Preclinical toxicokinetic evaluation of phortress [2-(4-amino-3-methylphenyl)-5-fluorobenzothiazole lysylamide dihydrochloride] in two rodent species.

BACKGROUND AND AIMS: The 2-(4-amino-3-methylphenyl)-5-fluorobenzothiazole prodrug Phortress exerts potent and selective antitumour activity in vitro and in vivo. Preclinical toxicokinetic studies in 2 rodent species were undertaken to determine Phortress' maximum tolerated dose and advise a safe starting dose for clinical evaluation. METHODS: Plasma pharmacokinetic parameters were determined by high-performance liquid chromatography and fluorescence detection following Phortress administration to mice (10 mg/kg, intravenously on days 1 and 8). Phortress (20 mg/kg, on days 1 and 8) was administered to CYP1A1/betaGAL reporter mice; tissues were examined macro- and microscopically. Toxicological and pharmacodynamic endpoints were examined in organs of rodents receiving Phortress (10 mg/kg or 20 mg/kg, on days 1 and 8). CYP1A1 expression and Phortress-derived DNA adducts were determined in lungs and livers (on days 11 and 36). RESULTS: No accumulation of Phortress was detected in murine plasma. beta-Galactosidase activity inferred Phortress-derived induction of cyp1a1 transcription in the livers of transgenic mice; no total body weight loss was encountered in these animals. However, a fall in lung:body weight and kidney:body weight ratios, raised serum alkaline phosphatase levels and hepatic histopathological disturbances in animals receiving 20 mg/kg Phortress indicate organ sites of potential toxicity. CYP1A1 protein was induced transiently in the lungs of both species and in the livers of rats. Elimination of hepatic DNA adducts and rat pulmonary adducts was evident; however, murine pulmonary adducts persisted. CONCLUSION: Rodent preclinical toxicology established that mice represent the more sensitive rodent species, resolving a maximum tolerated dose of 10 mg/kg Phortress.

Evidence for a novel functional role of cannabinoid CB(2) receptors in the thalamus of neuropathic rats.

Cannabinoid CB(1) receptors have analgesic effects in models of neuropathic pain, but can also produce psychoactive side-effects. A supraspinal location of CB(2) receptors has recently been described. CB(2) agonists are also antinociceptive, although the functional role of supraspinal CB(2) receptors in the control of nociception is unknown. Herein, we provide evidence that CB(2) receptors in the thalamus play a functional role in the modulation of responses of neurons in the ventral posterior nucleus (VPL) of the thalamus in neuropathic, but not sham-operated, rats. Spontaneous and mechanically evoked activity of VPL neurons was recorded with a multichannel electrode array in anaesthetized spinal nerve-ligated (SNL) rats and compared to sham-operated rats. Intra-VPL administration of the CB(2) agonist JWH-133 (30 ng in 500 nL) significantly reduced spontaneous (P < 0.05), non-noxious (P < 0.001) and noxious (P < 0.01) mechanically evoked responses of VPL neurons in SNL rats, but not in sham-operated rats. Inhibitory effects of JWH-133 on spontaneous (P < 0.01) and noxious-evoked (P < 0.001) responses of neurons were blocked by the CB(2) antagonist SR144528. Local administration of SR144528 alone did not alter spontaneous or evoked responses of VPL neurons, but increased burst activity of VPL neurons in SNL rats. There were, however, no differences in levels of the endocannabinoids anandamide and 2AG in the thalamus of SNL and sham-operated rats. These data suggest that supraspinal CB(2) receptors in the thalamus may contribute to the modulation of neuropathic pain responses.