Project description:Age-related decline in brain endothelial cell (BEC) function critically contributes to cerebrovascular and neurodegenerative disease. Comprehensive atlases of the BEC transcriptome have become available but results from proteomic profiling are lacking. To gain insights into endothelial pathways affected by aging, we developed a magnetic-activated cell sorting (MACS)-based mouse BEC enrichment protocol compatible with high-resolution mass-spectrometry and analysed the profiles of protein abundance changes across multiple time points between 3 and 18 months of age and identified Arf6 as one of the most prominently downregulated vesicle-mediated transport protein during BEC aging. To better understand the role of Arf6 in BECs, in this experiment we have compared MACS sorted BECs from Arf6-KO and WT 3-months-old mice and found 140 and 172 proteins to be significantly down- and upregulated, respectively. Enrichment analyses of significantly downregulated proteins showed mRNA processing to be among the most affected biological processes consistent with our findings on the aged BEC proteome.

Project description:Age-related decline in brain endothelial cell (BEC) function critically contributes to cerebrovascular and neurodegenerative disease. Comprehensive atlases of the BEC transcriptome have become available but results from proteomic profiling are lacking. To gain insights into endothelial pathways affected by aging, we developed a magnetic-activated cell sorting (MACS)-based mouse BEC enrichment protocol compatible with high-resolution mass-spectrometry based proteomics. In this experiment, first we have compared MACS sorted BECs across multiple time points between 3 and 18 months of age. Using unsupervised cluster analysis, we found a segregation of age-related protein dynamics with biological functions including a downregulation of vesicle-mediated transport. Our approach uncovered changes not picked up by transcriptomic studies such as accumulation of vesicle cargo and receptor ligands including Apoe. Therefor in our next proteomics experiment we compared BECs from 3-months-old Apoe-KO and WT mice and found 111 and 103 proteins to be up- and downregulated, respectively. Comparing the BEC proteomic signature of young Apoe-KO mice with the signature of aged (18-months-old) WT mice we found a positive correlation suggesting an accelerating effect of Apoe deficiency on BEC aging.

Project description:Age-related decline in brain endothelial cell (BEC) function critically contributes to cerebrovascular and neurodegenerative disease. Comprehensive atlases of the BEC transcriptome have become available but results from proteomic profiling are lacking. To gain insights into endothelial pathways affected by aging, we developed a magnetic-activated cell sorting (MACS)-based mouse BEC enrichment protocol compatible with high-resolution mass-spectrometry based proteomics. In this experiment, we have compared MACS sorted BEC and full brain tissue a massive enrichment of endothelial markers including Nos3, Cdh5, and Pecam1 in BECs compared to FT.

Project description:Age-related decline in brain endothelial cell (BEC) function critically contributes to cerebrovascular and neurodegenerative disease. Comprehensive atlases of the BEC transcriptome have become available but results from proteomic profiling are lacking. To gain insights into endothelial pathways affected by aging, we developed a magnetic-activated cell sorting (MACS)-based mouse BEC enrichment protocol compatible with high-resolution mass-spectrometry and analysed the profiles of protein abundance changes across multiple time points between 3 and 18 months of age and identified Arf6 as one of the most prominently downregulated vesicle-mediated transport protein during BEC aging. To understand the role of ARF6 in human ECs, first we compared GFP-AAV treated human iECs differentiated from ARF6-KO vs WT iPSCs, next we compared ARF6-GFP-AAV vs GFP-AAV treated iECs differentiated from WT iPSCs. During the ARF6-KO vs WT iEC comparison we found 983 vs 741 proteins significantly down- and upregulated, respectively. Enrichment analyses of significantly downregulated proteins revealed mRNA processing among the most significantly affected biological processes. During the ARF6-GFP-AAV vs GFP-AAV treated WT iEC comparison we found 1106 vs 1218 proteins significantly down- and upregulated, respectively. Enrichment analyses of significantly upregulated proteins revealed endocytic recycling, retrograde transport (endosome to Golgi), and ER-Golgi vesicle-mediated transport among the most significantly affected biological processes. Specifically, ARF6 and its binding-protein GGA2, DNM1L and several subunits of the Conserved oligomeric Golgi complex (COG) were upregulated. Our approach uncovered changes not picked up by transcriptomic studies such as accumulation of vesicle cargo and receptor ligands including Apoe, a major regulator of brain lipid metabolism. Proteomic analysis of BECs from Apoe deficient mice revealed a signature of accelerated aging. To explore the role of APOE in human endothelial cells, in this experiment we compared human iECs differentiated from APOE-KO and WT iPSCs and found 326 significantly altered proteins. Enrichment analyses of significantly downregulated proteins revealed vesicle-mediated transport and vesicle fusion to be among the most significantly affected biological processes. Specifically, among the 34 significantly altered vesicle-mediated transport proteins 26 were downregulated. Accordingly, we found reduced levels of endocytosis of FM1-43FX in newly formed vesicles in APOE-KO iECs.

Project description:Heterogeneity of lung tumor endothelial cell (TEC) phenotypes across patients, species (human/mouse) and models (in vivo/vitro) remains poorly inventoried at the single-cell-level. We single-cell RNA-sequenced 56,771 ECs from human/mouse (peri)-tumoral lung and cultured human lung TECs, detected 17 known and discovered 16 novel phenotypes, including TECs presumably regulating immune surveillance. We resolved the canonical tip TECs into a known migratory tip and a novel basement-membrane remodeling breach phenotype. Tip-TEC signatures correlated with patient-survival, and tip/breach TECs were most sensitive to VEGF-blockade. By similarity analysis, only tip-TECs were congruent across species/models and shared conserved markers. Integrated analysis of the scRNA-seq data with orthogonal multi-omics and meta-analysis data across different human tumors, validated by functional analysis, identified collagen-modification as angiogenic candidate pathway.

Project description:Lymphatic endothelial cells (LEC) residing in lymph nodes (LN) have been shown to express genes normally restricted to one or a few tissues, termed peripheral tissue antigens (PTA). The expression of one of these PTA, tyrosinase, by LN-resident LEC has been shown to mediate peripheral T cell tolerance. We used a microarray approach to determine the gene expression profile of LN-resident LEC and blood endothelial cells as a comparison with the objective of determining the global PTA repertoire in these LN stromal populations. Skin draining and mesenteric lymph nodes were pooled from 6 week old adult C57BL/6 mice, minced, and enzymatically digested yielding single cell suspensions. Lymph node stromal cells were purified via CD45 magnetic bead negative selection and pure populations of lymphatic endothelial cells (LEC) and blood endothelial cells (BEC) were obtained via electronic cell sorting according to their expression of gp38 and CD31 (LEC: gp38+ CD31+, BEC: gp38- CD31+). Total RNA was extracted, amplified, and hybridized to Affymetrix microarrays. 3 paired independent samples of purified lymph node LEC and BEC were analyzed.

Project description:Heterogeneity of lung tumor endothelial cell (TEC) phenotypes across patients, species (human/mouse) and models (in vivo/vitro) remains poorly inventoried at the single-cell-level. We single-cell RNA-sequenced 56,771 ECs from human/mouse (peri)-tumoral lung and cultured human lung TECs, detected 17 known and discovered 16 novel phenotypes, including TECs presumably regulating immune surveillance. We resolved the canonical tip TECs into a known migratory tip and a novel basement-membrane remodeling breach phenotype. Tip-TEC signatures correlated with patient-survival, and tip/breach TECs were most sensitive to VEGF-blockade. By similarity analysis, only tip-TECs were congruent across species/models and shared conserved markers. Integrated analysis of the scRNA-seq data with orthogonal multi-omics and meta-analysis data across different human tumors, validated by functional analysis, identified collagen-modification as angiogenic candidate pathway.

Project description:comparative study reticulocytes vs mature red blood cell

Project description:Preclinical studies of primary cancer cells are always done after tumors are removed from patients or animals at ambient atmospheric oxygen (O2, ~21%). However, O2 concentrations in organs are in the ~3-10% range, with most tumors in an hypoxic or 1-2% O2 environment in vivo. Although effects of O2 tension on tumor cell characteristics in vitro have been studied, these studies are done only after tumors are first collected and processed in ambient air. Similarly, sensitivity of primary cancer cells to anti-cancer agents is routinely examined at ambient O2. Here, using both mouse models and human cancers, we demonstrate that tumors collected, processed and propagated at physiologic (physioxia) O2 compared to ambient air display very distinct differences in key signaling networks including Lgr5/Wnt, Yap, and Nrf2/Keap1, nuclear reactive oxygen species levels, alternative splicing, and sensitivity to several targeted therapies including PIK3CAalpha-specific and EGFR inhibitors. Significance: Extra-physiologic oxygen shock/stress (EPHOSS), as noted in cells collected/processed under ambient air, has been demonstrated to have significant impact on numbers and engrafting ability of hematopoietic stem cells. We report deleterious effects of EPHOSS on cancer cell behavior and EPHOSS-mediated effects on cancer cells give misleading information on signaling pathway activation that could severely impact the relevance of these findings. Cancer cells under EPHOSS show higher proliferation rate compared to cells under physioxia and thus are sensitive to anti-proliferative agents. Thus, drugs that show effectiveness on cancer cells collected in ambient air and subjected to EPHOSS may not be effective or as relevant in vivo, results that could partially explain the limited clinical translation of laboratory findings. Evaluating cell signaling and effects of drugs on cancer cells under physiologic O2 prior to in vivo studies could substantially reduce cost and aid in drug discovery relevant to the actual physioxia/pathological status of the tumor cells in vivo.

Project description:This SuperSeries is composed of the SubSeries listed below. Refer to individual Series