Syringic acid from Tamarix aucheriana possesses antimitogenic and chemo-sensitizing activities in human colorectal cancer cells.

CONTEXT: For its variety of biological activities, Tamarix aucheriana (Decne.) Baum. (Tamaricaceae) has an extensive history as a traditional Arab medicine. OBJECTIVES: Antimitogenic and chemo-sensitizing activities of syringic acid (SA) were studied against human colorectal cancer. MATERIALS AND METHODS: Chromatographic and spectral data were used for the isolation and identification of SA. MTT, flow cytometry, in vitro invasion and angiogenesis assays, fluoremetry, ELISA and Real Time qPCR were used to test antimitogenic and chemo-sensitizing activities of SA, cell cycle, apoptosis, proteasome and NFκB-DNA-binding activities, cancer cell invasion and angiogenesis, and expression of cell cycle/apoptosis-related genes. RESULTS: SA showed a time- and dose-dependent (IC50 = 0.95-1.2 mg mL⁻¹) antimitogenic effect against cancer cells with little cytotoxicity on normal fibroblasts (≤20%). SA-altered cell cycle (S/G2-M or G1/G2-M phases) in a time-dependent manner, induced apoptosis, inhibited DNA-binding activity of NFκB (p ≤ 0.0001), chymotrypsin-like/PGPH (peptidyl-glutamyl peptide-hydrolyzing) (p ≤ 0.0001) and the trypsin-like (p ≤ 0.002) activities of 26S proteasome and angiogenesis. SA also differentially sensitized cancer cells to standard chemotherapies with a marked increase in their sensitivity to camptothecin (500-fold), 5FU (20,000-fold), doxorubicin (210-fold), taxol (3134-fold), vinblastine (1000-fold), vincristine (130-fold) and amsacrine (107-fold) compared to standard drugs alone. DISCUSSION: SA exerted its chemotherapeutic and chemo-sensitizing effects through an array of mechanisms including cell-cycle arrest, apoptosis induction, inhibition of cell proliferation, cell migration, angiogenesis, NFκB DNA-binding and proteasome activities. CONCLUSION: These results demonstrate the potential of SA as an antimitogenic and chemo-sensitizing agent for human colorectal cancer.

Cevipabulin (TTI-237): preclinical and clinical results for a novel antimicrotubule agent.

Antimitotic agents are among the most effective drugs for the treatment of solid tumors and metastatic cancer. These drugs promote cell death by interfering with the crucial structural and regulatory function of microtubules in cells. Most of the agents of clinical relevance are natural products or semisynthetic derivatives thereof, and they fall into two major classes: microtubule stabilizers such as the taxanes, which enhance tubulin polymerization, and microtubule destabilizers such as the Vinca alkaloids, which lead to the depolymerization of existing microtubules. While these drugs are effective in inhibiting the progression of certain types of tumors, their utility is limited in part by incomplete tumor responses and/or significant side effects. In addition, inherent resistance is encountered in many tumor types, or acquired resistance may occur as a result of multiple cycles of therapy. Cevipabulin (TTI-237) is a novel, small synthetic molecule with an unusual biological mode of action. It appears to bind at the vinca site, but exhibits some properties similar to those of taxane-site ligands, such as enhancing tubulin polymerization. The compound works against a variety of tumors, including those resistant to paclitaxel and vincristine. Furthermore, cevipabulin is stable and water-soluble, and can be administered i.v. or p.o. in saline. It can be synthesized in bulk quantities efficiently. Based on these properties, cevipabulin was selected for clinical development.