Silencing of monocarboxylate transporters via small interfering ribonucleic acid inhibits glycolysis and induces cell death in malignant glioma: an in vitro study.
about
Metabolic targeting of lactate efflux by malignant glioma inhibits invasiveness and induces necrosis: an in vivo studyHexokinase-2 bound to mitochondria: cancer's stygian link to the "Warburg Effect" and a pivotal target for effective therapyLactate Contribution to the Tumor Microenvironment: Mechanisms, Effects on Immune Cells and Therapeutic RelevanceThe altered glucose metabolism in tumor and a tumor acidic microenvironment associated with extracellular matrix metalloproteinase inducer and monocarboxylate transportersReprogramming of glucose metabolism in hepatocellular carcinoma: Progress and prospectsReexamining cancer metabolism: Lactate production for carcinogenesis could be the purpose and explanation of the Warburg effectMetabolic remodeling of malignant gliomas for enhanced sensitization during radiotherapy: an in vitro studyLactate and malignant tumors: a therapeutic target at the end stage of glycolysisThe spatial organization of proton and lactate transport in a rat brain tumorNew aspects of an old drug--diclofenac targets MYC and glucose metabolism in tumor cellsTargeting lactate-fueled respiration selectively kills hypoxic tumor cells in miceIntratumoral lactate metabolism in Barrett's esophagus and adenocarcinoma.Tumor metabolism of lactate: the influence and therapeutic potential for MCT and CD147 regulation.Hypoxia enhances the replication of oncolytic herpes simplex virusCharacterization of monocarboxylate transporters (MCTs) expression in soft tissue sarcomas: distinct prognostic impact of MCT1 sub-cellular localization.Expression of monocarboxylate transporters 1, 2, and 4 in human tumours and their association with CD147 and CD44Role of monocarboxylate transporters in drug delivery to the brain.Monocarboxylate transporter 4 (MCT4) and CD147 overexpression is associated with poor prognosis in prostate cancer.Characterization of monocarboxylate transporter activity in hepatocellular carcinomaLocalization of MCT2 at peroxisomes is associated with malignant transformation in prostate cancerSignificance of glycolytic metabolism-related protein expression in colorectal cancer, lymph node and hepatic metastasis.Lactate is a mediator of metabolic cooperation between stromal carcinoma associated fibroblasts and glycolytic tumor cells in the tumor microenvironment.pH, Lactate, and Hypoxia: Reciprocity in Regulating High-Affinity Monocarboxylate Transporter Expression in GlioblastomaMitochondrial Metabolism as a Treatment Target in Anaplastic Thyroid Cancer.CD147 immunoglobulin superfamily receptor function and role in pathologyAnticancer agents that counteract tumor glycolysis.RNAi based approaches to the treatment of malignant glioma.MCT1-mediated transport of a toxic molecule is an effective strategy for targeting glycolytic tumors.Monocarboxylate transporters (MCTs) in gliomas: expression and exploitation as therapeutic targetsEffective impairment of myeloma cells and their progenitors by blockade of monocarboxylate transportation.Overview of the proton-coupled MCT (SLC16A) family of transporters: characterization, function and role in the transport of the drug of abuse gamma-hydroxybutyric acid.Hyaluronan, CD44 and Emmprin: partners in cancer cell chemoresistance.Monocarboxylate transporters in the brain and in cancer.MCT4 as a potential therapeutic target for metastatic gastric cancer with peritoneal carcinomatosis.Activity of the monocarboxylate transporter 1 inhibitor AZD3965 in small cell lung cancer.The pivotal roles of mitochondria in cancer: Warburg and beyond and encouraging prospects for effective therapies.Exploiting metabolic differences in glioma therapy.Targeting lactate metabolism for cancer therapeutics.Lactate transporters in the context of prostate cancer metabolism: what do we know?Effect of polyphenols on glucose and lactate transport by breast cancer cells.
P2860
Q24594748-37D7B25C-FAEE-4B95-83F5-8440C9F1AA69Q24646296-6197233B-D3A1-4B41-AA0C-D11B52109BD5Q26766711-B40FFD33-AB47-4DE4-BE97-8DBC55B70945Q28072360-81376E94-2F81-4E2C-853D-4F01E4628FE3Q28076454-F22D8156-D486-4CE9-8D97-7B6BD8304C47Q28077883-0B8CCF02-6B5C-4BE7-8373-75E2B8E9F96CQ28286868-4C30F585-0801-4AB5-AA69-154FAD91DFD7Q28292657-D6D4CACD-6DF3-4BF5-B67C-033677749C01Q28477272-BCDF4BE2-05D8-4BB9-A402-CF65107774A5Q28534587-B30D6F58-4A16-4C70-A9B3-499DF4BFEA1CQ30080001-3391A853-E777-47C9-865D-35B77DE6287BQ33618507-83135843-F6C0-4090-8DCA-D4992B9608FEQ33641532-FD82FC92-495F-439F-9124-698384D04CBAQ33660631-BB86338D-56DB-4B9D-931C-FE048C238280Q33676834-A76FD21E-7687-4E50-9D68-5B5C903675DBQ33824543-91DE7653-3DD0-423D-B7F1-62359E7616C3Q33854710-B5F8B792-0EFF-4754-A47E-DBC8F956EF8AQ33970452-333884C2-9BE1-40C1-89B4-9CC6C1553000Q34137358-E3E3DF29-E4AF-4A17-A98E-8409A3F72318Q35390899-23A68339-5B59-4D9E-96E4-C9F54CBEE005Q36086546-A38465F9-FE18-48B5-845F-0BF7D49A4DCFQ36108827-80F51FB4-9B6A-4E30-98E1-F990D9076238Q36250650-90A7CA7D-4D19-4B91-B17E-C76E8C4F0465Q36328030-BA78018B-D5E3-4344-BEBF-C4D19F4A96BAQ36398938-4EC9EFEA-58D7-4AF6-BB17-C304E01E0BA6Q36452381-AB13E1A9-1FD6-4094-968F-EE206206B2DCQ36478665-F8B4D301-425F-48D6-84DC-F19E988DD800Q36489907-80DD2124-881C-4188-86B7-6C0AA74ED73EQ36544108-6842A093-B56F-443A-9241-344229A5779BQ36545216-C3DA8FCD-0FF6-4B2B-AC3C-25083A6BB93AQ36952136-9FD34A50-F4CD-4F60-AF34-166058764559Q36976346-1DA28E8B-83E0-4C29-B509-A9B23CF4213AQ37187094-011F5357-1FA6-4DF6-9514-6B3885925AF2Q37536613-00B34416-1461-4AAF-AA41-DE242897A445Q37593559-B2C8768B-7365-4B45-B701-6F40C3E54E00Q37728362-B7CEC71E-CA91-4C29-ADE7-231770D9A8BBQ37984474-E0917F19-980F-4094-8789-C6219A3EA212Q38133722-5B824D35-A01D-461F-AEE5-5594E5019E12Q38260136-9B08EF74-DDCC-4631-B698-11BA2F7E87B3Q38812959-F1B255FB-D0E5-49DA-B11D-FC05FCAB7740
P2860
Silencing of monocarboxylate transporters via small interfering ribonucleic acid inhibits glycolysis and induces cell death in malignant glioma: an in vitro study.
description
2004 nî lūn-bûn
@nan
2004 թուականի Դեկտեմբերին հրատարակուած գիտական յօդուած
@hyw
2004 թվականի դեկտեմբերին հրատարակված գիտական հոդված
@hy
2004年の論文
@ja
2004年論文
@yue
2004年論文
@zh-hant
2004年論文
@zh-hk
2004年論文
@zh-mo
2004年論文
@zh-tw
2004年论文
@wuu
name
Silencing of monocarboxylate t ...... ant glioma: an in vitro study.
@ast
Silencing of monocarboxylate t ...... ant glioma: an in vitro study.
@en
Silencing of monocarboxylate t ...... ant glioma: an in vitro study.
@nl
type
label
Silencing of monocarboxylate t ...... ant glioma: an in vitro study.
@ast
Silencing of monocarboxylate t ...... ant glioma: an in vitro study.
@en
Silencing of monocarboxylate t ...... ant glioma: an in vitro study.
@nl
prefLabel
Silencing of monocarboxylate t ...... ant glioma: an in vitro study.
@ast
Silencing of monocarboxylate t ...... ant glioma: an in vitro study.
@en
Silencing of monocarboxylate t ...... ant glioma: an in vitro study.
@nl
P2093
P1433
P1476
Silencing of monocarboxylate t ...... ant glioma: an in vitro study.
@en
P2093
Andrew E Sloan
Prahlad Parajuli
Saroj P Mathupala
P304
1410-9; discussion 1419
P356
10.1227/01.NEU.0000143034.62913.59
P407
P577
2004-12-01T00:00:00Z