Rectal cancer induces a regulatory lymphocytic phenotype in the tumor-draining lymph nodes to promote cancer cell installation

Tumor-draining lymph nodes (TDLNs) are critical organs, where activation of B cells and T cells is orchestrated. Effector or regulatory anti-tumor immune responses are reflected by the composition of the lymphocytic and monocytic cell population of the node. Aside from the migratory cancer cell abilities, immune cell phenotypic changes in the TDLNs may define nodal invasion by cancer. We assessed the qualitative and quantitative differences between lymphocytic phenotypes in regional TDLNs, in 20 node-negative and 20 node-positive patients (involved and uninvolved nodes) with rectal adenocarcinomas. Benign reactive nodes were also analyzed. CD8+ cells, the main source of cytotoxic T cells, were increased in all TDLNs and, even stronger, in the involved nodes. The percentage of CD4+ cells were significantly increased in negative and uninvolved nodes, while the CD4/CD8 ratio was significantly lower in involved TDLNs. CD25+ and FOXP3+ regulatory lymphocytes, however, prevailed in involved nodes, while uninvolved and negative nodes had a low presence of these regulatory cells. CD20+ B cells were also more abundant in involved nodes. PD-1+ lymphocytes were localized in the germinal centers. A significantly lower percentage of PD-1+ lymphocytes were noted in involved nodes. The development of a regulatory lymphocytic phenotype in the TDLNs appears as an important mechanism that allows cancer cell installation into the nodal environment. As negative/uninvolved TDLNs had a less severe immunosuppression, it is postulated that secreted molecules by cancer cells gradually attenuate the anti-tumor defenses of the TDLNs allowing the subsequent intra-nodal growth of cancer.