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26-Week Dermal Oncogenicity Study Evaluating Pure trans-Capsaicin in Tg.AC Hemizygous Mice (FBV/N)

NeurogesX, Inc., San Carlos, California, USA

Gregory Erexson
Denzil Frost

Covance Laboratories, Vienna, Virginia, USA

Sunita Babbar

NeurogesX, Inc., San Carlos, California, USA

Jo-Anne Burlew

Covance Laboratories, Vienna, Virginia, USA

Keith Bley

NeurogesX, Inc., San Carlos, California, USA

Correspondence: Address correspondence to Sanjay Chanda, NeurogesX, Inc., 981F Industrial Road, San Carlos, CA 94070, USA. E-mail:schanda{at}neurogesx.com

The objective of this study was to assess the oncogenic potential of trans-capsaicin when administered weekly via topical application to the dorsal skin of Tg.AC mice for 26 weeks. Male and female Tg.AC mice (25 mice/sex/group) received dose formulations containing trans-capsaicin dissolved in diethylene glycol monoethyl ether (DGME). The positive control was tetradecanoylphorbol-13-acetate (TPA) dissolved in DGME. Appropriate controls, including a topical lidocaine local anesthetic pretreatment (4% w/w), were maintained. All groups were dosed once weekly, except for the TPA group, which was dosed twice per week. Analysis of the macroscopic observations after the final sacrifice revealed no noteworthy treatment-related findings, with the exception of dermal masses that were randomly dispersed throughout all treatment groups for both males and females. The frequency of dermal masses in the capsaicin-treated groups (at a dose level of up to 102 mg/kg and an application rate of 25.6 mg/cm²/kg/week) was not elevated in comparison to either concurrent vehicle or untreated controls. In contrast, a notable increase in the frequency of dermal masses was observed in the TPA-treated mice compared to both the concurrent vehicle and untreated controls. Dermal application of capsaicin resulted in no increased incidence of preneoplastic or neoplastic skin lesions. In contrast, over half the male and female mice exposed to TPA had multiple skin papillomas; the majority of the TPA-treated animals either died early or was humanely euthanized due to tumor load. Spontaneously occurring neoplasms were not appreciably increased in capsaicin-treated animals. Capsaicin-related non-neoplastic microscopic findings were seen sporadically in both genders and included acanthosis, hyperkeratosis/parakeratosis (primarily females), epidermal crusts, subepidermal fibrosis, epidermal ulcerations/erosions, and chronic-active inflammation. There was no evidence of a dose response in either the incidence or severity of these findings. The lidocaine- (at a dose level of 162 mg/kg and at an application rate of 40.5 mg/cm²/kg/week) and DGME-treated (at a dose level of 4.0 g/kg and at an application rate of 1 g/cm²/kg/week) control groups also did not display any evidence of increase in dermal masses. Based on these results, trans-capsaicin, lidocaine, and DGME should be considered nononcogenic in the Tg.AC mouse dermal model.

Key Words: Capsaicin • Carcinogenicity • Dermal • Diethylene Glycol Monoethyl Ether • Tg.AC • Transgenic Mouse

International Journal of Toxicology, Vol. 26, No. 2, 123-133 (2007)
DOI: 10.1080/10915810701225281


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