Project description:Induction of parasite-specific CD4+ Th1 cell responses is a promising strategy for designing effective blood-stage malaria vaccines; however, the underlying regulatory mechanisms remain largely unknown. This study demonstrated that ATG5 deficiency in myeloid cells can significantly inhibit the growth of rodent blood-stage malarial parasites by enhancing parasite-specific CD4+ Th1 cell responses. This effect was independent of ATG5-mediated canonical and non-canonical autophagy. Mechanistically, ATG5 deficiency promoted myeloid cell (Ly6G-CD11b+F4/80-) survival and subsequently increased MCP-1 production in parasite-infected mice. Ly6G-CD11b+F4/80- cell-derived MCP-1 interacted with CCR2 on CD4+ Th1 cells for their optimized responses through the JAK2/STAT4 pathway. Notably, recombinant MCP-1 significantly improved parasite-specific CD4+ Th1 responses of the whole-killed blood-stage vaccine. Conclusively, our study highlights the previously unrecognized role of ATG5 in modulating myeloid cell survival via MCP-1 production, which selectively promotes CD4+ Th1 cell responses. Our findings provide new insights into the development of effective antimalarial vaccines.

Project description:Define the genetic profile of naturally occuring regulatory macrophages that express Foxp3 (MacRegs) compared to Foxp3 neg macrophages, to determine candidate genes responsible for their regulatory function. Compare this new cellular population with Tregulatory cells. Two conditions were compared: Fresh CD11b+ F4/80+ FOXP3+ cells (3 independent isolates) and CD11b+ F4/80+ FOXP3- cells (3 independent isolates). MacRegs were also compared to CD4+Foxp3+ Tregs .

Project description:RNAseq was performed on PoEMs (CD11b+, F4/80+, PDPN+) vs. non-PoEMs (CD11b+, F4/80+, PDPN-) sorted from orthotopically inoculated 4T1 tumors in WT mice.

Project description:To identify the factors or genes associated with macrophages in a condition of ATG5 deficiency, we isolated F4/80+ cells from kidney single-cell suspensions of MΦ Atg5 -/- and WT mice(10 mouse per group) by immunomagnetic positive selection. we performed RNA-seq and heatmap analysis to identify the expression of chemokine receptor genes in MΦ Atg5-/- and WT mice.

Project description:To investigate the transcriptomic characteristics of CD11b+F4/80+ cells in the brain of JEV- infected WT and Vegfr-3ΔLBD/ΔLBD mice, we sorted the CD11b+F4/80+ cells from the brain of WT and Vegfr-3ΔLBD/ΔLBD mice post 5 days of JEV infection by FACS. We then performed gene expression profiling analysis using data obtained from RNA-seq of 2 different cells.

Project description:Dendritic cells have an important role in immune surveillance. After being exposed to microbial components, they migrate to secondary lymphoid organs and activate T lymphocytes. During mouse model malaria, splenic inflammatory monocytes differentiate into monocyte-derived dendritic cells (MO-DCs), which are CD11b+F4/80+CD11c+MHCIIhighDC-SIGNhighLy6c+ and express high levels of CCR5, CXCL9 and CXCL10 (CCR5+CXCL9/10+ MO-DCs). We intend to use these malaria-induced splenic MO-DCs gene expression data to understand more about the migratory route taken by these cells as well the most important genes/pathways involved on this cell differentiation in the spleen, allowing them to migrate to the brain where they develop an important role in cerebral malaria.

Project description:Tumor-associated macrophages (TAMs) are highly heterogeneous, derived from myeloid monocyte/macrophages or tissue-resident macrophages, and play vital role in tumor progression. Here we adopted a C57BL/6 mouse model imitating the late-stage colorectal liver metastasis (CRLM) by Mc38 colorectal cancer cell injection via the portal vein. We defined the critical period at 7 to 9 days post injection (dpi) for tumor neovascularization on serial sections of CRLM biopsies. The tumor neovascularization was initiated from one of the liver blood vessels via vessel cooption and extended by vascular mimicry and growth of CD34+cells. In samples with increasing sized liver metastases of CRLM, infiltrated Ly6C+ CD11b+ F4/80 monocytes steadily gained the expression of F4/80, a Kupffer cell marker, and then transformed into Ly6C CD11bint F4/80+ cells, which, the same phenotype was also adapted by Ly6C CD11b F4/80+ Kupffer cells. F4/80+ TAMs showed proximity to neovascularization and tumor vessels. Depletion of macrophages or disturbance on macrophage polarization during the crucial period of neovascularization impeded tumor growth and vascularization and resulted in greatly reduced F4/80+ TAMs, yet increased CD11b+ cells due to inhibition of TAM differentiation. In summary, we showed dynamic F4/80+ TAM differentiation within the tumor microenvironment and strengthened its role as perivascular TAMs in CRLM. A set of aliquot samples (about 0.25 cm3) from for flow cytometry preparations (the above method and Fig. 4A) were used for bulk RNA-Sequencing, among these samples, Ht1 and Ht3 were identical samples; F4/80+cells and CD11b+ cells were selected from medium-sized CRLM (Mt2) with microbeads and MS column;A total of 20 samples were sent for analysis. These collected tissues were flash-frozen in liquid nitrogen, stored at - 80°C and shipped on dry ice to the sequencing provider (Novogene, www.novogene.com), who then extracted RNA from these samples and confirmed that all sample RNA were in good quality and adequate concentrations. The resulted RNA-Sequencing data were verified as the clean reads > 95%, Q30 > 90%, and error rate < 0.05%; Square of Pearson Correlation Coefficient (R2) between the biological replicates was > 0.89; R2 of the identical samples (Ht-1 and Ht-3) was > 0.98.

Project description:We utilized H2-I-Ab tetramers to isolate CD4 T cells from mice to characterize the functional characteristics of ileal intraepithelial T cells and their lymphoid counterparts in the corresponding draining lymph nodes (mLN). Non-CD4 T cells (B220+, CD11b+, CD11c+, F4/80+, CD8a+) were excluded before FACS-sorting of CD45+CD3+CD4+ tetramer-specific T cells discriminated by double-positive staining with dual-labeled tetramer fluorophores. We recovered tetramer+ and tetramer- IELs and mLN T cells, and profiled them by single-cell RNA and TCR sequencing.

Project description:This study provides evidence on the molecular mechanisms by which P2RX7 signaling promotes Th1 cell differentiation. P2RX7 induces T-bet expression and aerobic glycolysis in splenic CD4+ T cells that respond to malaria, at a time prior to Th1/Tfh polarization. Cell-intrinsic P2RX7 signaling sustains the glycolytic pathway and causes bioenergetic mitochondrial stress in activated CD4+ T cells. We also show in vitro the phenotypic similarities of Th1-polarized CD4+ T cells that do not express P2RX7 and those in which the glycolytic pathway is pharmacologically inhibited. In addition, ATP synthase blockade in vitro and the consequent inhibition of oxidative phosphorylation, which forces cells to use aerobic glycolysis, is sufficient to promote rapid CD4+ T cell proliferation and polarization to the Th1 profile in the absence of P2RX7. These data demonstrate that P2RX7-mediated metabolic reprograming for aerobic glycolysis is a key event for Th1 cell differentiation and suggest that ATP synthase inhibition is a fundamental mechanism by which P2X7 signaling induces the Th1 response.

Project description:To determine differential metabolic gene expression in distinct cell populations from subcutaneous MC38 tumors at baseline and in response to rapamycin, tumors from mice treated with vehicle or rapamycin were harvested, reconstituted to single cell suspensions, and flow sorted into cancer cell (CD45-), tumor-associated macrophage (TAM, CD45+ CD11b+ Ly6G- Ly6C lo F4/80 hi), monocytic myeloid-derived suppressor cell (M-MDSC, CD45+ CD11b+ Ly6G- Ly6C hi), CD8 T cell (CD45+ CD3+ CD8a+), and CD4 T cell (CD45+ CD3+ CD8a-) populations. RNA was extracted and transcripts were quantified by the NanoString nCounter Metabolic Pathways Panel.