Silencing of skeletal metastasis-associated genes impairs migration of breast cancer cells and reduces osteolytic bone lesions

Keyphrases

• Breast Cancer Cells 100%
• Small Interfering RNA (siRNA) 100%
• Metastasis-related Genes 100%
• Skeletal Metastases 100%
• Osteolytic Bone Lesions 100%
• Bone Sialoprotein 40%
• Osteopontin 30%
• Systemic Administration 20%
• Biodegradable Nanoparticles 20%
• Transcription Factor 10%
• Tumor Growth 10%
• Cell Migration 10%
• Tumor Incidence 10%
• SiRNA Knockdown 10%
• Cell Proliferation 10%
• Interaction Partner 10%
• Nanoparticles 10%
• Gene Silencing 10%
• Cell Culture 10%
• Expression Level 10%
• Functional Assay 10%
• MDA-MB-231 10%
• Integrin 10%
• Matrix metalloproteinase-2 (MMP-2) 10%
• Pharmacological Intervention 10%
• Osmotic Minipump 10%
• Runt-related Transcription Factor 2 (Runx2) 10%
• Identifying Targets 10%
• Metastatic Breast Cancer 10%
• RNA Therapy 10%
• Antineoplastic Drugs 10%
• Reduction Effect 10%
• Non-viral 10%
• Osteolysis 10%
• Locoregional 10%
• Extraosseous 10%
• Nude Rat 10%
• Skeletal Lesions 10%
• Osteolytic Lesions 10%

Pharmacology, Toxicology and Pharmaceutical Science

• Breast Cancer 100%
• Small Interfering RNA 100%
• Bone Metastasis 100%
• Bone Lesion 100%
• Bone Sialoprotein 33%
• Nanoparticle 25%
• Osteopontin 25%
• Systemic Administration 16%
• Tumor Growth 8%
• Transcription Factors 8%
• Cancer Incidence 8%
• Cell Culture 8%
• Gelatinase A 8%
• Integrin 8%
• Bone Atrophy 8%
• Nude Rat 8%

Biochemistry, Genetics and Molecular Biology

• Cancer Cell 100%
• Small Interfering RNA 100%
• Bone Sialoprotein 44%
• Osteopontin 33%
• Transcription Factors 11%
• Cell Migration 11%
• Cancer Incidence 11%
• Tumor Progression 11%
• Cell Proliferation 11%
• Cell Culture 11%
• Osteolysis 11%
• Target Cell 11%
• Gelatinase A 11%
• MMP2 11%
• Gene Inactivation 11%
• Integrin 11%
• Nude Rat 11%