Abstract
Cancer can be conceptualized as arising from somatic mutations resulting in a single renegade cell escaping from the constraints of multicellularity. Thus, the era of precision medicine has led to intense focus on the cancer cell to target these mutations that result in oncogenic signaling and sustain malignancy. However, in pancreatic ductal adenocarcinoma (PDAC) there are only four abundantly common driver mutations (KRAS, CDKN2A, TP53, and SMAD4), which are not currently actionable. Thus, precision therapy for PDAC must look beyond the cancer cell. In fact, PDAC is more than a collection of renegade cells, instead representing an extensive, supportive ecosystem, having developed over several years, and consisting of numerous interactions between the cancer cells, normal mesenchymal cells, immune cells, and the dense extracellular matrix. In this issue, Huang and colleagues demonstrate how elucidation of these complex relationships within the tumor microenvironment (TME) can be exploited for therapeutic intervention in PDAC. They identify in a subset of PDAC with mutations in TGFβ signaling, that a paracrine signaling axis can be abrogated to modulate the TME and improve outcomes.
Highlights
Cancer can be conceptualized as arising from somatic mutations resulting in a single renegade cell escaping from the constraints of multicellularity
While pancreatic ductal adenocarcinoma (PDAC) cancer cells, cancerassociated fibroblasts (CAF), and immune cells are all potentially responsive to transforming growth factor beta (TGFb), it was an inflammatory subtype of CAF expressing PDGFRa that was consistently found to have highest expression of TGFb receptor 2 (TGFbR2) and IL-6
EMBO Molecular Medicine was able to increase pSTAT levels in cancer cells, which was IL-6-dependent and abrogated when CAFs were treated with 2GB
Summary
Cancer can be conceptualized as arising from somatic mutations resulting in a single renegade cell escaping from the constraints of multicellularity. PDAC is more than a collection of renegade cells, instead representing an extensive, supportive ecosystem, having developed over several years, and consisting of numerous interactions between the cancer cells, normal mesenchymal cells, immune cells, and the dense extracellular matrix In this issue, Huang and colleagues demonstrate how elucidation of these complex relationships within the tumor microenvironment (TME) can be exploited for therapeutic intervention in PDAC. Recalcitrance is not limited to conventional chemotherapy as multiple trials employing cancer cell-targeted treatments have failed to improve patient outcomes Such shortcomings inspired expansion of the myopic focus on the cancer cell to a broader appreciation of the tumor microenvironment (TME) elements in PDAC pathogenesis.
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