (United States), and Abbot Global Health Care and Research began clinical trials on the Z-DES in 2002 and will continue through 2021 (INDIA). Endeavor (E-Zes), Resolute (R-Zes), Resolute Integrity (I-Zes), and Resolute Onyx are the different forms of Z-DES that Medtronic has tested in clinical trials. In comparison to other DES, Z-DES was found to be safe in these clinical trials done across multiple nations and in a diverse demographic. This review helps understand the overall clinical trial of Z-DES.

The Benzoxazole Heterocycle: A Comprehensive Review of the Most Recent Medicinal Chemistry Developments of Antiproliferative, Brain-Penetrant, and Anti-inflammatory Agents.

The benzoxazole is one of the most widely exploited heterocycles in drug discovery. Natural occurring and synthetic benzoxazoles show a broad range of biological activities. Many benzoxazoles are available for treating several diseases, and, to date, a few are in clinical trials. Moreover, an ever-increasing number of benzoxazole derivatives are under investigation in the early drug discovery phase and as potential hit or lead compounds. This perspective is an attempt to thoroughly review the rational design, the structure-activity relationship, and the biological activity of the most notable benzoxazoles developed during the past 5years (period 2019-to date) in cancers, neurological disorders, and inflammation. We also briefly overviewed each target and its role in the disease. The huge amount of work examined suggests the great potential of the scaffold and the high interest of the scientific community in novel biologically active compounds containing the benzoxazole core.

Targeted breast cancer therapy using novel nanovesicle formulations of Olea europaea extract

Olive leaf is a byproduct of the olive tree that is rich in phenolic compounds with potential anticarcinogenic effects against various cancers, including breast cancer. Nevertheless, the ingestion or topical application of such plant extracts faces certain limitations. These limitations can be addressed by encapsulating the extracts in nanovesicles to enhance their release and bioavailability. This study aims to develop nanovesicles using Olea europaea leaf extract to exploit its potential anti-cancer properties. Soy lecithin was used to form liposomes for encapsulation of the olive leaf extract. In addition, ethanol and glycerol were added to form ethosomes and glycerosomes, respectively. The antiproliferative effect of both the free extract and the three formed nanovesicles was tested in MCF7 and MCF10A cell lines. To comprehend the mechanisms leading to reduced cell viability after exposure to olive leaf extract and its nanovesicles, levels of reactive oxygen species (ROS), mitochondrial membrane potential, and apoptotic stage were evaluated. The results suggest that both, the nanovesicles and the free extract, are antiproliferative agents against MCF7 tumour cells. However, when examining the impact of olive leaf extract and the formulated nanovesicles on MCF10A cells, no reduction in cell viability was observed. Our findings indicate that the anti-tumour effect of the extract and its nanovesicles may be due to increased oxidative stress, mediated by mitochondrial damage. The mechanism through which olive leaf extract exerts its antiproliferative effect on the breast cancer tumour line implies that apoptosis may be induced by the extract via the involvement of a mitochondria-dependent ROS-mediated pathway.

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.

The online version contains supplementary material available at 10.1007/s13205-024-04111-6.

Pericardial Disease in Patients with Cancer: Clinical Insights on Diagnosis and Treatment

Pericardial disease is increasingly recognized in cancer patients, including acute pericarditis, pericardial effusion, and constrictive pericarditis, often indicating a poor prognosis. Acute pericarditis arises from direct tumor involvement, cancer therapies, and radiotherapy. Immune checkpoint inhibitor (ICI)-related pericarditis, though rare, entails significant mortality risk. Treatment includes NSAIDs, colchicine, and corticosteroids or anti-IL1 drugs in refractory cases. Pericardial effusion is the most frequent manifestation, primarily caused by lung cancer, followed by breast cancer, lymphoma, leukemia, gastrointestinal tumors, and melanoma. Chemotherapy, immunotherapy, and radiotherapy may also cause fluid accumulation in the pericardial space. Symptomatic relief for pericardial effusion may require pericardiocentesis, prolonged catheter drainage, or a pericardial window. Instillation of intrapericardial cytostatic agents may reduce recurrence. Constrictive pericarditis, though less common, often develops from radiotherapy and requires multimodality imaging for diagnosis, with pericardiectomy as the definitive treatment. Primary pericardial tumors are rare, with metastases being more frequent. Patients with cancer and pericardial disease generally have poor survival, emphasizing the need for early detection. A multidisciplinary approach involving hematologists, oncologists, and cardiologists is crucial to tailoring pericardial disease treatment to a patient’s clinical status, thereby improving the quality of life and prognosis.

Molecular mechanisms of novel selective glucocorticoid receptor agonist action in breast cancer cells

Introduction. Glucocorticoids (GC) are widely used in breast cancer (BC) therapy to reduce the side effects of cytostatic drugs and may exhibit antiproliferative effects on luminal BC cells. The biological action of GC is mediated by glucocorticoid receptor (GR) by two mechanisms: transrepression, which determines the therapeutic effect of GC, and transactivation (associated with the development of side effects, resistance to cytotoxic drugs, cancer progression and metastasis). Selective GR agonists (SEGRA) which may selective activate transrepression are a promising alternative to GC to use in combination cancer therapy. One of the most studied SEGRA is Compound A (CpdA). The instability of CpdA limits its use in clinical practice. So recently we performed synthesis and evaluation of biological activities of the CpdA analogue, CpdA-03.Aim. To compare the effects of SEGRA CpdA-03 and CpdA and dexamethasone on proliferative activity of breast cancer cells, as well as receptor nuclear translocation and activation of GR-dependent genes in breast cancer cells.Materials and methods. Luminal (MCF-7) and triple negative (MDA-MB-231) BC cell lines were used. The effect of CpdA-03 on proliferation was evaluated by direct counting of viable cells with trypan blue staining. The effect of the compound on cell distribution by cell cycle phases was assessed by flow cytofluorimetry with propidium iodide staining. Changes in the expression of GR-dependent genes after incubation with CpdA-03 were evaluated by quantitative polymerase chain reaction. Additionally, the ability of the new SEGRA to induce transactivation-associated translocation of the receptor to the nucleus was evaluated by Western blotting.Results. CpdA-03 was shown to suppress proliferation of luminal and triple negative BC cells. This compound causes changes in the expression of a number of GC-inducible genes, but does not stimulate GR phosphorylation and translocation to the nucleus in BC cells.Conclusion. The observed suppression of cell proliferation, as well as the ability of CpdA-03 to reduce gene expression of proteins regulating intercellular adhesion and cell migration, intracellular signaling, stress response, and transcription in BC cells makes it relevant for further development of the drug for use in the combination therapy of cancers including breast cancer.

Clays-based geopolymers: a sustainable application as adsorbent of cytostatic drugs for water purification

The administration of cytostatic drugs in chemotherapy is steadily increasing, triggering thus a risk to the environment. Identifying powerful ways to effectively remove these hazardous pollutants from hospital and effluent wastewater before they discharge into the aquatic environment remains a critical and challenging task. Adsorption is among the most effective ways to treat contaminated water due to the wide availability and selectivity of the adsorbents besides the simplicity and the low start-up costs of the technique. In this work, a geopolymer, elaborated from an illito-kaolinitic clay (Douiret region of Tunisia) and industrial waste (silica fume and phosphogypsum), has been tested as promising decontamination of the cytostatic drugs paclitaxel (PCX) and irinotecan (IRI) from water samples. The foamed geopolymer was characterized using X-ray diffraction, Fourier transform infrared, scanning electron microscopy and thermogravimetric analysis before and after adsorption. Adsorption batch assays were performed using different concentrations of PCX and IRI, contact times and environmental conditions. The geopolymer had an excellent removal efficiency (almost 100% for PCX and 89% for IRI) using 20 mg of adsorbent and 2.5 mg/L of each drug concentration. The characterization results showed that cytostatic drugs were adsorbed to the geopolymer through physical interactions, pore filling, electrostatic attraction and hydrogen bonding. The specific surface area and pore volume of the geopolymer were 82.23 m2/g and 0.19 cm3/g, respectively. In addition to its cost-effective properties, the geopolymer demonstrated excellent efficiency in contaminated natural samples (including influent, effluent wastewater and surface water) denoting a great application for water purification.

Establishing capsaicin's anti-cancer intricacies in chronic myelogenous leukemia care: insights from human K562 cells

Objective: We aimed to establish capsaicin as a potent natural chemotherapeutic agent in chronic myeloid leukemia by unveiling anti-cancer mechanisms, concentrating at pro-apoptotic and anti-proliferative effects on K562 cells. Methodology: After REC approval, this research proceeded with culturing K562 cells and treatment with serial concentrations of capsaicin for calculation of subsequent 50% Inhibitory Concentration (IC50) values via MTT [3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyl tetrazolium bromide] assay, expression analysis of gene, comparative analysis of relative gene fold (intrinsic biomarkers caspase-3, caspase-9) as apoptosis mediator biomarkers followed by Quantitative Reverse Transcription Polymerase Chain Reaction (RT-qPCR). Anti-proliferative activity was confirmed via Nitric Oxide (NO) releasing Assay. Results: For K562 cells, the IC50 of capsaicin (12.1 µM) showed high gene expression of intrinsic pro-apoptotic biomarkers caspase-3 and caspase-9 with the relative gene fold of 12.1 and 13.9 respectively. Persistent peaks of NO levels confirmed the anti-proliferative potential of the compounds. Strongest growth inhibitory activity was seen at the peak time of 100-120 min. Conclusion: Capsaicin proved to be a strong pro-apoptotic and anti-proliferative phytochemical agent leading to therapeutic effects against K562 cells. Further studies would help in identifying key molecular intricacies by which capsaicin exhibits diversified anti-cancer potential. Abbreviations: CML - chronic myelogenous leukemia; NO - Nitric oxide; ROS - Reactive Oxygen Species; ROS - Reactive Oxygen Species Keywords: Capsaicin, Pro-apoptotic Effects, Anti-Cancer Mechanisms, K562 cells, Natural Chemotherapeutics Citation: Devi D, Nangdev P, Khaliq HMH, Anique M, Moqaddas A, Aziz O, Javed W. Establishing capsaicin's anti-cancer intricacies in chronic myelogenous leukemia care: insights from human K562 cells. Anaesth. pain intensive care 2024;28(5):830−835; DOI: 10.35975/apic.v28i5.2494 Received: June 26, 2024; Reviewed: August 10, 2024; Accepted: August 16, 2024

Ruthenium complexes with abiraterone acetate as antiproliferative agents

This study is dedicated to the development of multimodal anticancer agents. We have obtained ruthenium complexes conjugated with the steroid-type antitumor drug abiraterone acetate in order to take advantage of the dual antitumor properties of both ruthenium and abiraterone. The compounds exhibit good antiproliferative activity against cancer cells, with selectivity over primary fibroblasts. Real-time cell analysis revealed that compound dichlorido(η66-p-cymene)(abiraterone acetate)ruthenium(II) had pronounced antiproliferation activity compared to abiraterone acetate. Flow cytometric studies on the mechanism of cell death have revealed that the most active compound induces apoptosis more effectively than abiraterone acetate. Our findings demonstrate the potential of this novel dual-action compound as promising candidates for further development as anticancer agents.

Cytotoxicity, Proapoptotic Activity and Drug-like Potential of Quercetin and Kaempferol in Glioblastoma Cells: Preclinical Insights

Despite the increasing understanding of the pathogenesis of glioblastoma (GBM), treatment options for this tumor remain limited. Recently, the therapeutic potential of natural compounds has attracted great interest. Thus, dietary flavonoids quercetin (QCT) and kaempferol (KMF) were investigated as potential cytostatic agents in GBM. Moreover, the physicochemical properties of QCT and KMF, determining their bioavailability and therapeutic efficiency, were evaluated. We proved that both polyphenols significantly reduced the viability of GBM cells. We also demonstrated that both QCT and KMF evoked the cytotoxic effect in T98G cells via induction of apoptotic cell death as shown by increased activity of caspase 3/7 and caspase 9 together with an overexpression of the cleaved form of PARP. Apoptosis was additionally accompanied by the activation of stress responses in QCT- and KMF-treated cells. Both polyphenols caused oxidative stress and endoplasmic reticulum (ER) stress, as demonstrated by the increased generation of reactive oxygen species (ROS), deregulated expressions of superoxide dismutases (SOD2 and Sod1 on protein and transcriptomic levels, respectively), as well as an overexpression of ERO1α, GRP78, p-JNK, and an up-regulation of Chop, Atf4 and Atf6α genes. The antitumor effect of QCT and KMF was also confirmed in vivo, showing reduced growth of tumor xenografts in the chick chorioallantoic membrane (CAM) experiment. Moreover, electrophoretic light scattering (ELS) was used to measure the zeta potential of cell membranes upon exposition to QCT and KMF. Additionally, on the basis of existing physicochemical data, the drug-likeness score of QCT and KMF was evaluated. Analyses showed that both compounds accomplish Lipinski’s Rule of 5, and they both fit into the criteria of good central nervous system (CNS) drugs. Altogether, our data support the idea that QCT and KMF might be plausible candidates for evaluation as therapeutic agents in preclinical models of glioblastoma.

Synthesis, antiproliferative activity, and in silico studies of quinoline-based pyrimidinedione and thiazolidinedione derivatives

Cancer affects millions of people worldwide. PDK1 enzyme (co-crystallized with BIM-1) controls the proliferation of breast cancer cells. Aiming to resemble BIM-1’s binding, quinoline-based pyrimidinediones and thiazolidinediones were synthesized starting from 2-chloro-3-formylquinoline. Compared with doxorubicin (reference), in vitro antiproliferative activity against MCF7 and HCT116 cancer cell lines showed the most potency of thiobarbiturate 3 and thiazolidinedione 4. In silico molecular docking, DFT, and pharmacokinetics simulations supported the findings. The docking analysis toward PDK1 enzyme showed that most amino acids interacting with co-crystallized ligand (BIM-1) were successfully bonded to our docked substances, especially thiobarbiturate 3 with highest S-score closer to BIM-1. In DFT calculations, this compound exhibited the lowest energy gap and highest softness leading to more response to radical surface interactions. The compounds with significant antiproliferative activity exhibited high electrophilicity values. ADME analysis showed its desirable drug-likeness and oral bioavailability. This work may contribute to developing new potent antiproliferative agents.

Antibacterial profile and antiproliferative activities over human tumor cells of new silver(I) complexes containing two distinct trifluoromethyl uracil isomers

New silver(I) complexes of 5-(trifluoromethyl)uracil (5TFMU) and 6-(trifluoromethyl)uracil (6TFMU) isomers were synthesized, characterized, and evaluated as antibacterial and antiproliferative agents. Based on elemental and thermogravimetric analyses, the Ag-5TFMU and Ag-6TFMU species are formulated as AgC5H2F3N2O2 and Ag2C5HF3N2O2, respectively. Infrared and 13C solid-state nuclear magnetic resonance spectroscopies suggest coordination of the trifluoromethyluracil isomers to silver by both nitrogen and oxygen atoms. Confirmation of their structure and connectivity was achieved, in the absence of single crystals of suitable quality, by state-of-the-art structural powder diffraction methods. In Ag-5TFMU, the organic ligand is tridentate and two distinct metal coordination environments are found (linear AgN2 as well as C2v AgO4 geometries), whereas Ag-6TFMU contains a complex polymeric structure with tetradentate dianionic 6TFMU moieties and five distinct AgX2 (X = N, O) fragments, further stabilized by ancillary (longer) Ag…O contacts. These species presented modest activity over Gram-positive and Gram-negative bacterial strains, whereas Ag-6TFMU was active over a set of tumor cells, with the best activity over prostate (PC-3) and kidney cell lines and selectivity indices of 4.6 and 1.3, respectively. On the other hand, Ag-5TFMU was active over all considered tumor cells except MCF-7 (breast cancer). The best activity was found for PC-3 cells, but no selectivity was observed. The Ag-5TFMU and Ag-6TFMU species also reduced the proliferation of tongue squamous cell carcinoma cell lines SCC − 4 and SCC-15. Preliminary biophysical assays by circular dichroism suggest that the Ag-5TFMU complex interacts with DNA by intercalation, an effect not seen in Ag-6TFMU.

Synthesis and Biological Activity Assessment of 2-Styrylbenzothiazoles as Potential Multifunctional Therapeutic Agents.

A current trend in healthcare research is to discover multifunctional compounds, able to interact with multiple biological targets, in order to simplify multi-drug therapies and improve patient compliance. The aim of this work was to outline the growing demand for innovative multifunctional compounds, achieved through the synthesis, characterisation and SAR evaluation of a series of 2-styrylbenzothiazole derivatives. The six synthesised compounds were studied for their potential as photoprotective, antioxidant, antiproliferative, and anti-inflammatory agents. In order to profile antioxidant activity against various radical species, in vitro DPPH, FRAP and ORAC assays were performed. UV-filtering activity was studied, first in solution and then in formulation (standard O/W sunscreen containing 3% synthesised molecules) before and after irradiation. Compound BZTst6 proved to be photostable, suitable for broad-spectrum criteria, and is an excellent UVA filter. In terms of antioxidant activity, only compound BZTst4 can be considered a promising candidate, due to the potential of the catechol moiety. Both also showed exceptional inhibitory action against the pro-inflammatory enzyme 5-lipoxygenase (LO), with IC50 values in the sub-micromolar range in both activated neutrophils and under cell-free conditions. The results showed that the compounds under investigation are suitable for multifunctional application purposes, underlining the importance of their chemical scaffolding in terms of different biological behaviours.

Evaluation of Quinoline-Related Carboxylic Acid Derivatives as Prospective Differentially Antiproliferative, Antioxidative, and Anti-Inflammatory Agents.

The higher prevalence of cancer and the unmet need for antioxidant/anti-inflammatory chemotherapeutic compounds with little side effect are of utmost importance. In addition, the increased likelihood of failure in clinical trials along with increasing development costs may have diminished the range of choices among newer drugs for clinical use. This has dictated the necessity to seek out novel medications by repurposing as it needs less time, effort, and resources to explore new uses of a current or unsuccessful medication. In this study, we examined the biological activity of 10 potential quinoline derivatives. Given the half-maximal inhibitory concentration (IC50 value) in lipopolysaccharide (LPS) induced inflammation of RAW264.7 mouse macrophages, all commercial FQs and selected quinolines (quinoline-4-carboxlic and quinoline-3-carboxylic acids) exerted impressively appreciable anti-inflammation affinities versus classical NSAID indomethacin without related cytotoxicities in inflamed macrophages. Conversely, all 14 tested compounds lacked antioxidative DPPH radical scavenging capacities as compared to ascorbic acid. Gemifloxacin, considerably unlike markets FQs, indomethacin and quinoline derivatives, exerted exceptional and differential antiproliferation propensities in colorectum SW480, HCT116, and CACO2, pancreatic PANC1, prostate PC3, mammary T47D, lung A375, and melanoma A549 adherent monolayers using the sulforhodamine B colorimetric method versus antineoplastic cisplatin. All quinoline derivatives and gemifloxacin alike, but not levofloxacin, ciprofloxacin, or indomethacin, displayed substantially selective viability reduction affinities in prolonged tumor incubations of cervical HELA and mammary MCF7 cells. Specifically kynurenic acid (hydrate), quinoline-2-carboxylic acid, quinoline-4-carboxylic acid, quinoline-3-carboxylic acid, and 1,2-dihydro-2-oxo-4-quinoline carboxylic acids possessed the most remarkable growth inhibition capacities against mammary MCF7 cell line, while quinoline-2-carboxylic acid was the only quinoline derivative with significant cytotoxicity on cervical HELA cancer cells. It is highly speculated that chelation with divalent metals via co-planarity with close proximity of the COOH and the N atom could have the potential molecular mechanism for optimally promising repurposed pharmacologies. Conclusively, this study revealed the considerably profound repurposed duality of cytotoxicity and anti-inflammation pharmacologies of quinoline derivatives. Activity-guided structural modifications of the present nuclear scaffolds can be inherently linked to the betterment and enhancement of their repurposed pharmacologies.

PROFIL PENGOBATAN KEMOTERAPI PADA PASIEN KANKER PAYUDARA DI RUMAH SAKIT UMUM DAERAH KOTA BOGOR PADA TAHUN 2022

Breast cancer is cancer that starts in the breast tissue, which consists of milk-producing glands (lobules) and ducts that connect the lobules to the nipple. One of the efforts to reduce the morbidity rate of breast cancer is chemotherapy. Chemotherapy involves the use of cytostatic drugs aimed at stopping the growth and spread of cancer cells. The purpose of this study was to determine the pattern of drug use and evaluation of drug use in breast cancer patients. The study was conducted observational with retrospective data collection. The research was conducted from May to June 2023. The number of samples was 96 samples with the method of purposive sampling technique using the slovin formula, the data were analyzed qualitatively. The results of the chemotherapy treatment profile using single therapy 9 patients (9.38%), combination therapy 87 patients (90.63%) with a combination chemotherapy regimen of Epirubicin and Cyclophosphamide followed by Paclitaxel as many as 50 patients (57.47%). Evaluation of appropriate patient (98.96%), appropriate indication (100%), appropriate drug (100%), appropriate dose (19.79%), inappropriate dose (20.83%), under dose (34.48%), over dose (25%).

Exploring Anticancer Potential of Lactobacillus Strains: Insights into Cytotoxicity and Apoptotic Mechanisms on HCT 115 Cancer Cells.

This study aims to systematically assess the anticancer potential of distinct Lactobacillus strains on Human Colorectal Tumor (HCT) 115 cancer cells, with a primary focus on the apoptotic mechanisms involved. Lactobacillus strains were isolated from sheep milk and underwent a meticulous microbial isolation process. Previous research indicates that certain probiotic bacteria, including Lactobacillus species, may exhibit anticancer properties through mechanisms such as apoptosis induction. However, there is limited understanding of how different Lactobacillus strains exert these effects on cancer cells and the underlying molecular pathways involved. Cytotoxicity was evaluated through 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide (MTT) assays and exposure durations of Lactobacillus cell-free lyophilized filtrates. Additional apoptotic features were characterized using 4.6-diamidino-2-phenylindole (DAPI) analysis for nuclear fragmentation and Annexin V/PI analysis for apoptosis quantification. Genetic analysis explored the modulation of apoptotic proteins (Bax and Bcl2) in response to Lactobacillus treatment. Whole-genome sequencing (WGS) was performed to understand the genetic makeup of the Lactobacillus strains used in the study. The study demonstrated a significant reduction in HCT 115 cell viability, particularly with L. plantarum, as evidenced by Sulforhodamine B (SRB) and MTT assays. DAPI analysis revealed nuclear fragmentation, emphasizing an apoptotic cell death mechanism. Annexin V/PI analysis supported this, showing a higher percentage of early and late apoptosis in L. plantarum-treated cells. Genetic analysis uncovered up-regulation of pro-apoptotic protein Bax and down-regulation of anti-apoptotic protein Bcl2 in response to Lactobacillus treatment. WGS study revealed a strain reported to NCBI PRJNA439183. L. plantarum emerged as a potent antiproliferative agent against HCT 115 cancer cells, inducing apoptosis through intricate molecular mechanisms. This study underscores the scientific basis for L. plantarum's potential role in cancer therapeutics, highlighting its impact on antiproliferation, adhesion, and gene-protein regulation. Further research is warranted to elucidate the specific molecular pathways involved and to evaluate the therapeutic potential of L. plantarum in preclinical and clinical settings.

Novel quinolin-4-ylcarbonylhydrazine having N-(3-arylacryloyl) moiety: Design, synthesis and biological evaluation as potential cytotoxic agents against MDA-MB-231 via tubulin assembly inhibition

A new set of quinolin-4-ylcarbonylhydrazine derivatives 7a-i and 9a,b bearing 3-arylacryloyl moiety has been synthesized and investigated for their potential anticancer activity. The synthetic protocol involves the following step: the target quinoline derivatives 7a-i and 9a,b appended to the acryloyl moiety were synthesized from quinolin-4-carbohydrazide intermediate with respective ethyl 2-arylamido-3-arylacrylate compounds. The cytotoxic activity study was evaluated using the functional MTT method. The most of target compounds displayed potent cytotoxic activity against MDA-MB-231 cell line. Among them, compounds 7d and 7 h were found to be promising antiproliferative agents with IC50 values of 4.04 and 1.78 μM, respectively, relative to the effective anticancer drug, Dox (IC50 = 5.33 μM). Compound 7 h exhibited cytotoxic activity by causing cell cycle to block at G2/M phase in addition to pro-apoptotic effect, as shown by flow cytometric measurement. In addition, the inhibitory action against β-tubulin polymerization was investigated. Finally, compound 7 h diminished the level of mitochondrial potential by almost 2.8-fold compared to control, indicating that the cellular death proceeds through the provoke of the intrinsic mitochondrial pathway of apoptosis.

Genotoxic and Anti-Migratory Effects of Camptothecin Combined with Celastrol or Resveratrol in Metastatic and Stem-like Cells of Colon Cancer.

Background: Colorectal cancer is one of the leading and most lethal neoplasms. Standard chemotherapy is ineffective, especially in metastatic cancer, and does not target cancer stem cells. A promising approach to improve cancer treatment is the combination therapy of standard cytostatic drugs with natural compounds. Several plant-derived compounds have been proven to possess anticancer properties, including the induction of apoptosis and inhibition of cancer invasion. This study was focused on investigating in vitro the combination of camptothecin (CPT) with celastrol (CEL) or resveratrol (RSV) as a potential strategy to target metastatic (LOVO) and stem-like (LOVO/DX) colon cancer cells. Methods: The genotoxic effects that drive cancer cells into death-inducing pathways and the ability to inhibit the migratory properties of cancer cells were evaluated. The γH2AX+ assay and Fast-Halo Assay (FHA) were used to evaluate genotoxic effects, the annexin-V apoptosis assay to rate the level of apoptosis, and the scratch test to assess antimigratory capacity. Results: The results showed that both combinations CPT-CEL and CPT-RSV improve general genotoxicity of CPT alone on metastatic cells and CSCs. However, the assessment of specific double-stranded breaks (DSBs) indicated a better efficacy of the CPT-CEL combination on LOVO cells and CPT-RSV in LOVO/DX cells. Interestingly, the combinations CPT-CEL and CPT-RSV did not improve the pro-apoptotic effect of CPT alone, with both LOVO and LOVO/DX cells suggesting activation of different cell death mechanisms. Furthermore, it was found that the combinations of CPT-CEL and CPT-RSV improve the inhibitory effect of camptothecin on cell migration. Conclusions: These findings suggest the potential utility of combining camptothecin with celastrol or resveratrol in the treatment of colon cancer, including more aggressive forms of the disease. So far, no studies evaluating the effects of combinations of these compounds have been published in the available medical databases.

N-Check: nerve check to document chemotherapy-induced peripheral neuropathy (CIPN) in incurable cancer

Chemotherapy-induced polyneuropathy (CIPN) encompasses aspectrum of symptoms ranging from hypoesthesia with impaired gait, stance and fine motor skills to painful dysesthesia and allodynia and significantly impairs the quality of life of those affected. In the present pilot study, quantitative sensory testing (QST) was used to investigate CIPN as acommon adverse effect of cytostatic drugs in patients with incurable cancer. The QST is astandardized examination procedure that is not yet routinely used in cancer patients. It is used to examine thermal and mechanical perception and pain thresholds to record the subjectively experienced pain phenotype. In the N‑Check pilot project, the QST was used before and after tumor-specific, potentially CIPN-inducing treatment and the data collected was compared in apre-post analysis. In addition, the specific effects of CIPN on the health-related quality of life of patients treated primarily with apalliative intention were recorded using the Functional Assessment for Cancer Therapy-General (FACT-G) questionnaire. Overall, the patients showed significant heat hypoalgesia after chemotherapy as asign of damage to small nerve fibers. In addition, there were signs of deterioration of the quality of life. The feasibility of QST in patients with incurable cancer and palliative, neurotoxic chemotherapy was demonstrated in this pilot study.