Xenogeneic murine tyrosinase DNA vaccine for malignant melanoma of the digit of dogs.

BACKGROUND: Malignant melanoma of dogs is a highly aggressive neoplasm and is the 2nd most common digit tumor. Metastatic disease is a common sequela for which few effective treatment options exist. Studies show that xenogeneic tyrosinase DNA vaccination yields immune responses and prolongation of survival in dogs with oral malignant melanoma. OBJECTIVES/HYPOTHESIS: Describe clinical findings and tumor characteristics of a cohort of dogs with digit malignant melanoma, and evaluate the prognostic utility of a proposed staging system. Determine if a novel xenogeneic DNA vaccine is safe and potentially effective for treatment of dogs with digit melanoma. ANIMALS: Fifty-eight dogs with digit malignant melanoma treated at the Animal Medical Center between 2004 and 2007. METHODS: Retrospective, medical records review of dogs with digit melanoma treated with xenogeneic DNA vaccine. RESULTS: Overall median survival time (MST) for dogs treated with loco-regional control and xenogeneic DNA vaccine was 476 days with a 1-year survival rate of 63%. MST for dogs presenting with metastasis was 105 days versus 533 days for dogs presenting without metastasis (P < .0001). Forty-eight percent of the dogs in the latter group were alive at 2 and 3 years. A proposed staging system proved prognostic with stages I-IV dogs surviving >952, >1,093, 321, and 76 days, respectively. CONCLUSIONS AND CLINICAL IMPORTANCE: The xenogeneic murine tyrosinase DNA vaccine was safe and appears effective when used in conjunction with local and regional disease control. The proposed staging system was prognostic in this study and future studies might benefit from utilizing this staging system.

Evaluation of P-glycoprotein expression in feline lymphoma and correlation with clinical outcome.

P-glycoprotein (Pgp) is a transmembrane protein pump involved in drug resistance in canine and human lymphoma. There are no published clinical studies evaluating Pgp expression in feline lymphoma. The purpose of this study is to evaluate the level of Pgp expression in feline lymphoma and correlate it with clinical outcome. Two human Pgp monoclonal antibodies, C219 and C494, were used to detect Pgp expression in tissue samples from 63 cats with lymphoma. Demographic results appear comparable to recently published feline lymphoma studies. The Kaplan-Meier median remission and survival times were 164 and 571 days, respectively. Fourteen cats had positive expression of Pgp using MAb C219, and 40 were positive with C494. Variables statistically associated with survival included bone marrow involvement, stage, substage, and use of radiation therapy as a part of treatment. Pgp expression as assessed by MAb C219 and C494 is not predictive of remission or survival time in cats with lymphoma.

Prognostic significance of intratumoral microvessel density in canine soft-tissue sarcomas.

The prognosis of canine soft-tissue sarcomas (STS) has traditionally been based on histologic grading. We have recently demonstrated the prognostic value of cellular proliferation markers in canine STS. Another method of predicting the behavior of neoplasms is intratumoral microvessel density (IMD), which is a measure of tumor angiogenesis. The prognostic significance of IMD has been documented in many human neoplasms and in a limited number of canine and feline neoplasms. To evaluate the prognostic value of IMD in canine STS, we studied 57 STS and compared IMD with histologic features, histologic grade, cellular proliferation, metastatic propensity, and survival. Using immunohistochemistry, the STS were labeled with anti-factor VIII-related antigen (FVIII-RA) and anti-CD31 antibodies to determine 3 IMD parameters: mean microvessel density, high microvessel density, and microvessel area. Using FVIII-RA and CD31, increasing IMD was statistically associated with increasing histologic grade, necrosis scores, and mitotic scores. Higher FVIII-RA IMD values were significantly associated with higher median argyrophilic nucleolar organizing region (AgNOR) values (as previously investigated) and increased metastatic propensity. Fibrosarcomas appear to be the least vascularized of STS. There is no correlation between IMD and survival. Our results indicate that IMD is of prognostic value for histologic grade, histologic features, cellular proliferation (based on AgNOR), and metastatic propensity of canine STS, specifically when using FVIII-RA as the endothelial marker. Assessing histologic grading, cellular proliferation, and IMD of canine STS at the time of diagnosis could therefore provide better prognostic information for the veterinary clinician.

Development of a xenogeneic DNA vaccine program for canine malignant melanoma at the Animal Medical Center.

INTRODUCTION: Canine malignant melanoma (CMM) is an aggressive neoplasm treated with surgery and/or fractionated RT; however, metastatic disease is common and chemoresistant. Preclinical and clinical studies by our laboratory and others have shown that xenogeneic DNA vaccination with tyrosinase family members can produce immune responses resulting in tumor rejection or protection and prolongation of survival. These studies provided the impetus for development of a xenogeneic DNA vaccine program in CMM. MATERIALS AND METHODS: Cohorts of three dogs each received increasing doses of xenogeneic plasmid DNA encoding either human tyrosinase (huTyr; 100/500/1500 mcg), murine GP75 (muGP75; 100/500/1500 mcg), murine tyrosinase (muTyr; 5 dogs each at 100/500 mcg), muTyr+/-HuGM-CSF (9 dogs at 50 mcg muTyr, 3 dogs each at 100/400/800 mcg HuGM-CSF, or 3 dogs each at 50 mcg muTyr with 100/400/800 mcg HuGM-CSF), or 50 mcg MuTyr intramuscularly biweekly for a total of four vaccinations. RESULTS: The Kaplan-Meier median survival time (KM MST) for all stage II-IV dogs treated with huTyr, muGP75 and muTyr are 389, 153 and 224 days, respectively. Preliminarily, the KM MST for stage II-IV dogs treated with 50 mcg MuTyr, 100/400/800 mcg HuGM-CSF or combination MuTyr/HuGM-CSF are 242, 148 and >402 (median not reached) days, respectively. Thirty-three stage II-III dogs with loco-regionally controlled CMM across the xenogeneic vaccine studies have a KM MST of 569 days. Minimal to mild pain was noted on vaccination and one dog experienced vitiligo. We have recently investigated antibody responses in dogs vaccinated with HuTyr and found 2- to 5-fold increases in circulating antibodies to human tyrosinase. CONCLUSIONS: The results of these trials demonstrate that xenogeneic DNA vaccination in CMM: (1) is safe, (2) leads to the development of anti-tyrosinase antibodies, (3) is potentially therapeutic, and (4) is an attractive candidate for further evaluation in an adjuvant, minimal residual disease Phase II setting for CMM.

Immunohistochemical detection of HER-2/neu expression in spontaneous feline mammary tumours.

Mammary gland tumours (MGT) are the third most common tumours in the cat. At least 85% are malignant and metastasis is common. The HER-2/neu protooncogene encodes a 185-kDa transmembrane tyrosine receptor kinase protein. Approximately 25-30% of human MGT demonstrate HER-2/neu protein overexpression in the malignant cells, and overexpression has been associated with an increased metastatic propensity and a decreased prognosis. No reports have been published, to date, investigating the expression of Her-2/neu in cats or cats with spontaneous mammary tumours. Based on the increased percentage of malignant mammary cancers in cats, compared to that in dogs, and the correlation of an increased malignancy and a decreased prognosis with Her-2 overexpression in human mammary cancer, we hypothesized that cats with spontaneous malignant mammary adenocarcinoma overexpress Her-2/neu in the neoplastic mammary epithelial cells. Thirty cats with MGT were assayed for Her-2/neu immunohistochemical expression. The median percentage of cells from feline MGT expressing Her-2/neu by utilizing the Dako polyclonal and CB11 monoclonal antibodies was 85 and 92.5, respectively. Her-2/neu expression intensity grades 2 and 3 consistent with the overexpression by utilizing the Dako polyclonal and CB11 monoclonal antibodies were observed in 90 and 76.7% of cats with MGT, respectively. The level of overexpression concordance across the two antibodies was 70%. The results from this study suggest that Her-2/neu overexpression is common in cats with spontaneous MGT, and therefore appears to represent an excellent model for Her-2/neu-overexpressing human breast cancer.