Since the inhibition of cyclooxygenases (COX) has been shown to reduce tumor growth and incidence of metastases in a lymphocytic and IFN-γ dependent manner, we argued that COX isoenzymes are a pharmacologic target to increase intratumoral CXCR3 ligand concentration in human breast cancer.
Since the tumor microenvironment plays important roles in cancer initiation, growth, progression, invasion and metastasis, it is possible to propose that an overexpression of IFNγ mRNA due to the pro-inflammatory microenvironment can lead to an up-regulation of CXCR4 mRNA and consequently to an increased TLR3 mRNA expression even among nodal negative patients.
In a multivariate analysis, patients with tumor depth >/=4 mm, IFG >/=8 points, and nodal metastasis had a reduced disease-free survival and IFG >/=11 points had a predictive value for nodal metastasis (odds ratio: 7.34; P = 0.0019).
The tumor RNA-introduced DC-activated killer (TRiDAK) cells showed tumor-specific interferon-gamma spots even in a patient in whom we failed to generate PDAK cells using DCs and peptides, suggesting that the clinical trial of AIT using TRiDAK cells is warranted for the treatment of patients with metastatic cancer.
Therefore, we introduced the complementary DNA (cDNA) encoding human IFNgamma into a well-characterized RCC line that has been selected for development of an allogeneic tumor cell vaccine for treatment of patients with metastatic disease.
Although expression of huIL-2 was equally effective as IFN-gamma in preventing tumor formation and reducing experimental metastasis, it did not confer protection to spontaneous metastases and even reversed the anti-metastatic activity of IFN-gamma.
(i) Like normal kidney, virtually all primary human renal cell carcinomas express MHC class I antigens and retain this phenotype even during tumor progression and metastasis; (ii) class II expression on normal and RCC cells appears more limited but occurs frequently in both primary and metastatic lesions; and (iii) in most continuous RCC cell lines expression of MHC class I and II can effectively be stimulated by IFN-gamma.
The latter included the melanoma cell line MeWo and its metastatic variant MeM 50-10, which display differential susceptibility to modulation of HLA class-II antigens by IFN-gamma and the cell lines SK-MEL-93-DX-2 and SK-MEL-93-DX-3, which originated from anatomically distinct metastases in patient DX.