Gene Expression Profiling of Lymph Node Sub-Capsular Sinus Macrophages in Cancer

Gene Expression Profiling of Lymph Node Sub-Capsular Sinus Macrophages in Cancer

ORIGINAL RESEARCH published: 08 June 2021 doi: 10.3389/fimmu.2021.672123 Gene Expression Profiling of Lymph Node Sub-Capsular Sinus Macrophages in Cancer † † Danilo Pellin 1 , Natalie Claudio 2,3 , Zihan Guo 2,4, Tahereh Ziglari 2 and Ferdinando Pucci 2,3* 1 Gene Therapy Program, Dana-Farber/Boston Children’s Cancer and Blood Disorders Center, Harvard Medical School, Boston, MA, United States, 2 Department of Otolaryngology – Head and Neck Surgery, Oregon Health and Science University, Portland, OR, United States, 3 Department of Cell, Developmental & Cancer Biology, Oregon Health and Science University, Portland, OR, United States, 4 Program in Cancer Biology, Oregon Health and Science University, Portland, OR, United States Lymph nodes are key lymphoid organs collecting lymph fluid and migratory cells from the tissue area they survey. When cancerous cells arise within a tissue, the sentinel lymph node is the first immunological organ to mount an immune response. Sub-capsular sinus Edited by: Karine Rachel Prudent Breckpot, macrophages (SSMs) are specialized macrophages residing in the lymph nodes that play Vrije University Brussel, Belgium important roles as gatekeepers against particulate antigenic material. In the context of Reviewed by: cancer, SSMs capture tumor-derived extracellular vesicles (tEVs), a form of particulate Ioannis S. Pateras, National and Kapodistrian University of antigen released in high amounts by tumor cells. We and others have recently Athens, Greece demonstrated that SSMs possess anti-tumor activity because in their absence tumors Antonio Giovanni Solimando, progress faster. A comprehensive profiling of SSMs represents an important first step to University of Bari Aldo Moro, Italy Rohit Singh, identify the cellular and molecular mechanisms responsible for SSM anti-tumor activity. National Cancer Center, South Korea Unfortunately, the isolation of SSMs for molecular analyses is very challenging. Here, we *Correspondence: combined an optimized dissociation protocol, careful marker selection and stringent Ferdinando Pucci [email protected] gating strategies to highly purify SSMs. We provide evidence of decreased T and B cell fi †These authors have contributed contamination, which allowed us to reveal the gene expression pro le of this elusive equally to this work macrophage subset. Squamous cell carcinomas induced an increase in the expression of Fc receptors, lysosomal and proteasomal enzymes in SSMs. Imaging of mouse and Specialty section: patient lymph nodes confirmed the presence of the top differentially expressed genes. This article was submitted to Cancer Immunity and These results suggest that SSMs respond to tumor formation by upregulating the Immunotherapy, machinery necessary for presentation of tumor particulate antigens to B cells. a section of the journal Frontiers in Immunology Keywords: cancer, lymph nodes, macrophages, gene expression, immune system, Fc receptors Received: 25 February 2021 Accepted: 19 May 2021 Published: 08 June 2021 INTRODUCTION Citation: Pellin D, Claudio N, Guo Z, Ziglari T Lymph nodes are secondary lymphoid organs collecting lymph fluid and migratory cells from the and Pucci F (2021) Gene Expression fi tissue area they survey. When carcinogenic insults hit cells within a tissue, its sentinel lymph node is Pro ling of Lymph Node Sub-Capsular fi Sinus Macrophages in Cancer. arguably the rst immune organ to detect the accident and to elaborate an immune response. Front. Immunol. 12:672123. Within lymph nodes, immune cells are highly organized into different anatomical compartments, doi: 10.3389/fimmu.2021.672123 and such architecture underlies its function (1). Afferent lymphatic vessels deliver lymph-bound Frontiers in Immunology | www.frontiersin.org 1 June 2021 | Volume 12 | Article 672123 Pellin et al. Lymph Node Macrophage Profiling antigens and migratory cells into the lymph node sub-capsular METHODS sinus. Here, a mesh of cells, mainly macrophages, dendritic cells and lymphatic endothelial cells, filter lymph-bound antigens Tumor Models according to their size. Small, soluble antigens seep through The chemically-induced squamous cell carcinoma model MOC2 lymphatic conduits and are channeled toward lymph node was purchased from Kerafast. For tumor formation, 5•105 cells in resident dendritic cells in the paracortical region. On the other 50ul of PBS were implanted in the flank of C57B/6 male mice hand, large and particulate antigens (>5nm in hydrodynamic (Charles River Labs) intradermally, near the inguinal lymph radius) are retained by sub-capsular sinus macrophages (SSMs) node, as previously described (8). After 2 weeks, we selected (2, 3). These specialized macrophages play important roles as mice with similar tumor size for tdLN and ndLN collection. All gatekeepers against invading pathogens and in relaying immune procedures were in accordance with OHSU IACUC. complexed antigens to B cells for deposition on follicular dendritic cells (4–7). In the context of cancer, SSMs capture Enzymatic Dissociation of Lymph Nodes tumor-derived extracellular vesicles (tEVs), a form of particulate LNs from 2 different mice were pooled: 2 tdLN and 6 ndLN fl antigen released in high amounts by tumor cells and over owing (contralateral inguinal, axillary, brachial). Dissociation buffer into sentinel lymph nodes very early during disease was prepared by dissolving 3mg/ml of Collagenase IV progression (8). (Worthington), 0.1 U/ml of DNase I (Roche), 2% FBS, pen/ We have recently demonstrated that SSMs possess anti-tumor strep and L-glutamine in IMDM. Whole LNs were incubated in activity because in their absence tumors grow faster (8). These 5ml of dissociation buffer at 37°C and 225rpm agitation. After 15 fi observations have been con rmed in additional tumor types (9, 10). minutes, LNs were mechanically dissociated by passing them However, the cellular and molecular mechanisms responsible for through an 18G needle syringe at 2ml/second (LNs burst SSM anti-tumor activity are still unknown. In our studies, we immediately) and put back at 37°C in same dissociation buffer, unveiled a link between tEVs, SSMs and immunoglobulins. By at 225rpm agitation. After 15 more minutes, the LN cell capturing tEVs, SSMs prevented extensive tEV-B cell interactions, suspensions were mechanically dissociated by passing them which were required for tumor promotion. Accordingly, increases through an 27G needle syringe at 0.5ml/second for 10 times. in lymph node plasma cells and immunoglobulin binding to tEVs The LN cell suspension was then filtered on a 100um cell strainer ’ was observed. Still, many details about SSMs contribution to the and washed in 50ml of MACS buffer (2mM EDTA, 2.5% BSA in generation of humoral immune responses against tumor antigens PBS). All centrifugation steps were performed at 500g for 10 are missing. How do SSMs capture tEVs? Which signals SSMs minutes and supernatants were checked at the microscope for release after capturing tEVs? How do they process tEV-bound absence of cells. If significant cell numbers were observed fi antigens? A comprehensive pro ling of SSMs represents an (>0.1•106/ml), supernatants were diluted 1:1 in MACS buffer fi important rst step to answer the above questions and to start and centrifuged again. LN cells were resuspended at ~108/ml for elucidating their anti-tumor activity and their contributions to staining (~1.5ml) in MACS buffer. humoral immune responses in cancer. The isolation of SSMs for molecular analyses is very challenging. Likely due to theirroleaslymphnode Flow Sorting and RNA Extraction gatekeepers, SSMs are highly dendritic in shape and constantly All antibodies (and Fc Block) were from Biolegend, and were extend and retract pseudopods, likely to survey the sub-capsular used at 2ul per 100ul of cell suspension, with the exception of space (unpublished live imaging observations). These sub- CD45-PC7 and Ly6G-PE, which were used at 1ul per 100ul of cellular structures can break apart during conventional cell suspension. Single stain controls were made by pooling a enzymatic and/or mechanical dissociation of lymph node small amount from all samples. Flow sorting was done on a BD tissues, a required step to prepare the samples for flow Aria and recovered ~10,000 LN macrophages from each group. cytometric analyses and isolation. Consequently, gating LN macrophages were then pelleted and lysed in RLT with B- strategies that identify SSMs based on surface markers alone mercapto-ethanol for RNA extraction (RNeasy micro kit), with can lead to a group of flow cytometric events with odd scatter on column DNAse treatment. characteristics. In addition, these SSM-derived blebs can end up sticking to other cells, mainly lymphocytes (11). Indeed, initial RNA Sequencing attempts to profile SSMs (4) showed a relatively high T and B cell RNA integrity was determined using the 2100 Bioanalyzer contamination. Improved protocols for minimizing SSMs break (Agilent). RNA was converted to cDNA with the SMART-Seq down and decrease lymphocyte contamination are thus urgently v4 Ultra Low Input RNA kit (Takara) and converted into needed to elucidate the biology of these anti-tumor immune cells. sequencing libraries using the DNA Nano Kit (Illumina). Here, we combined an optimized dissociation protocol, Libraries were profiled on the 4200 TapeStation (Agilent) and careful marker selection and stringent gating strategies to quantified using the Kapa Library Quantification Kit (Roche) on highly purify bona-fide intact SSMs. We provide evidence of a StepOnePlus Real Time PCR Workstation

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