Project description:Compared to proteins, glycans, and lipids, much less is known about RNAs on the cell surface. We developed a series of technologies to test for any nuclear-encoded RNAs that are stably attached to the cell surface and exposed to the extracellular space, hereafter called membrane-associated extracellular RNAs (maxRNAs). We visualized maxRNAs on the cell surface, sequenced selected maxRNAs, and validated two maxRNAs by RNA fluorescence in situ hybridization. To test for cell-type specificity of maxRNA, we used randomized antisense oligos to hybridize to single-stranded transcripts exposed on the surface of human peripheral blood mononuclear cells (PBMCs). Combining this strategy with imaging flow cytometry, single-cell RNA sequencing, and maxRNA sequencing, we identified monocyte as the major type of maxRNA+ PBMCs and prioritized 11 maxRNAs for functional tests. Extracellular hybridization of antisense oligos to the cell surface-exposed fragments of FNDC3B and CTSS transcripts inhibited monocyte adhesion to vascular endothelial cells. Collectively, these data highlight maxRNAs as a functional component of the cell surface, suggesting an expanded role for RNA in cell-cell interaction and communication.

Project description:Compared to proteins, glycans, and lipids, much less is known about RNAs on the cell surface. We developed a series of technologies to test for any nuclear-encoded RNAs that are stably attached to the cell surface and exposed to the extracellular space, hereafter called membrane-associated extracellular RNAs (maxRNAs). We visualized maxRNAs on the cell surface, sequenced selected maxRNAs, and validated two maxRNAs by RNA fluorescence in situ hybridization. To test for cell-type specificity of maxRNA, we used randomized antisense oligos to hybridize to single-stranded transcripts exposed on the surface of human peripheral blood mononuclear cells (PBMCs). Combining this strategy with imaging flow cytometry, single-cell RNA sequencing, and maxRNA sequencing, we identified monocyte as the major type of maxRNA+ PBMCs and prioritized 11 maxRNAs for functional tests. Extracellular hybridization of antisense oligos to the cell surface-exposed fragments of FNDC3B and CTSS transcripts inhibited monocyte adhesion to vascular endothelial cells. Collectively, these data highlight maxRNAs as a functional component of the cell surface, suggesting an expanded role for RNA in cell-cell interaction and communication.

Project description:Purpose: Identify RNA interactome of lncRNA TINCR Methods: Primary melanoma cell lines WM902B and MMC70 lysates hybridized with TINCR antisense DNA oligos Results: we found that TINCR silencing induces activation of translation of ATF4 and other stress responsive RNAs.

Project description:293T cells are transfected with hsa_circ_0001400 expression plasmid vectors for 24 hours. Cells are then incuvated with Psoralen, exposed to long-wave UV for 10 minutes, and total RNA was extracted. Biotynilated DNA oligos sense (control) or antisense of circ_0001400 are added and circRNA-RNA complexes are enriched using streptavidin beads. RNA was cleaned and exposed to short-wave UV and subjected for RNA-Seq.

Project description:Adenine nucleotides represent crucial immunomodulators in the extracellular environment. The ectonucleotidases CD39 and CD73 are responsible for the sequential catabolism of ATP to adenosine via AMP, thereby promoting an anti-inflammatory milieu induced by the “adenosine halo”. AMPD2 intracellularly mediates AMP deamination to IMP, thus constituting an ambiguous mediator both enhancing the degradation of inflammatory ATP and reducing the formation of protective adenosine. Here, we show that this enzyme is expressed on the cell surface of human immune cells and its predominance may[BF1] modify inflammatory states by altering the extracellular milieu. Surface AMPD2 (eAMPD2) expression on monocytes was verified by immunoblot, mass spectrometry, surface biotinylation, and immunofluorescence microscopy. Flow cytometry revealed enhanced monocytic eAMPD2 expression after TLR stimulation. PBMCs from patients with rheumatoid arthritis displayed significantly higher levels of eAMPD2 expression compared to healthy controls. Furthermore, we observed that extracellular adenosine production was not impaired by an enhanced eAMPD2 expression, while IMP exerted anti-inflammatory effects. In summary, our study identifies eAMPD2 as a novel regulator of the extracellular ATP-adenosine balance adding to the immunomodulatory CD39-CD73 system.

Project description:Analysis of the surfaceome of a blood cell subset requires cell sorting, followed by surface protein enrichment. Here, we present a protocol combining magnetically activated cell sorting (MACS) and surface biotinylation of the target cell subset from human peripheral blood mononuclear cells (PBMCs). We describe the steps for isolating target cells and their in-column surface biotinylation, followed by isolation and mass spectrometry analysis of biotinylated proteins. The protocol enables in-column surface biotinylation of specific cell subsets with minimal membrane disruption.

Project description:Monocytes are a critical component of the cellular innate immune system, and can be subdivided into classical, intermediate and non-classical subsets on the basis of surface CD14 and CD16 expression. Classical monocytes play the canonical role of phagocytosis, and account for the majority of circulating cells. Intermediate and non-classical cells are known to exhibit varying levels of phagocytosis and cytokine secretion, and are differentially expanded in certain pathological states. Characterisation of cell surface proteins expressed by each subset is informative not only to improve understanding of phenotype, but also to provide biological insight into function. Here we use highly multiplexed Tandem-Mass-Tag (TMT)-based mass spectrometry with selective cell surface biotinylation to characterise the classical monocyte surface proteome, then interrogate the phenotypic differences between each monocyte subset to identify novel protein markers.

Project description:Helminth parasites secrete extracellular vesicles (EVs) as a means of exporting effector molecules into the host microenvironment. Once released, the parasite-derived EVs are internalised by host immune cells and trigger a range of biological effects including modulation of host immunity. While the molecular cargo of EVs have been characterised in many parasites, little is known about the surface-exposed molecules that may effect ligand-receptor interactions with the target host cell surface that initiate vesicle docking and subsequent internalisation. Here we used a membrane-impermeable biotin reagent to capture proteins displayed on the outer membrane surface of adult F. hepatica EVs and mass spectrometry to identified the surface proteins.

Project description:RNA sequencing (RNA-seq) has become a standard method for quantifying gene expression transcriptome-wide. Due to the extremely high proportion of ribosomal RNA (rRNA) in total RNA, sequencing libraries usually incorporate messenger RNA (mRNA) enrichment. Although polyadenylate (poly(A)) tail selection is widely used, many applications require alternate approaches such as rRNA depletion. Recently, selective rRNA digestion, using RNaseH and antisense DNA oligomers that tile the length of target RNAs, has emerged as an easy, cost-effective alternative to commercial rRNA depletion kits. Here, we present a streamlined RNaseH-mediated rRNA depletion method that uses shorter antisense oligos that only sparsely tile the target RNA, in a digestion reaction of only 5 minutes. We wrote a Web tool, Oligo-ASST, that simplifies oligo design to favor target regions with optimal thermodynamic properties, and additionally allows users to design common oligo pools that can simultaneously target divergent RNAs in their regions of higher sequence similarity. We demonstrate the efficacy of these oligos by building rRNA-depleted sequencing libraries for Xenopus laevis as well as zebrafish, which expresses two distinct versions of the 28S, 18S, 5.8S, and 5S rRNAs during embryogenesis. These libraries efficiently deplete rRNA to <5% of total reads, on par with poly(A) selection, and also reveal expression of many non-adenylated RNA species. Oligo-ASST is freely available at https://mtleelab.pitt.edu/oligo to design antisense oligos for any taxon or to target any abundant RNA for depletion.

Project description:Here, we present a simple and robust N-linked glycoproteome enrichment protocol optimized for deep coverage of the plasma membrane proteome. The procedure was applied to characterize the cell surface proteome of 15 standard laboratory human cell lines and three primary cell types. We observed significant differences in receptor diversity and transporter abundances between primary cells and corresponding cell lines. Relative quantification using isobaric mass tagging enabled quantitative monitoring of dynamic processes on the cell surface in multiplexed experiments. We for the first time report a comprehensive analysis of the profound remodeling of the plasma membrane proteome during monocyte to macrophage differentiation of THP-1 cells. Treatment of these cells with the kinase inhibitor dasatinib (Sprycel) during differentiation severely compromised macrophage differentiation due to an off-target activity resulting in substantial morphological and functional changes and the loss of many macrophage-associated proteins.