Project description:Intratumoral NK Cell and ILC Landscape

Project description:Purified NK cells from human intratumoral and peritumoral tissues tissues were first enriched by MACS using NK Cell Isolation Kit (Miltenyi Biotec, German) and CD96+/- hepatic NK cells were isolated by FACS Aria cell sorter (BD Biosciences, United States) to attain a purity greater than 95%.

Project description:Subtypes of innate lymphoid cells (ILC), defined by effector function and transcription factor expression, have recently been identified. In the adult, ILC derive from common lymphoid progenitors in bone marrow, although transcriptional regulation of the developmental pathways involved remains poorly defined. TOX is required for development of lymphoid tissue inducer cells, a type of ILC3 required for lymph node organogenesis, and NK cells, a type of ILC1. We show here that production of multiple ILC lineages requires TOX, as a result of TOX-dependent development of common ILC progenitors. Comparative transcriptome analysis demonstrated failure to induce various aspects of the ILC gene program in the absence of TOX, implicating this nuclear factor as a key early determinant of ILC lineage specification. TOX KO vs. wild tyype

Project description:Voluntary exercise reduces the risk of cancer and lowers the risk of disease recurrence. Yet the mechanisms for this protection remain to be elucidated. Here we demonstrate that exercise halves tumor growth through an exercise-dependent mobilization and intratumoral infiltration of NK cells in malignant melanoma. Using voluntary wheel running, we show that exercise prior to and during B16 tumor challenge reduced tumor growth by 67%, and this reduction was associated with increased inflammation and immune cell infiltrates, especially NK cells, in the tumors from exercising mice. Depletion of NK cells blunted the exercise-dependent reduction in tumor growth. Moreover, during exercise, NK cells were engaged through an epinephrine-dependent mobilization to the circulation and redistributed to peripheral tissues through an IL-6 dependent mechanism. This study highlights the importance of exercise-dependent immune regulation in the control of malignant melanoma Gene expression profile of melanoma tumor tissue from two groups of exercise and non-exercise mice

Project description:Human blood innate lymphoid cells (ILCs), which include ILCs and natural killer (NK) cells, derive from a common CD117+ILC precursor (ILCP). Yet, the relationship among the ILC subsets remains unclear. Bulk and single cell RNA-Seq and ATAC-Seq showed that blood ILC subsets cluster into ILC2s, ILCPs, a mixed cluster of CD56dim and CD56– NK cells, and a separate cluster of CD56hiNK cells that shares features with both ILCs and CD56dim/–NK cells. In surprising contrast to mice, tissue repair protein amphiregulin (AREG) was produced by human NK cells, with even higher levels in CD56hiNK cells than in ILCs. AREG expression in NK cells was driven by TCF7/WNT signaling and inhibited by TGFB1, a cytokine elevated in HIV-1+ people. Knockout of RUNX3, a WNT antagonist acting downstream of TGFB1, increased AREG production. Consistent with these findings, AREG+NK cells were decreased in people living with HIV-1. Additionally, functionally defective CD56–NK cells expanded in HIV-1+ people, in inverse correlation with CD56dimNK cells, ILCs, and CD4+T cells. Experiments in tissue culture and in humanized mice showed that CD56–NK cells derive from the epigenetically similar CD56dimNK cells, and that stimulation of MTOR by CD4+T cells or exogenous IL-2 prevents their expansion. These findings clarify how ILC subsets are related to each other and provide insight into how HIV-1 infection disrupts ILC homeostasis and contributes to pathology

Project description:We sorted NK, ILC, macrophage and dendritic cells from human adipose tissue and did single cell RNA sequencing on these cells. We observed cell type compositon changes and expression changes in the lean and obese donors.

Project description:Innate lymphoid cells (ILC) are critical in maintaining tissue homeostasis, and during infection and inflammation. Using combinatorial reporter mice we demonstrate the existence of rare, small intestinal lamina propria (siLP)- resident, ILC progenitors (siLP-ILCP) in adult mice. Transfer of siLP-ILCP into recipients generated ILC1/NK cells, ILC2 and ILC3 within the siLP microenvironment, but only ILC1/NK cells in the liver, lung and spleen. Single cell gene expression analysis confirmed the phenotype of the siLP-ILCPs and ILC progeny and indicated that siLP-ILCP-derived ILC1/NK cells from the siLP have a more tissue-resident phenotype than those from the lungs. Thus, in contrast to bone marrow-derived ILCPs, a local pool of siLP-ILCP can contribute to pan-ILC production in the intestinal microenvironment but has restricted potential in other tissues. Therefore, ILCP potential is influenced by both tissue of origin and the microenvironment during development. This may provide additional flexibility during the tuning of immune reactions.

Project description:CD160+ NK cells from intratumoral and peritumoral tissues

Project description:Innate lymphoid cells (ILCs) represent innate versions of T helper and cytotoxic T cells that differentiate from committed ILC precursors (ILCP). Still, how ILCP relate to mature tissue-resident ILCs remains unclear. We identify ILCP that are present in the blood and all tested lymphoid and non-lymphoid human tissues. Human ILCP fail to express the signature transcription factors (TF) and cytokine outputs of mature NK cells and ILCs but are epigenetically poised to do so. Human ILCP robustly generate all ILC subsets in vitro and in vivo. While human ILCP express RAR related orphan receptor C (RORC), circulating ILCP can be found in RORC-deficient patients that retain potential for EOMES+ NK cells, T-BET+ ILC1, GATA-3+ ILC2 and for IL-22+ but not for IL-17A+ ILC3. We propose a model of tissue ILC differentiation (‘ILC-poiesis’) whereby diverse ILC subsets are generated in situ from ILCP in response to environmental stressors, inflammation and infection.

Project description:Here we identify the c-kit+ CILP population which generates all ILC subsets including NK cells, and the CD25- ILC2-restricted Sca-1+ CILP. We mapped the transcriptional changes that occur in ILC progenitor commitment identifying new regulatory factors and provide a map for early ILC differentiation. Finally, we mapped the subsequent transcriptional changes that occur in c-kit+ CILP in absence of Id2 and Tcf7, key regulators downstream of Nfil3.