Her2-neu score as a prognostic factor for outcome in patients with triple-negative breast cancer.

PURPOSE: Triple-negative breast cancer (TNBC) is characterized by a strong heterogeneity with regard to tumour biology as well as in the clinical course of the disease. This study aimed to analyse whether there are any prognostic factors enabling prediction of the clinical outcome in patients with TNBC. Particularly, the impact of Her2-neu score 0 versus Her2-neu score 1 and 2 on survival was investigated. MATERIALS AND METHODS: We retrospectively studied a cohort of 1013 patients with TNBC, diagnosed at seven hospitals between May 2002 and February 2015. We studied the impact of Her2-neu scores (0 vs. 1 or 2 with negative FISH) on disease-free survival (DFS) and overall survival (OS). RESULTS: 1013 patients were included in this study. 447 (44.13 %) of them had a T2-4 tumour. A total of 314 (31.00 %) were nodal-positive and 714 (70.48 %) had high-grade tumours. The Her2-neu score of all participating patients was determined. 588 (58.05 %) of them had a Her2-neu score 0, and 425 (41.95 %) had a score of 1 or 2. This study shows that TNBC patients with a Her2-neu score 0 had a significantly poorer outcome regarding DFS (p = 0.0001) and OS (p = 0.0051) compared to a score of 1 or 2. In contrast, grading did not seem to have any prognostic value for women with TNBC. CONCLUSION: The Her2-neu score 0 might be considered as an innovative prognostic factor for patients with TNBC indicating poor clinical outcome.

Blue light irradiation suppresses dendritic cells activation in vitro.

Blue light is a UV-free irradiation suitable for treating chronic skin inflammation, for example, atopic dermatitis, psoriasis, and hand- and foot eczema. However, a better understanding of the mode of action is still missing. For this reason, we investigated whether dendritic cells (DC) are directly affected by blue light irradiation in vitro. Here, we report that irradiation neither induced apoptosis nor maturation of monocyte-derived and myeloid DC. However, subsequent DC maturation upon LPS/IFNγ stimulation was impaired in a dose-dependent manner as assessed by maturation markers and cytokine release. Moreover, the potential of this DC to induce cytokine secretion from allogeneic CD4 T cells was reduced. In conclusion, unlike UV irradiation, blue light irradiation at high and low doses only resulted in impaired DC maturation upon activation and a reduced subsequent stimulatory capacity in allogeneic MLRs with strongest effects at higher doses.