Canine melanoma as a model of human melanomaFor at least two decades, veterinary oncologists have advocated using spontaneously occurring tumours in companion animals as models for human cancer (Knapp and Waters, 1997;MacEwen, 1990). Several recent reviews have readdressed this approach identifying osteosarcoma, mammary tumours, head and neck cancers, bladder carcinomas, non-Hodgkin lymphoma, prostatic carcinoma, lung cancer and pertinently oral canine malignant melanoma (CMM) as good models for human neoplasms (Hansen and Khanna, 2004;Khanna and Hunter, 2005;Paoloni and Khanna, 2008). The major benefits of dogs as tumour models include the ability to study genetically outbred and immunologically intact animals in which cancers develop spontaneously and thus, more likely reflect the process of tumourigenesis compared to experimentally-induced neoplasms. As pets and owners share the same environment, they may be exposed to the same carcinogens, which, in part, drive tumour development. Regarding disease modelling, animal tumours often have similar clinical presentation, tumour biology and histopathological appearance to their human counterparts and usually progress more rapidly, thereby shortening data maturation times. In addition, few "standard of care" therapies exist for dogs meaning that within reason, trial therapeutics can be instigated at any point. Given these benefits, companion animal tumour models more accurately reflect the features of human cancers compared to rodent models with CMM being a desirable example of one such neoplasm. Conversely, the opportunity to translate the potential value of state of the art human therapeutics to the veterinary clinic also exists. Oral canine malignant melanoma (CMM) is a spontaneously occurring aggressive tumour with relatively few medical treatment options, which provides a suitable model for the disease in humans. Historically, multiple immunotherapeutic strategies aimed at provoking both innate and adaptive anti-tumour immune responses have been published with varying levels of activity against CMM. Recently, a plasmid DNA vaccine expressing human tyrosinase has been licensed for the adjunct treatment of oral CMM. This article reviews the immunological similarities between CMM and the human counterpart; mechanisms by which tumours evade the immune system; reasons why melanoma is an attractive target for immunotherapy; the premise of whole cell, dendritic cell (DC), viral and DNA vaccination strategies alongside preliminary clinical results in dogs. Current "gold standard" treatments for advanced human malignant melanoma are evolving quickly with remarkable results being achieved following the introduction of immune checkpoint blockade and adoptively transferred cell therapies. The rapidly expanding field of cancer immunology and immunotherapeutics means that rational targeting of this disease in both species should enhance treatment outcomes in veterinary and human clinics.
