Dysfunctional dendritic cells (DC) are common in cancer patients; however, the underlying molecular targets are poorly understood. Nevertheless, adoptive-transfer and in situ vaccination protocols continue, largely without addressing immune-suppression. Understanding tumour-mediated DC suppression would assist rational design of next generation immunotherapy. This study used a tumour-lysate loaded DC model of adoptive immunotherapy and also necrotic cells common in many tumours. Patient-derived and healthy-donor monocyte-derived DC were examined for disruptions in mitogen-activated protein kinase (MAPK) signalling pathways associated with their capacity to generate Type-1 helper-T cell populations (Th1). Melanoma-lysate markedly suppressed TLR4-dependent IL-12p40 and p70 production. Suppression of IL-12p70 occurred independently of maturation markers (e.g., CD40, CD80, CD83) and correlated with depressed p35 and p40 transcription. Decreased IL-12 secretion was not associated with IL-10, TGFbeta, VEGF, PGE(2) or ganglioside in tumour lysates or attributable to endogenous PGE(2) release from DC. In contrast to HUVEC lysate, melanoma-lysate-treated DC were less able to generate Th1-responses from naïve T-cells. The p44/42 MAPK was hyper-activated by melanoma lysate, but not that of HUVEC. Blockade of MEK1/2, the upstream kinase for p44/42, with U0126 prevented p44/42 activation, restored IL-12p70, and permitted effective generation of Th1-responses. Therefore the p44/42 MAPK is a target for tumour-mediated immune suppression of DC resulting in transcriptional down-regulation of IL-12 p35 and p40 genes, reduced IL-12 secretion and suppressed Th1-responses. Pharmacological intervention in the MEK-p44/42 axis may be applicable to render DC resistant to the suppressive effects of tumour lysates and may form part of a combination immunotherapy.