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EasySep? Mouse TIL (CD45) Positive Selection Kit

Immunomagnetic positive selection of mouse CD45+ TILs

EasySep? Mouse TIL (CD45) Positive Selection Kit

Immunomagnetic positive selection of mouse CD45+ TILs

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Immunomagnetic positive selection of mouse CD45+ TILs
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Product Advantages


  • Fast, easy to use, and column-free

  • Optimized for tumors and tissue samples with a low CD45 start frequency

  • Flexible protocols for higher purity or recovery

What's Included

  • EasySep? Mouse TIL (CD45) Positive Selection Cocktail Component A, 0.25 mL
  • EasySep? Mouse TIL (CD45) Positive Selection Cocktail Component B, 0.25 mL
  • EasySep? Mouse TIL (CD45) Positive Selection Cocktail Component C, 1.5 mL
  • EasySep? Dextran RapidSpheres? 50100, 2 x 1 mL
Products for Your Protocol
To see all required products for your protocol, please consult the Protocols and Documentation.

Overview

Easily isolate highly purified mouse CD45+ tumor-infiltrating leukocytes (TILs) by immunomagnetic positive selection using the EasySep? Mouse TIL (CD45) Positive Selection Kit. This kit has been optimized for use on single-cell suspensions of solid mouse tumors, including tumors induced by implantation of 4T1, B16-F10, and CT26.WT cell lines into syngeneic mice. Due to the heterogeneity of mouse tumors, this kit may require optimization. Widely used in published research for more than 20 years, EasySep? combines the specificity of monoclonal antibodies with the simplicity of a column-free magnetic system.

In this EasySep? positive selection procedure, desired cells are labeled with antibody complexes recognizing CD45 and magnetic particles. Labeled cells are separated using an EasySep? magnet and by simply pouring or pipetting off the unwanted cells. The cells of interest remain in the tube. Following magnetic cell isolation, the desired CD45+ TILs are ready for downstream applications such as flow cytometry, culture, and cell-based experiments.

Learn more about how immunomagnetic EasySep? technology works. Explore additional products optimized for your workflow, including culture media, supplements, antibodies, and more.
Magnet Compatibility
? EasySep? Magnet (Catalog #18000)
? “The Big Easy” EasySep? Magnet (Catalog #18001)
? EasyEights? EasySep? Magnet (Catalog #18103)
Subtype
Cell Isolation Kits
Cell Type
Leukocytes
Species
Mouse
Sample Source
Other, Tumor
Selection Method
Positive
Application
Cell Isolation
Brand
EasySep
Area of Interest
Cancer, Immunology

Data Figures

Using the EasySep™ Mouse TIL (CD45) Positive Selection Kit, the CD45+ TIL purities of the start and final isolated fractions are 14.8% and 95.2%, respectively for B16-F10 tumor single-cell suspension, 37.6% and 93.0%, respectively for 4T1 tumor single-cell suspension, and 32.3% and 84.6%, respectively for CT26.WT tumor single-cell suspension. Using the EasySep™ Mouse TIL (CD45) Positive Selection Kit, the CD45+ TIL purities of the start and final isolated fractions are 14.8% and 95.2%, respectively for B16-F10 tumor single-cell suspension, 37.6% and 93.0%, respectively for 4T1 tumor single-cell suspension, and 32.3% and 84.6%, respectively for CT26.WT tumor single-cell suspension. Using the EasySep™ Mouse TIL (CD45) Positive Selection Kit, the CD45+ TIL purities of the start and final isolated fractions are 14.8% and 95.2%, respectively for B16-F10 tumor single-cell suspension, 37.6% and 93.0%, respectively for 4T1 tumor single-cell suspension, and 32.3% and 84.6%, respectively for CT26.WT tumor single-cell suspension.

Figure 1. Typical EasySep™ Mouse TIL (CD45) Cell Isolation Profile

Tumors were induced by B16-F10, 4T1, or CT26.WT cell lines and dissociated into single-cell suspensions. CD45+ TILs were isolated from single-cell suspensions at various start concentrations using the purple EasySep™ Magnet.

(A) Starting with a B16-F10 tumor single-cell suspension at 1 x 10? cells/mL, the purities of the start and final isolated fractions are 14.8% and 95.2%, respectively.

(B) Starting with a 4T1 tumor single-cell suspension at 4 x 10? cells/mL, the purities of the start and final isolated fractions are 37.6% and 93.0%, respectively.

(C) Starting with a CT26.WT tumor single-cell suspension at 2.5 x 10? cells/mL, the purities of the start and final isolated fractions are 32.3% and 84.6%, respectively.

Protocols and Documentation

Find supporting information and directions for use in the Product Information Sheet or explore additional protocols below.

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100-0350
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All
Language
English
Document Type
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100-0350
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English
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100-0350
Lot #
All
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English
Document Type
Product Name
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100-0350
Lot #
All
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English
Document Type
Product Name
Catalog #
100-0350
Lot #
All
Language
English

Applications

This product is designed for use in the following research area(s) as part of the highlighted workflow stage(s). Explore these workflows to learn more about the other products we offer to support each research area.

Resources and Publications

Publications (3)

Multifunctional HBc Virus-Like Particles Reprogram Immunosuppressive Macrophages and Potentiate CD8+ T Cell Responses for Enhanced Cancer Immunotherapy S. Liang et al. International Journal of Nanomedicine 2025 Oct

Abstract

IntroductionTumor-associated macrophages (TAMs) promote immunosuppression, hindering immune checkpoint blockade and immunotherapy efficacy. To overcome this, we developed a novel multifunctional nanovaccine based on hepatitis B core virus-like particles (HBc VLP) to synergistically remodel the immunosuppressive tumor microenvironment through integrated TAM reprogramming and B7-H3 checkpoint blockade.MethodsThe core VLP co-displayed tumor antigen peptide MAGE-A10 and TAM-targeting peptide M2pep via fusion expression. Immunostimulatory CpG oligodeoxynucleotide 1826 (CpG) was encapsulated within VLP. Anti-B7-H3 antibody (αB7-H3) and polyethylene glycol (PEG) were chemically conjugated to the surface for checkpoint blockade and prolonged circulation, forming CpG@VLP-αB7-H3-PEG.ResultsStructural characterization using transmission electron microscopy and dynamic light scattering confirmed the hollow spherical self-assembly of VLP. Nanovaccines efficiently targeted TAMs in vitro and in vivo. Following CpG encapsulation (5.60 ?g/mg), the nanovaccine reprogrammed M2-like TAMs into an M1-like phenotype. This was achieved by elevating the M1/M2 ratios of CD86/CD206 and MHC II/CD206 to 15.50-fold and 3.11-fold, respectively, as determined by flow cytometry. Further conjugation of αB7-H3 (250 ?g/mg) significantly enhanced T-cell activation in TAM-T cell co-culture assays. In B16-F10 melanoma-bearing mice, reprogrammed iNOS+ M1-like macrophages triggered robust antitumor immunity, achieving a tumor inhibition rate of 63.47%. These macrophages also function as antigen-presenting cells and increase the proportion of tumor-infiltrating Granzyme B+CD8+ T cells. αB7-H3 conjugation further boosted infiltrating immune cells, M1-like macrophages, activated CD69+CD4+/CD8+ T cells, and cytotoxic T lymphocytes. PEGylation amplified systemic tumor-specific immunity and increased tumor inhibition by 80.12%.ConclusionThis HBc VLP-based nanovaccine constitutes a pioneering multifunctional platform designed to overcome TAM-mediated immunosuppression through synergistic integration of three modalities: antigen presentation, TAM phenotype reprogramming, and B7-H3 checkpoint blockade. To the best of our knowledge, this is the first nanovaccine architecture to enable coordinated immunomodulation. Its modular design supports the clinical translation of solid tumors and personalized immunotherapy. Graphical Abstract
S-adenosylmethionine metabolism shapes CD8+ T cell functions in colorectal cancer Cancer & Metabolism 2025 May

Abstract

Metabolite nutrients within the tumor microenvironment shape both tumor progression and immune cell functionality. It remains elusive how the metabolic interaction between T cells and tumor cells results in different anti-cancer immunotherapeutic responses. Here, we use untargeted metabolomics to investigate the metabolic heterogeneity in patients with colorectal cancer (CRC). Our analysis reveals enhanced S-adenosylmethionine (SAM) and S-adenosylhomocysteine (SAH) metabolism in microsatellite stable (MSS) CRC, a subtype known for its resistance to immunotherapy. Functional studies reveal that SAM and SAH enhance the initial activation and effector functions of CD8+ T cells. Instead, cancer cells outcompete CD8+ T cells for SAM and SAH availability to impair T cell survival. In vivo, SAM supplementation promotes T cell proliferation and reduces exhaustion of the tumor-infiltrating CD8+ T cells, thus suppressing tumor growth in tumor-bearing mice. This study uncovers the metabolic crosstalk between T cells and tumor cells, which drives the development of tumors resistant to immunotherapy.Supplementary InformationThe online version contains supplementary material available at 10.1186/s40170-025-00394-2.
Network-based screening identifies sitagliptin as an antitumor drug targeting dendritic cells Journal for Immunotherapy of Cancer 2024 Mar

Abstract

BackgroundDendritic cell (DC)-mediated antigen presentation is essential for the priming and activation of tumor-specific T cells. However, few drugs that specifically manipulate DC functions are available. The identification of drugs targeting DC holds great promise for cancer immunotherapy.MethodsWe observed that type 1 conventional DCs (cDC1s) initiated a distinct transcriptional program during antigen presentation. We used a network-based approach to screen for cDC1-targeting therapeutics. The antitumor potency and underlying mechanisms of the candidate drug were investigated in vitro and in vivo.ResultsSitagliptin, an oral gliptin widely used for type 2 diabetes, was identified as a drug that targets DCs. In mouse models, sitagliptin inhibited tumor growth by enhancing cDC1-mediated antigen presentation, leading to better T-cell activation. Mechanistically, inhibition of dipeptidyl peptidase 4 (DPP4) by sitagliptin prevented the truncation and degradation of chemokines/cytokines that are important for DC activation. Sitagliptin enhanced cancer immunotherapy by facilitating the priming of antigen-specific T cells by DCs. In humans, the use of sitagliptin correlated with a lower risk of tumor recurrence in patients with colorectal cancer undergoing curative surgery.ConclusionsOur findings indicate that sitagliptin-mediated DPP4 inhibition promotes antitumor immune response by augmenting cDC1 functions. These data suggest that sitagliptin can be repurposed as an antitumor drug targeting DC, which provides a potential strategy for cancer immunotherapy.