about
Inhibition of Lipid Oxidation Increases Glucose Metabolism and Enhances 2-Deoxy-2-[(18)F]Fluoro-D-Glucose Uptake in Prostate Cancer Mouse Xenografts.Lipid catabolism inhibition sensitizes prostate cancer cells to antiandrogen blockade.A novel approach to target hypoxic cancer cells via combining β-oxidation inhibitor etomoxir with radiationCPT1A Supports Castration-Resistant Prostate Cancer in Androgen-Deprived ConditionsLipid Metabolism and Endocrine Resistance in Prostate Cancer, and New Opportunities for TherapyCPT1A-mediated Fat Oxidation, Mechanisms, and Therapeutic PotentialOvercoming Resistance to Therapies Targeting the MAPK Pathway in BRAF-Mutated Tumours
P50
Q38922956-B92FFADA-E5D1-46E0-9367-B7EDC8726AB4Q41347965-40793DF5-0845-44A7-BEC0-290D2C63F79BQ58729843-6E6AA618-1DD1-4450-B7B8-1854307DE481Q90227896-6A518EE1-66F1-4662-915B-EA96778D5F06Q92377211-477C5014-26F7-48BD-A89D-D3BEB54C7C5EQ92407617-4A551B4B-1835-4748-B503-590F0ABB4D4AQ94922575-14FEBBC5-CFAB-4F9F-A0C9-FFBC839A8925
P50
description
researcher
@en
wetenschapper
@nl
name
Isabel R Schlaepfer
@en
Isabel R Schlaepfer
@nl
type
label
Isabel R Schlaepfer
@en
Isabel R Schlaepfer
@nl
prefLabel
Isabel R Schlaepfer
@en
Isabel R Schlaepfer
@nl
P31
P496
0000-0002-8659-9629