Introduction: small molecule drugs for cancer

Related lectures (31)

Page 3 of 4

Explores using artificial viruses for targeted drug delivery in cancer treatment, aiming to minimize side effects.

Delves into the fundamentals of medicinal chemistry, emphasizing the interrogation of Structure-Activity Relationships (SAR) in drug design.

Covers medicinal chemistry basics, high-throughput screening, lead discovery milestones, and compound selectivity in drug optimization.

Explores the tumor microenvironment, stromal components, cell interactions, and the impact of inflammation on cancer promotion.

Covers the concepts and technologies of fragment-based drug discovery, exploring hit identification, lead optimization, and screening methods.

Explores the mechanism of platinum-based cancer drugs and the cross-coupling catalysis of metals in modifying aromatic compounds.

Explores cell signaling pathways, hormone actions, red hair genetics, hair color determination, and food intake regulation.

Explores the mechanisms of cancer invasion and metastasis, emphasizing the critical role of cell adhesion, signaling rewiring, and organotropism.

Explores cancer immunotherapy, immune system roles in cancer, recent advancements, and drug delivery concepts using nanoparticles and polymers.

Explores altered cancer metabolism, MYC regulation, Rb and p53 pathways, AKT re-activation, and protein-protein interactions.