Project description:We explored early changes in gene expression in the livers and lungs of the HFD-fed, metastasizing mammary tumor-bearing and obesity-resistant mice mice. These alterations may have led to favorable conditions for both the formation of pro-inflammatory and pro-mitotic microenvironments in the target organs that promote immune cell infiltration and differentiation, as well as infiltration and proliferation of metastatic tumor cells. Total RNA was isolated from hepatic and pulmonary tissues of high fat diet fed-4T1 cell-injected mice or high fat diet fed-sham mice. Gene expressions were compared to control diet fed-same conditional mice.

Project description:We explored early changes in gene expression in the livers and lungs of the HFD-fed, metastasizing mammary tumor-bearing and obesity-resistant mice mice. These alterations may have led to favorable conditions for both the formation of pro-inflammatory and pro-mitotic microenvironments in the target organs that promote immune cell infiltration and differentiation, as well as infiltration and proliferation of metastatic tumor cells.

Project description:Palatine tonsils are secondary lymphoid organs that are strategically positioned in the oropharynx to secure a first line of defense against oral pathogens. Specialized immune-interacting fibroblasts, generally termed fibroblastic reticular cells (FRC), underpin distinct microenvironments within lymphoid organs to compartmentalize and direct the efficient interaction and activation of immune cells. As a particular anatomical property, palatine tonsils harbor a reticular-shaped lymphoepithelium that generates an antigen sampling zone in the crypts. Here, we have employed single cell transcriptomics to unveil the molecular identity of tonsillar immune cells. We found that PI16+ RCs interact with activated macrophages via the OSM-OSMR pathway and thereby shape particular immune cell environments of inflamed lymphoid tissues.

Project description:B cell-interacting reticular cells (BRC) form transcriptionally and topologically stable immune-interacting microenvironments that direct efficient humoral immunity. While several immune niche factors have been elucidated, the cues sustaining BRC function and topology across activation states remain unclear. Here, we employed spatial transcriptome analysis of murine ingunal and mesenteric lymph nodes to examine co-localization of distinct BRC subsets and immune cells complementing BRC-immune cell interaction analysis. Spatial analysis supported predicted feedforward BRC-immune cell circuits that sustain topologically-organized, functional niches across inflammatory states, lymphoid organs and species.

Project description:Analysis of B16 tumor microenvironments at gene expression level. The hypothesis tested in the present study was that Tregs orchastrated the immune reponse triggered in presence of tumors Total RNA obtained from tumor microenvironment tissues (at Day 4 and Day 14 after tumor inoculation) compared to control tissues.

Project description:Penile carcinoma (PeCa) is a rare cancer with orphan disease designation and a prevalence of 0.1-1 per 100,000 men in high-income countries, but it constitutes up to 10% of malignancies in men in some African, Asian and South American regions . Evidence demonstrated that the tumor microenvironment (TME) plays a crucial role in the tumor progression and therapy response. Two landmarks of TME, extracellular matrix (ECM) remodeling and inflammation have been reported in these tumors. However, the cell types and cellular crosstalk involved in PeCa are widely unexplored. We used microarrays to identify enriched immune and stromal cells from the secretory profile of penile cancer transcriptomes.

Project description:Uveal melanoma (UM) is a rare form of melanoma with a genetics and immunology that is different from skin melanoma. Previous studies have identified genetic driver events of early stage disease when the tumor is confined to the eye. In this study, we have characterized genomic events in UM metastases using whole-genome and RNA sequencing from thirty-two and twenty-eight patients, respectively, and profiled individual tumor infiltrating lymphocytes in a number of the metastases. We find that 91% of the patients have metastases carrying inactivating events in the tumor suppressor BAP1 and this coincided with somatic alterations in GNAQ, GNA11, CYSLTR2, PLCB4, SF3B1 and/or CDKN2A. Mutational signature analysis revealed a rare subset of tumors with prominent signs of UV damage, associated with outlier mutational burden. We study copy number variations (CNV) and find overrepresented events, some of which were not altered in matched primary eye tumors. A focused siRNA screen identified functionally significant genes of some of the segments recurrently gained. We reintroduced a functional copy of BAP1 into a patient-derived BAP1 deficient tumor cell line and found broad transcriptomic changes of genes associated with subtype distinction and prognosis in primary UM. Lastly, our analysis of the immune microenvironments of metastases revealed a presence of tumor-reactive T cells. However, a large fraction expressed the immune checkpoint receptors such as TIM-3, TIGIT and LAG3. These results provide an updated view of genomic events represented in metastatic UM and immune interactions in advanced lesions.

Project description:Palatine tonsils are secondary lymphoid organs that are strategically positioned in the oropharynx to secure a first line of defense against oral pathogens. Specialized immune-interacting fibroblasts, generally termed fibroblastic reticular cells (FRC), underpin distinct microenvironments within lymphoid organs to compartmentalize and direct the efficient interaction and activation of immune cells. As a particular anatomical property, palatine tonsils harbor a reticular-shaped lymphoepithelium that generates an antigen sampling zone in the crypts. While the histological ultrastructure and the immune cell composition of human palatine tonsils has been elaborated in detail, the molecular identity of the diverse stromal cell compartments including FRC and the specialized lymphoepithelium remains largely unknown. Here, we have employed single cell transcriptomics and extensive flow cytometric analyses to unveil the molecular identity of tonsillar cells and to disentangle the heterogeneity of fibroblast and epithelial cell subsets in palatine tonsils. Our results reveal a remarkable conservation of stromal cell organization and molecularly-defined subsets in infant and adult human palatine tonsils.

Project description:It is well established that symptomatic cancers evade immune destruction by coalescing lesional and tumor microenvironments to suppress adaptive immunity. Additionally, mouse models of cervical and other cancers have revealed a capability of tumors to systemically induce the expansion of myeloid cells that cripple T cell development in spleen and lymph nodes, further impairing immune responses. We show that HPV16-driven cervical cancers release into the circulatory system four immunoregulatory ligands – IL1α, IL1ß, IL33, and IL36ß – that bias the bone marrow toward granulocytic myelopoiesis, producing immunosuppressive neutrophils and myeloid progenitors differentially populating spleens and tumors to facilitate immune evasion. A pan-IL1 receptor antagonist, anti-IL1RAP, attenuates this myeloid expansion and complements an HPV-E7 peptide vaccine plus anti-CTLA4 to elicit anti-tumor immunity. Evidence for similar systemic activity of these four IL1 ligands in human cervical and other cancers encourages multi-targeting this signaling axis to broaden the scope of cancer immunotherapy.

Project description:It is well established that symptomatic cancers evade immune destruction by coalescing lesional and tumor microenvironments to suppress adaptive immunity. Additionally, mouse models of cervical and other cancers have revealed a capability of tumors to systemically induce the expansion of myeloid cells that cripple T cell development in spleen and lymph nodes, further impairing immune responses. We show that HPV16-driven cervical cancers release into the circulatory system four immunoregulatory ligands – IL1α, IL1ß, IL33, and IL36ß – that bias the bone marrow toward granulocytic myelopoiesis, producing immunosuppressive neutrophils and myeloid progenitors differentially populating spleens and tumors to facilitate immune evasion. A pan-IL1 receptor antagonist, anti-IL1RAP, attenuates this myeloid expansion and complements an HPV-E7 peptide vaccine plus anti-CTLA4 to elicit anti-tumor immunity. Evidence for similar systemic activity of these four IL1 ligands in human cervical and other cancers encourages multi-targeting this signaling axis to broaden the scope of cancer immunotherapy.