Search results for "Cell cycle arrest"

showing 7 items of 7 documents

Carob leaf polyphenols trigger intrinsic apoptotic pathway and induce cell cycle arrest in colon cancer cells

2017

IF 3.973; International audience; Chemoprevention of Colorectal cancer (CRC) is the major concern for improving public health. We investigated the protective effects of carob, Ceratonia siliqua L, leaf polyphenols (CLP) against CRC. Phenolic content analysis showed that CLP is enriched with gallic acid and m-coumaric acid. We observed that CLP exerted a dose dependent cytotoxic effect through the induction of apoptosis on CRC cell lines, with an IC50 around 20 mu g/mL CLP induced intrinsic apoptotic pathway through the caspase-9 activation and PARP cleavage in HCT-116 and CT-26 cells. Moreover, CLP induced cell cycle arrest in the G1 phase through p53 activation. Gallic acid and m-coumaric …

0301 basic medicineCell cycle checkpointanimal diseases[ SDV.AEN ] Life Sciences [q-bio]/Food and NutritionMedicine (miscellaneous)ApoptosisPharmacologydigestive systemCell cycle arrest03 medical and health scienceschemistry.chemical_compoundCytotoxic T cellTX341-641Gallic acidIC50CaspaseNutrition and DieteticsbiologyNutrition. Foods and food supplyChemistryCarob (Ceratonia siliqua L.)food and beveragesPolyphenolsbacterial infections and mycosesColorectal cancer3. Good healthstomatognathic diseases030104 developmental biologyBiochemistryCell cultureApoptosisPolyphenolCaspasesbiology.protein[SDV.AEN]Life Sciences [q-bio]/Food and NutritionFood Science
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Virus-cell interactions as a pathological mechanism of parvovirus infection

2014

vauriotreplikaatiovuorovaikutusisäntäsolutviruksetCPVpatogeneesimitokondriotapoptosiscanine parvovirussolutuhocell signallinginfektiotmitochondriacell cycle arrestpathologyparvoviruksetapoptoosi
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TORC1 coordinates the conversion of Sic1 from a target to an inhibitor of cyclin-CDK-Cks1

2017

Eukaryotic cell cycle progression through G(1)-S is driven by hormonal and growth-related signals that are transmitted by the target of rapamycin complex 1 (TORC1) pathway. In yeast, inactivation of TORC1 restricts G(1)-S transition due to the rapid clearance of G(1) cyclins (Cln) and the stabilization of the B-type cyclin (Clb) cyclin-dependent kinase (CDK) inhibitor Sic1. The latter mechanism remains mysterious but requires the phosphorylation of Sic1-Thr(173) by Mpk1 and inactivation of the Sic1-pThr(173)-targeting phosphatase (PP2A(Cdc55)) through greatwall kinase-activated endosulfines. Here we show that the Sic1-pThr(173) residue serves as a specific docking site for the CDK phospho-a…

BioquímicaBiologiaCDK inhibitor (CDKI)Rim15Sic1cyclin-dependent protein kinase (CDK)G1 cell cycle arrestgreatwall kinase pathwayG(1) cell cycle arrestCks1Articletarget of rapamycin complex 1 (TORC1)Cell Discovery
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Pekinenin E Inhibits the Growth of Hepatocellular Carcinoma by Promoting Endoplasmic Reticulum Stress Mediated Cell Death.

2017

Hepatocellular carcinoma (HCC) is a malignant primary liver cancer with poor prognosis. In the present study, we report that pekinenin E (PE), a casbane diterpenoid derived from the roots of Euphorbia pekinensis, has a strong antitumor activity against human HCC cells both in vitro and in vivo. PE suppressed the growth of human HCC cells Hep G2 and SMMC-7721. In addition, PE-mediated endoplasmic reticulum (ER) stress caused increasing expressions of C/EBP homologous protein (CHOP), leading to apoptosis in HCC cells both in vitro and in vivo. Inhibition of ER stress with CHOP small interfering RNA or 4-phenyl-butyric acid partially reversed PE-induced cell death. Furthermore, PE induced S ce…

0301 basic medicineProgrammed cell deathSmall interfering RNAPathologymedicine.medical_specialtyCell cycle checkpointCHOP03 medical and health sciencesmedicinePharmacology (medical)Original ResearchPharmacologybusiness.industryEndoplasmic reticulumlcsh:RM1-950apoptosisdigestive system diseasesHep G2030104 developmental biologylcsh:Therapeutics. PharmacologyApoptosishepatocarcinomacell cycle arrestUnfolded protein responseCancer researchbusinessER stresspekinenin EFrontiers in pharmacology
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Synthesis of novel xanthone and acridone carboxamides with potent antiproliferative activities

2020

Abstract Several new amino-substituted acridone and xanthone derivatives have been designed and synthesized, using an efficient methodology from suitable acridone- or xanthone-carboxylic acid intermediates. The antiproliferative activity of the target compounds has been evaluated against four cancer cell lines, namely breast adenocarcinoma MCF-7, acute lymphocytic leukemia CCRF-CEM, and its doxorubicin-resistant variant CEM/ADR5000 and prostate cancer PC-3 cell lines. Selected derivatives have also been tested against the urinary bladder T24 and metastatic melanoma WM266-4 cancer cell lines. Two nitro substituted acridones, bearing a basic side chain as well, were endowed with a remarkable …

General Chemical Engineering02 engineering and technologyAntiproliferative activityXanthone010402 general chemistry01 natural sciencesCell cycle arrestlcsh:Chemistrychemistry.chemical_compoundProstate cancerAcute lymphocytic leukemiaXanthonemedicineAutophagyAcridoneAutophagyGeneral Chemistry021001 nanoscience & nanotechnologymedicine.disease0104 chemical sciencesAcridonechemistrylcsh:QD1-999Cell cultureApoptosisCancer researchNitro0210 nano-technologyArabian Journal of Chemistry
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Polyphenols from Pennisetum glaucum grains induce MAP kinase phosphorylation and cell cycle arrest in human osteosarcoma cells

2019

Abstract Osteosarcoma is the most common bone tumor with a high prevalence among children and adolescents. Polyphenols are widely investigated for their chemopreventive and chemotherapeutic proprieties. In the present study, we explored the pro-apoptotic effects of pearl millet, Pennisetum glaucum, phenolic compounds (PGPC) on osteosarcoma U-2OS cells. Our results show that PGPC induced U-2OS cells death, in a dose dependent manner, with an IC50 of 80 μg/mL. Annexin-V and 7-AAD staining show that PGPC induced cell death mainly through caspase-dependent apoptosis as shown by a decrease in cell death when co-treated with pan-caspase inhibitor, N-benzyloxycarbonyl-Val-Ala-Asp-fluoromethylketon…

0301 basic medicineCell signalingProgrammed cell deathCell cycle checkpointp38 mitogen-activated protein kinases[SDV]Life Sciences [q-bio]Medicine (miscellaneous)Pearl milletCell cycle arrest03 medical and health sciences0404 agricultural biotechnologyTX341-641Intracellular calciumProtein kinase BPI3K/AKT/mTOR pathwayCaspase030109 nutrition & dieteticsNutrition and DieteticsbiologyNutrition. Foods and food supplyChemistryCyclin-dependent kinase 2Polyphenols04 agricultural and veterinary sciencesU-2OS cells040401 food scienceMolecular biology3. Good healthApoptosisbiology.proteinFood Science
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Insight on [1,3]thiazolo[4,5-e]isoindoles as tubulin polymerization inhibitors

2021

A series of [1,3]thiazolo[4,5-e]isoindoles has been synthesized through a versatile and high yielding multistep sequence. Evaluation of the antiproliferative activity of the new compounds on the full NCI human tumor cell line panel highlighted several compounds that are able to inhibit tumor cell proliferation at micromolar-submicromolar concentrations. The most active derivative 11g was found to cause cell cycle arrest at the G2/M phase and induce apoptosis in HeLa cells, following the mitochondrial pathway, making it a lead compound for the discovery of new antimitotic drugs.

Models MolecularCell cycle checkpointIsoindoles1ApoptosisIsoindoles01 natural sciencesPolymerizationTubulin Polymerization InhibitorsCell cycle arrestHeLaStructure-Activity Relationship03 medical and health scienceschemistry.chemical_compoundTubulinDrug DiscoveryHumansTubulin polymerization inhibitors030304 developmental biologyPharmacology0303 health sciencesDose-Response Relationship DrugMolecular Structurebiology010405 organic chemistry3]thiazolo[4Organic ChemistryGeneral Medicinebiology.organism_classificationTubulin Modulators0104 chemical sciencesBiochemistrychemistryCell cultureApoptosis5-e]isoindoles13]thiazolo[45-e]isoindoles13]thiazolo[45-e]isoindoles; Apoptosis; Cell cycle arrest; Tubulin polymerization inhibitorsLead compoundDerivative (chemistry)HeLa CellsEuropean Journal of Medicinal Chemistry
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