Article List

WPRIM Management System> DCMS> Acta Pharmaceutica Sinica> 2016> 51> 2

Volume: 51 Issue: 2

1. Relationship between hepatitis B virus X protein and hepatic cellular cancer	Page:165—
2. Progress in the study of signal pathways for chronic inflammation-associated pancreatic carcinogenesis	Page:174—
3. Biological characteristics of drug induced tumor cells and its medicine prevention and treatment	Page:182—
4. Research progress on targeting effect and regulating mechanisms of the stemness of cancer stem cells	Page:189—
5. Tumor heterogeneity and drug resistance of targeted antitumor agents	Page:197—
6. Research progress in anticancer effects and molecular targets of honokiol in experimental therapy	Page:202—
7. Research progress on anti-cancer mechanisms of arsenic trioxide and artemisinin	Page:208—
8. Tyrosyl-DNA phosphodiesterases: potential targets for cancer treatment	Page:215—
9. Progress in the study of new cancer target Cdk5 and its inhibitors	Page:226—
10. Advances in prostate-specific membrane antigen-mediated antitumor drugs	Page:234—
11. Anticancer drugs targeting glutathione S-transferase π	Page:241—
12. Metabolic research of domestically developed small molecule tyrosine kinase inhibitors	Page:248—
13. Mitochondrial drug delivery for cancer therapy	Page:257—
14. The development of cell-penetrating peptides in drug delivery system	Page:264—
15. The development of novel tumor targeting delivery strategy	Page:272—
16. Polymer-modified gold nanoparticles for cancer therapy	Page:281—
17. Establishment and application of a drug screening model for anti-prostate cancer agents targeting androgen receptor	Page:287—
18. Construction and anti-tumor efficacy of a pentameric peptide vaccine that targets S100A8	Page:294—
19. Apoptosis induced by transferring cytosine deaminase suicide gene into kinds of cancer cells with novel polyamidoamine dendrimers	Page:302—
20. Effects and mechanisms of Xiao-Ai-Ping injection on angiogenesis	Page:309—
21. Pharmacodynamics of liposomes modified with different chain length of sialic acid derivatives	Page:316—