Digitalis-like compounds facilitate non-medullary thyroid cancer redifferentiation through intracellular Ca²⁺, FOS, and autophagy-dependent pathways

Keyphrases

• Autophagy 100%
• Intracellular Ca2+ 100%
• Redifferentiation 100%
• Digitalis-like Compounds 100%
• Nonmedullary Thyroid Cancer 100%
• Thyroid Cancer Cell Lines 50%
• Human Sodium Iodide Symporter (hNIS) 50%
• Radioactive Iodide 50%
• Tumor 25%
• In Cancer 25%
• Treatment Modalities 25%
• Therapeutic Potential 25%
• Cell Proliferation 25%
• Dedifferentiation 25%
• Beneficial Effects 25%
• Recurrent Disease 25%
• AKT1 25%
• Strategies to Overcome 25%
• Persistent Disease 25%
• Thyroid Carcinoma 25%
• Heart Disease 25%
• Promising Strategies 25%
• Radioactive Iodine Therapy 25%
• Cardiac Glycosides 25%
• Autophagy Activator 25%
• Tumor Dedifferentiation 25%
• Iodide Uptake 25%
• Cellcycle 25%

Medicine and Dentistry

• Calcium Ion 100%
• Thyroid Cancer 100%
• Autophagy 100%
• Radioactive Iodine 60%
• Neoplasm 40%
• Cell Dedifferentiation 40%
• Thyroid Cancer Cell Line 40%
• Malignant Neoplasm 20%
• Recurrent Disease 20%
• Upregulation 20%
• Cell Proliferation 20%
• P21 20%
• Heart Disease 20%
• Thyroid Carcinoma 20%
• Cardiac Glycoside 20%

Pharmacology, Toxicology and Pharmaceutical Science

• Calcium Ion 100%
• Thyroid Cancer 100%
• Radioactive Iodine 75%
• Neoplasm 50%
• Malignant Neoplasm 25%
• Recurrent Disease 25%
• Thyroid Carcinoma 25%
• Heart Disease 25%
• Cardiac Glycoside 25%