| Literature DB >> 25954531 |
Anthony Deally1, Frauke Hackenberg1, Grainne Lally1, Matthias Tacke1.
Abstract
Six new titanoceneEntities:
Year: 2012 PMID: 25954531 PMCID: PMC4412094 DOI: 10.1155/2012/905981
Source DB: PubMed Journal: Int J Med Chem ISSN: 2090-2077
Figure 2The structures of aldehydes 3a–3c and the precursors to fulvenes 4a–4c.
Figure 3The structures of fulvenes 4a–4f.
Figure 4The structures of titanocenes 5a–5f.
Scheme 1General reaction scheme for the synthesis of the fulvene precursors, and conversion to the corresponding indole-substituted titanocenes.
Cytotoxicities of titanocenes 5a–5f on CAKI-1 cells using DMSO-, medium-, and soluphor P-based formulations.
| Compound | IC50 [ | IC50 [ | IC50 [ |
|---|---|---|---|
|
| 10 (±2) | 38 (±3) | 20 (±2) |
|
| 21 (±3) | 75 (±5) | 27 (±3) |
|
| 29 (±4) | 13 (±2) | 23 (±1) |
|
| 140 (±6) | Not measured | Not measured |
|
| 450 (±10) | Not measured | Not measured |
|
| >500 | Not measured | Not measured |
Figure 5Cytotoxicity studies of titanocenes 5a–5c against CAKI-1 cells using DMSO as cosolvent.
Figure 7Cytotoxicity studies of titanocenes 5a–5c against CAKI-1 cells without a cosolvent.
Figure 8Cytotoxicity studies of titanocenes 5d–5f against CAKI-1 cells using DMSO as co-solvent.
Figure 1Structures of titanocene dichloride and previously synthesised indole-substituted titanocenes.
Figure 6Cytotoxicity studies of titanocenes 5a–5c against CAKI-1 cells using soluphor P as cosolvent.