Reduction of Staphylococcus epidermidis in the mammary tumor microbiota induces antitumor immunity and decreases breast cancer aggressiveness.

The mammary gland hosts a microbiota, which differs between malignant versus normal tissue. We found that aerosolized antibiotics decrease murine mammary tumor growth and strongly limit lung metastasis. Oral absorbable antibiotics also reduced mammary tumors. In ampicillin-treated nodules, the immune microenvironment consisted of an M1 profile and improved T cell/macrophage infiltration. In these tumors, we noted an under-representation of microbial recognition and complement pathways, supported by TLR2/TLR7 protein and C3-fragment deposition reduction. By 16S rRNA gene profiling, we observed increased Staphylococcus levels in untreated tumors, among which we isolated Staphylococcus epidermidis, which had potent inflammatory activity and increased Tregs. Conversely, oral ampicillin lowered Staphylococcus epidermidis in mammary tumors and expanded bacteria promoting an M1 phenotype and reducing MDSCs and tumor growth. Ampicillin/paclitaxel combination improved the chemotherapeutic efficacy. Notably, an Amp-like signature, based on genes differentially expressed in murine tumors, identified breast cancer patients with better prognosis and high immune infiltration that correlated with a bacteria response signature. This study highlights the significant influence of mammary tumor microbiota on local immune status and the relevance of its treatment with antibiotics, in combination with breast cancer therapies.

The Educational Program of Macrophages toward a Hyperprogressive Disease-Related Phenotype Is Orchestrated by Tumor-Derived Extracellular Vesicles.

Hyperprogressive disease (HPD), an aggressive acceleration of tumor growth, was observed in a group of cancer patients treated with anti-PD1/PDL1 antibodies. The presence of a peculiar macrophage subset in the tumor microenvironment is reported to be a sort of "immunological prerequisite" for HPD development. These macrophages possess a unique phenotype that it is not clear how they acquire. We hypothesized that certain malignant cells may promote the induction of an "HPD-related" phenotype in macrophages. Bone-marrow-derived macrophages were exposed to the conditioned medium of five non-small cell lung cancer cell lines. Macrophage phenotype was analyzed by microarray gene expression profile and real-time PCR. We found that human NSCLC cell lines, reported as undergoing HPD-like tumor growth in immunodeficient mice, polarized macrophages towards a peculiar pro-inflammatory phenotype sharing both M1 and M2 features. Lipid-based factors contained in cancer cell-conditioned medium induced the over-expression of several pro-inflammatory cytokines and the activation of innate immune receptor signaling pathways. We also determined that tumor-derived Extracellular Vesicles represent the main components involved in the observed macrophage re-education program. The present study might represent the starting point for the future development of diagnostic tools to identify potential hyperprogressors.

Keratin 17 as a Marker of UVB-Induced Stress in Human Epidermis and Modulation by Vitis vinifera Extract.

Human epidermis responds to ultraviolet (UV)B-induced damage by tolerating it, restoring it, or undergoing programmed cell death when the damage is massive. Recently, compounds rich in polyphenols, such as Vitis vinifera L. leaf extract (VVLe), have attracted a lot of interest for skin protection. We investigated the effect of VVLe pre-treatment (1 h) in a 2D model of HaCaT cells and in 3D organotypic cultures of normal human skin exposed to a single UVB dose to study the immediate specific events 1 h and the response orchestrated in the epidermal layer 24 h after irradiation, respectively. In both models, transmission electron microscopy analysis was carried out. The expression of the inducible keratin K17, the activation of both pSTAT3 and Nuclear Factor (NF)-κB signalling pathways, and the epidermal distribution of Toll-Like Receptor (TLR) 4 were assessed by immunofluorescence in the 2D and 3D model. In 3D organotypic cultures, thanks to the preservation of a multi-layered structure, the epidermal distribution of the differentiation biomarkers K10 and K14 as well as of K16 was analysed by immunofluorescence, while the release of interleukin (IL)-8 was evaluated by ELISA. In skin bioptic fragments, cytotoxicity and genotoxicity were investigated by LDH assay and Alkaline Comet assay, respectively, and then compared to cell proliferation. The epidermal distribution of the histone γ-H2AX, indicating the fragmented DNA, was analysed by immunofluorescence. In both experimental models, VVLe tuned UVB-induced K17 expression to a different extent in HaCaT cells and in the skin. In HaCaT cells, pSTAT3 activation was induced by UVB and reverted by VVLe pre-treatment. TLR4 expression was triggered by UVB in both models, but VVLe pre-treatment abolished this event only in HaCaT cells. NF-κB immunostaining increased both in the nucleus and in the cytoplasm only in HaCaT cells after UVB irradiation. In all irradiated skin samples, VVLe pre-treatment was not able to revert the inhibition of epidermal proliferation, K16 expression, and IL-8 secretion. The effectiveness of VVLe in contrasting the irradiation-induced genotoxicity still remains unclear. In conclusion, our study clearly shows that K17 is a robust marker induced in keratinocytes upon UVB stimulation and that this event can be reverted by a pre-treatment with VVLe. On the whole, these observations represent a novelty in the scenario of the complex relationships between the effects exerted by UVB rays on human skin and significantly improve the knowledge regarding the modulation of the early epidermal response induced by a single exposure to UVB in the presence of VVLe.

Macrophages Impair TLR9 Agonist Antitumor Activity through Interacting with the Anti-PD-1 Antibody Fc Domain.

BACKGROUND: A combination of TLR9 agonists and an anti-PD-1 antibody has been reported to be effective in immunocompetent mice but the role of innate immunity has not yet been completely elucidated. Therefore, we investigated the contribution of the innate immune system to this combinatorial immunotherapeutic regimens using an immunodeficient mouse model in which the effector functions of innate immunity can clearly emerge without any interference from T lymphocytes. METHODS: Athymic mice xenografted with IGROV-1 human ovarian cells, reported to be sensitive to TLR9 agonist therapy, were treated with cytosine-guanine (CpG)-oligodeoxynucleotides (ODNs), an anti-PD-1 antibody or their combination. RESULTS: We found that PD-1 blockade dampened CpG-ODN antitumor activity. In vitro studies indicated that the interaction between the anti-PD-1 antibody fragment crystallizable (Fc) domain and macrophage Fc receptors caused these immune cells to acquire an immunoregulatory phenotype, contributing to a decrease in the efficacy of CpG-ODNs. Accordingly, in vivo macrophage depletion abrogated the detrimental effect exerted by the anti-PD-1 antibody. CONCLUSION: Our data suggest that if TLR signaling is active in macrophages, coadministration of an anti-PD-1 antibody can reprogram these immune cells towards a polarization state able to negatively affect the immune response and eventually promote tumor growth.

The psoriatic shift induced by interleukin 17 is promptly reverted by a specific anti-IL-17A agent in a three-dimensional organotypic model of normal human skin culture.

Interleukin 17A (IL-17A), mainly produced by the T helper subclass Th17, plays a key role in the psoriatic plaque formation and progression. The clinical effectiveness of anti-IL-17A agents is documented, but the early and specific mechanisms of their protection are not identified yet. The challenge of the present study is to investigate the possible reversal exerted by a specific anti-IL-17A agent on the psoriatic events induced by IL-17A in a three-dimensional organotypic model of normal human skin. Bioptic skin fragments obtained after aesthetic surgery of healthy women (n=5) were incubated with i) IL-17A biological inhibitor (anti-IL-17A), ii) IL-17A, iii) a combination of IL-17A and its specific IL-17A biological inhibitor (COMBO). A Control group was in parallel cultured and incubation lasted for 24 and 48 h epidermal-side-up at the air-liquid interface. All subjects were represented in all experimental groups at all considered time-points. Keratinocyte proliferation and the presence of epidermal Langerhans cells were quantitatively estimated. In parallel with transmission electron microscopy analysis, immunofluorescence studies for the epidermal distribution of keratin (K)10, K14, K16, K17, filaggrin/occludin, Toll-like Receptor 4, and Nuclear Factor kB were performed. IL-17A inhibited cell proliferation and induced K17 expression, while samples incubated with the anti-IL-17A agent were comparable to controls. In the COMBO group the IL-17A-induced effects were almost completely reverted. Our study, for the first time, elucidates the most specific psoriatic cellular events that can be partially affected or completely reverted by a specific anti-IL-17A agent during the early phases of the plaque onset and progression. On the whole, this work contributes to expand the knowledge of the psoriatic tableau.