Increased CD3+ T cells with a low FOXP3+/CD8+ T cell ratio can predict anti-PD-1 therapeutic response in non-small cell lung cancer patients

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Abstract

To determine whether tumor microenvironments affect the clinical response to anti-PD-1 therapy in non-small cell lung cancer, we investigated the expression level of PD-L1 and tumor infiltrating lymphocytes and elucidate their predictive role. Thirty-eight pretreatment and two post-treatment specimens from 36 advanced, treatment-refractory non-small cell lung cancer patients who underwent PD-1 blockade therapy were analyzed. PD-L1 expression by tumor cells and the distribution of CD3, CD8, CD4, FOXP3 and PD-1 positive tumor infiltrating lymphocytes were immunohistochemically assessed and counted using digital image analyzer. CD3+ and CD8+ T cells were distributed more in PD-L1 positive group compared to PD-L1 negative group. Conversely, EGFR mutant group showed fewer CD3+ T cells than EGFR-naïve group. The patients in the clinical benefit group with PD-1 blockade showed a higher number of CD3+, CD8+ T cells and a higher CD8+/CD3+ T cell ratio (p = 0.003, p = 0.001, and p = 0.042) and a lower FOXP3+/CD8+ T cell ratio compared to non-responders (p = 0.001). In multivariate logistic regression analysis, increased CD3+ T cell infiltration and low FOXP3+/CD8+ T cell ratio were found to be independent predictors of clinical benefit with PD-1 blockade (p = 0.014 and p = 0.03, respectively). Using receiver operating characteristic curves, levels of CD3+ T cells and FOXP3+/CD8+ T cell ratio that provide the best distinguishing point between responder versus non-responder to PD-1 blockade were 617.5/mm2 and 25%, respectively (p = 0.007 and p = 0.003). Considering that 1 mm2 is about 5 high power fields (HPF), a good response to the PD-1 blockade can be expected when the number of CD3 T cells is observed to be 120 per HPF and when CD8+ T cells and FOXP3+ T cells are present at a ratio greater than 4:1. Tumor infiltrating lymphocytes might become a promising biomarker as an independent predictive factor of response to PD-1 blockade that may also guide therapeutic decisions.

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Regulatory T cells in cancer immunotherapy

Atsushi Tanaka, Shimon Sakaguchi (2017)

FOXP3-expressing regulatory T (Treg) cells, which suppress aberrant immune response against self-antigens, also suppress anti-tumor immune response. Infiltration of a large number of Treg cells into tumor tissues is often associated with poor prognosis. There is accumulating evidence that the removal of Treg cells is able to evoke and enhance anti-tumor immune response. However, systemic depletion of Treg cells may concurrently elicit deleterious autoimmunity. One strategy for evoking effective tumor immunity without autoimmunity is to specifically target terminally differentiated effector Treg cells rather than all FOXP3+ T cells, because effector Treg cells are the predominant cell type in tumor tissues. Various cell surface molecules, including chemokine receptors such as CCR4, that are specifically expressed by effector Treg cells can be the candidates for depleting effector Treg cells by specific cell-depleting monoclonal antibodies. In addition, other immunological characteristics of effector Treg cells, such as their high expression of CTLA-4, active proliferation, and apoptosis-prone tendency, can be exploited to control specifically their functions. For example, anti-CTLA-4 antibody may kill effector Treg cells or attenuate their suppressive activity. It is hoped that combination of Treg-cell targeting (e.g., by reducing Treg cells or attenuating their suppressive activity in tumor tissues) with the activation of tumor-specific effector T cells (e.g., by cancer vaccine or immune checkpoint blockade) will make the current cancer immunotherapy more effective.

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Two FOXP3(+)CD4(+) T cell subpopulations distinctly control the prognosis of colorectal cancers.

Takuro Saito, Hiroyoshi Nishikawa, Hisashi Wada … (2016)

CD4(+) T cells that express the forkhead box P3 (FOXP3) transcription factor function as regulatory T (Treg) cells and hinder effective immune responses against cancer cells. Abundant Treg cell infiltration into tumors is associated with poor clinical outcomes in various types of cancers. However, the role of Treg cells is controversial in colorectal cancers (CRCs), in which FOXP3(+) T cell infiltration indicated better prognosis in some studies. Here we show that CRCs, which are commonly infiltrated by suppression-competent FOXP3(hi) Treg cells, can be classified into two types by the degree of additional infiltration of FOXP3(lo) nonsuppressive T cells. The latter, which are distinguished from FOXP3(+) Treg cells by non-expression of the naive T cell marker CD45RA and instability of FOXP3, secreted inflammatory cytokines. Indeed, CRCs with abundant infiltration of FOXP3(lo) T cells showed significantly better prognosis than those with predominantly FOXP3(hi) Treg cell infiltration. Development of such inflammatory FOXP3(lo) non-Treg cells may depend on secretion of interleukin (IL)-12 and transforming growth factor (TGF)-β by tissues and their presence was correlated with tumor invasion by intestinal bacteria, especially Fusobacterium nucleatum. Thus, functionally distinct subpopulations of tumor-infiltrating FOXP3(+) T cells contribute in opposing ways to determining CRC prognosis. Depletion of FOXP3(hi) Treg cells from tumor tissues, which would augment antitumor immunity, could thus be used as an effective treatment strategy for CRCs and other cancers, whereas strategies that locally increase the population of FOXP3(lo) non-Treg cells could be used to suppress or prevent tumor formation.

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Tumor-infiltrating FOXP3+ T regulatory cells show strong prognostic significance in colorectal cancer.

Paul Salama, Michael Phillips, Fabienne Grieu … (2009)

To determine the prognostic significance of FOXP3(+) lymphocyte (Treg) density in colorectal cancer compared with conventional histopathologic features and with CD8(+) and CD45RO(+) lymphocyte densities. Tissue microarrays and immunohistochemistry were used to assess the densities of CD8(+), CD45RO(+), and FOXP3(+) lymphocytes in tumor tissue and normal colonic mucosa from 967 stage II and stage III colorectal cancers. These were evaluated for associations with histopathologic features and patient survival. FOXP3(+) Treg density was higher in tumor tissue compared with normal colonic mucosa, whereas CD8(+) and CD45RO(+) cell densities were lower. FOXP3(+) Tregs were not associated with any histopathologic features, with the exception of tumor stage. Multivariate analysis showed that stage, vascular invasion, and FOXP3(+) Treg density in normal and tumor tissue were independent prognostic indicators, but not CD8(+) and CD45RO(+). High FOXP3(+) Treg density in normal mucosa was associated with worse prognosis (hazard ratio [HR] = 1.51; 95% CI, 1.07 to 2.13; P = .019). In contrast, a high density of FOXP3(+) Tregs in tumor tissue was associated with improved survival (HR = 0.54; 95% CI, 0.38 to 0.77; P = .001). FOXP3(+) Treg density in normal and tumor tissue had stronger prognostic significance in colorectal cancer compared with CD8(+) and CD45RO(+) lymphocytes. The finding of improved survival associated with a high density of tumor-infiltrating FOXP3(+) Tregs in colorectal cancer contrasts with several other solid cancer types. The inclusion of FOXP3(+) Treg density may help to improve the prognostication of early-stage colorectal cancer.