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EasySep? Mouse CD4+CD25+ Regulatory T Cell Isolation Kit II

Immunomagnetic positive isolation of mouse CD4+CD25+ Tregs

Before performing cell isolation using EasySep?, consult the product information sheet (PIS) to determine whether red blood cell (RBC) lysis is required for your sample type. RBC lysis should only be performed if indicated in the PIS. It is often recommended for blood samples; however, RBC lysis is not recommended for mouse splenocytes as it may reduce cell recovery. For the most accurate cell recovery calculation, we recommend performing total nucleated cell (TNC) count.

See How to Calculate Cell Recovery & Measure Purity After Cell Isolation >

EasySep? Mouse CD4+CD25+ Regulatory T Cell Isolation Kit II

Immunomagnetic positive isolation of mouse CD4+CD25+ Tregs

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Immunomagnetic positive isolation of mouse CD4+CD25+ Tregs
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Product Advantages


  • Fast and easy-to-use

  • Up to 93% purity

  • No columns required

What's Included

  • EasySep? Mouse CD4+CD25+ Regulatory T Cell Isolation Kit II (Catalog #18783)
    • EasySep? Mouse CD4+ T Cell Isolation Cocktail, 0.5 mL
    • EasySep? Streptavidin RapidSpheres? 50001, 1 mL
    • EasySep? Mouse CD25 Regulatory T Cell Positive Selection Cocktail, 0.5 mL
    • EasySep? PE Selection Cocktail, 1 mL
    • EasySep? Dextran RapidSpheres? 50100, 1 mL
    • EasySep? Mouse FcR Blocker (Catalog #18731), 0.5 mL
  • RoboSep? Mouse CD4+CD25+ Regulatory T Cell Isolation Kit II (Catalog #18783RF)
    • EasySep? Mouse CD4+ T Cell Isolation Cocktail, 0.5 mL
    • EasySep? Streptavidin RapidSpheres? 50001, 1 mL
    • EasySep? Mouse CD25 Regulatory T Cell Positive Selection Cocktail, 0.5 mL
    • EasySep? PE Selection Cocktail, 1 mL
    • EasySep? Dextran RapidSpheres? 50100, 1 mL
    • EasySep? Mouse FcR Blocker (Catalog #18731), 0.5 mL
    • RoboSep? Buffer (Catalog #20104)
    • RoboSep? Filter Tips (Catalog #20125)
Products for Your Protocol
To see all required products for your protocol, please consult the Protocols and Documentation.

Overview

Isolate highly purified mouse CD4+CD25+ regulatory T cells (Tregs) from mouse splenocytes or other single-cell suspension samples with ease, using a simple, two-step procedure of immunomagnetic negative selection followed by positive selection with the EasySep? Mouse CD4+CD25+ Regulatory T Cell Isolation Kit II. 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? cell isolation procedure, CD4+ T cells are first enriched by negative selection using the EasySep? Mouse CD4+ T Cell Isolation Cocktail. CD25+ cells are then positively selected from the pre-enriched cells using EasySep? Mouse CD25 Regulatory T Cell Positive Selection Cocktail. Following magnetic cell isolation, the desired CD4+CD25+ Tregs are ready for downstream applications such as flow cytometry, culture, DNA/RNA extraction.

Learn more about how immunomagnetic EasySep? technology works or how to fully automate immunomagnetic cell isolation with RoboSep?. 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? Magnet (Catalog #18103)
? RoboSep?-S (Catalog #21000)
Subtype
Cell Isolation Kits
Cell Type
T Cells, T Cells, Regulatory
Species
Mouse
Sample Source
Spleen
Brand
EasySep, RoboSep
Area of Interest
Immunology

Data Figures

FACS Histogram Results with EasySep™ Mouse CD4+CD25+ Regulatory T Cell Isolation Kit II

Figure 1. Typical EasySep™ Mouse CD4+CD25+ Regulatory T Cell Isolation Profile

Starting with mouse splenocytes, the regulatory T cell content (CD4+CD25+FOXP3+) of the isolated fraction typically ranges from 70 - 93%. In the above example, the purities of the start and final isolated fractions are 2% and 72%, 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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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

Frequently Asked Questions

Can EasySep™ Streptavidin RapidSpheres™ be used for either positive or negative selection?

Currently, EasySep™ Streptavidin RapidSphere™ kits are only available for negative selection and work by targeting and removing unwanted cells.

How does the separation work?

Streptavidin RapidSphere™ magnetic particles are crosslinked to unwanted cells using biotinylated antibodies. When placed in the EasySep™ Magnet, labeled cells migrate to the wall of the tube. The unlabeled cells are then poured off into a new tube.

Which columns do I use?

The EasySep™ procedure is column-free. That's right - no columns!

How can I analyze the purity of my enriched sample?

The Product Information Sheet provided with each EasySep™ kit contains detailed staining information.

Can EasySep™ Streptavidin RapidSphere™ separations be automated?

Yes. RoboSep™, the fully automated cell separator, automates all EasySep™ labeling and cell separation steps.

Are cells isolated using EasySep™ RapidSphere™ products FACS-compatible?

Yes. Desired cells are unlabeled and ready to use in downstream applications, such as FACS analysis.

Can I alter the separation time in the magnet?

Yes; however, this may impact the kit's performance. The provided EasySep™ protocols have already been optimized to balance purity, recovery and time spent on the isolation.

Publications (13)

Regulatory T-cell sensing of extracellular ATP via P2RX7 promotes their accumulation and suppression and drives lung tumor growth I. Santiago-Carvalho et al. Cancer immunology research 2026 Jan

Abstract

Lung cancer is the leading cause of cancer-related deaths worldwide and, despite advances in treatment, immune suppression remains an obstacle to effective therapy. Effector CD4+ T cells (CD4+ Teffs) are critical for antitumor immunity, but their function is often inhibited by regulatory T cells (Tregs), which accumulate in lung tumors and mediate suppressive functions through multiple mechanisms. This suppression leads to tumor progression and poor patient outcomes. However, the mechanisms underlying Treg-mediated suppression are not fully understood. Herein, we identify the extracellular ATP receptor P2RX7 as a key regulator of Treg function in lung tumors. In a murine lung cancer model induced by Lewis lung carcinoma cells, we found that P2RX7 enhanced the suppressive capacity of tumor-infiltrating Tregs, promoting tumor growth. In T cell–specific P2RX7-KO mice, reduced Treg infiltration was accompanied by increased CD4+ Teff accumulation and improved tumor control. Treg-specific P2RX7-KO mice exhibited reduced tumor growth, confirming a Treg-intrinsic role of P2RX7. Suppression assays revealed that tumor-infiltrating wild-type Tregs had greater suppressive activity compared to P2RX7-KO Tregs, which failed to inhibit type 1 and Tfh-like responses. This was associated with increased tumor-specific IgG production by lung B cells in P2RX7-KO mice. We also observed that wild-type Tregs expressed higher levels of the immunosuppressive molecule CTLA-4 when compared to P2RX7-KO Tregs. Thus, we conclude that P2RX7 expression on Tregs is essential for their suppressive function in lung cancer and targeting of P2RX7 may constitute a strategy to improve lung cancer treatment by alleviating Treg-mediated immune suppression.
MOG-specific CAR Tregs: a novel approach to treat multiple sclerosis J. Frikeche et al. Journal of Neuroinflammation 2024 Oct

Abstract

Multiple sclerosis (MS) is an autoimmune disease affecting the central nervous system (CNS) with the immune system attacking myelin sheaths leading to neuronal death. While several disease-modifying therapies are available to treat MS, these therapies are not universally effective and do not stop disease progression. More personalized long-term treatment options that target specific aspects of the disease, such as reducing relapse frequency, delaying disability accumulation, and addressing symptoms that impact daily functioning, as well as therapies that can promote neuroprotection and repair are needed. Chimeric Antigen Receptor (CAR) Tcell therapies have revolutionized cancer treatment by intravenously (IV) administering a defined dose of T cells with high specificity provided by the CAR. An autologous CAR T cell therapy using suppressive regulatory T cells (Tregs) inducing long-lasting tolerance would be the ideal treatment for patients. Hence, we expanded the application of CAR-T cells by introducing a CAR into Tregs to treat MS patients. We developed a myelin oligodendrocyte glycoprotein (MOG)-specific CAR Treg cell therapy for patients with MS. MOG is expressed on the outer membrane of the myelin sheath, the insulating layer the forms around nerves, making it an ideal target for CAR Treg therapy. Our lead candidate is a 2nd generation CAR, composed of an anti-MOG scFv screened from a large human library. In vitro, we demonstrated CAR-dependent functionality and showed efficacy in vivo using a passive EAE mouse model. Additionally, the MOG-CAR Tregs have very low tonic signaling with a desirable signal-to-noise ratio resulting in a highly potent CAR. In summary our data suggest that MOG-CAR Tregs are a promising MS treatment option with the potential to induce long-lasting tolerance in patients.
PARP11 inhibition inactivates tumor-infiltrating regulatory T?cells and improves the efficacy of immunotherapies Cell Reports Medicine 2024 Jul

Abstract

SummaryTumor-infiltrating regulatory T cells (TI-Tregs) elicit immunosuppressive effects in the tumor microenvironment (TME) leading to accelerated tumor growth and resistance to immunotherapies against solid tumors. Here, we demonstrate that poly-(ADP-ribose)-polymerase-11 (PARP11) is an essential regulator of immunosuppressive activities of TI-Tregs. Expression of PARP11 correlates with TI-Treg cell numbers and poor responses to immune checkpoint blockade (ICB) in human patients with cancer. Tumor-derived factors including adenosine and prostaglandin E2 induce PARP11 in TI-Tregs. Knockout of PARP11 in the cells of the TME or treatment of tumor-bearing mice with selective PARP11 inhibitor ITK7 inactivates TI-Tregs and reinvigorates anti-tumor immune responses. Accordingly, ITK7 decelerates tumor growth and significantly increases the efficacy of anti-tumor immunotherapies including ICB and adoptive transfer of chimeric antigen receptor (CAR) T cells. These results characterize PARP11 as a key driver of TI-Treg activities and a major regulator of immunosuppressive TME and argue for targeting PARP11 to augment anti-cancer immunotherapies. Graphical abstract Highlights?Tumor-derived factors upregulate PARP11 in the tumor-infiltrating Treg cells?PARP11 supports the immunosuppressive properties of Treg cells?Pharmacologic inhibition of PARP11 inactivates intratumoral Treg cells?PARP11 inhibitor augments the efficacy of immunotherapies Basavaraja et al. demonstrate that induction of PARP11 in the intratumoral regulatory T (Treg) cells is required for their regulatory functions and contributes to the immunosuppressive tumor microenvironment. The selective inhibitor of PARP11 ITK7 inactivates tumor Treg cells and improves the efficacy of immunotherapies against tumors.
Before performing cell isolation using EasySep?, consult the product information sheet (PIS) to determine whether red blood cell (RBC) lysis is required for your sample type. RBC lysis should only be performed if indicated in the PIS. It is often recommended for blood samples; however, RBC lysis is not recommended for mouse splenocytes as it may reduce cell recovery. For the most accurate cell recovery calculation, we recommend performing total nucleated cell (TNC) count.

See How to Calculate Cell Recovery & Measure Purity After Cell Isolation >