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EasySep? HLA Chimerism Whole Blood CD3 Positive Selection Kit

Immunomagnetic positive selection of human CD3+ cells from whole blood and buffy coat

EasySep? HLA Chimerism Whole Blood CD3 Positive Selection Kit

Immunomagnetic positive selection of human CD3+ cells from whole blood and buffy coat

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Immunomagnetic positive selection of human CD3+ cells from whole blood and buffy coat
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Product Advantages


  • Fast and easy-to-use

  • Up to 99% purity

  • No columns required

  • Compatible across EasySep? "The Big Easy", EasyEights?, and RoboSep?-S platforms

What's Included

  • EasySep? HLA Chimerism Whole Blood CD3 Positive Selection Kit (Catalog #17871)
    • EasySep? HLA Chimerism Whole Blood CD3 Positive Selection Cocktail, 3 x 1 mL
    • EasySep? Dextran RapidSpheres? 50101, 3 x 1 mL
    • EasySep? RBC Lysis Buffer 10X Concentrate, 10 mL (Catalog #20110)
  • RoboSep? HLA Chimerism Whole Blood CD3 Positive Selection Kit with Filter Tips (Catalog #17871RF)
    • EasySep? HLA Chimerism Whole Blood CD3 Positive Selection Cocktail, 3 x 1 mL
    • EasySep? Dextran RapidSpheres? 50101, 3 x 1 mL
    • EasySep? RBC Lysis Buffer 10X Concentrate, 10 mL (Catalog #20110)
    • RoboSep? Buffer (Catalog #20104) x 2
RoboSep? Filter Tips (Catalog #20125) x 2
Products for Your Protocol
To see all required products for your protocol, please consult the Protocols and Documentation.

Overview

Isolate highly purified human CD3+ cells from fresh whole blood or buffy coat samples by immunomagnetic positive selection, with the EasySep? HLA Chimerism Whole Blood CD3 Positive Selection Kit. 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 CD3 and magnetic particles. The cocktail in this kit also contains an antibody to human Fc receptor to prevent non-specific binding. 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 CD3+ cells are ready for downstream applications such as flow cytometry, culture, or DNA/RNA extraction.

This product replaces the EasySep? Human Whole Blood CD3 Positive Selection Kit (Catalog #18081) and EasySep? HLA Whole Blood CD3 Positive Selection Kit (Catalog #18081HLA), for even faster cell isolations.

Learn more about how immunomagnetic EasySep? technology works or how to fully automate immunomagnetic cell isolation with RoboSep? to save time and increase laboratory throughput. Explore additional products optimized for your workflow, including those for cell characterization, cryopreservation, and more.

Magnet Compatibility
? “The Big Easy” EasySep? Magnet (Catalog #18001)
? EasyEights? EasySep? Magnet (Catalog #18103)
? RoboSep?-S (Catalog #21000)
 
Subtype
Cell Isolation Kits
Cell Type
T Cells
Species
Human
Sample Source
Buffy Coat, Whole Blood
Selection Method
Positive
Brand
EasySep
Area of Interest
HLA, Immunology

Data Figures

Typical EasySep? HLA Chimerism Whole Blood CD3 Positive Selection Profile

Figure 1. Typical EasySep? HLA Chimerism Whole Blood CD3 Positive Selection Profile

Starting with human whole blood, the CD3+ cell content of the isolated fraction typically ranges from 92.4 - 99.8% (as assessed by staining the start and isolated fractions with anti-CD3 or anti-CD2 antibodies, respectively). In the above example, the purities of the start and the final isolated fractions are 18.2% and 98.1%, respectively (gated on CD45).
NOTE: Red blood cells were removed from the start sample by lysis prior to flow cytometry.

FACS Data for Anti-Human CD2 Antibody, Clone RPA-2.10, PE-Conjugated

Figure 2. FACS Data for Anti-Human CD2 Antibody, Clone RPA-2.10, PE-Conjugated

(A) Flow cytometry analysis of human peripheral blood mononuclear cells (PBMCs) labeled with Anti-Human CD2 Antibody, Clone RPA-2.10, PE (Catalog #60007PE) and anti-human CD45 APC. (B) Flow cytometry analysis of human PBMCs processed with the EasySep? HLA CD3 Positive Selection Kit (Catalog #17871) and labeled with Anti-Human CD2 Antibody, Clone RPA-2.10, PE. Histograms show labeling of PBMCs (Start) and isolated cells (Isolated). Labeling of start cells with a mouse IgG1, kappa PE isotype control antibody is shown (open histogram).

FACS Data for Anti-Human CD5 Antibody, Clone UCHT2, PE-Conjugated

Figure 3. FACS Data for Anti-Human CD5 Antibody, Clone UCHT2, PE-Conjugated

(A) Flow cytometry analysis of human buffy coat nucleated cells labeled with Anti-Human CD5 Antibody, Clone UCHT2, PE (Catalog #60082PE) and Anti-Human CD20 Antibody, Clone 2H7, APC (Catalog #60008AZ). (B) Flow cytometry analysis of human buffy coat nucleated cells labeled with a mouse IgG1, kappa PE isotype control antibody and Anti-Human CD20 Antibody, Clone 2H7, APC. (C) Flow cytometry analysis of human buffy coat nucleated cells processed with the EasySep? HLA CD3 Positive Selection Kit (Catalog #17871) and labeled with Anti-Human CD5 Antibody, Clone UCHT2, PE. Histograms show labeling of buffy coat nucleated cells (Start) and isolated cells (Isolated). Labeling of start cells with a mouse IgG1, kappa PE isotype control antibody is shown (solid line histogram).

Protocols and Documentation

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

Document Type
Product Name
Catalog #
Lot #
Language
Document Type
Product Name
Catalog #
17871RF
Lot #
1000119933 or higher
Language
English
Document Type
Product Name
Catalog #
17871RF
Lot #
1000119933 or higher
Language
English
Document Type
Product Name
Catalog #
17871
Lot #
1000119933 or higher
Language
English
Document Type
Product Name
Catalog #
17871
Lot #
1000119933 or higher
Language
English
Document Type
Product Name
Catalog #
17871RF
Lot #
All
Language
English
Document Type
Product Name
Catalog #
17871RF
Lot #
All
Language
English
Document Type
Product Name
Catalog #
17871RF
Lot #
All
Language
English
Document Type
Product Name
Catalog #
17871RF
Lot #
All
Language
English
Document Type
Product Name
Catalog #
17871
Lot #
All
Language
English
Document Type
Product Name
Catalog #
17871
Lot #
All
Language
English
Document Type
Product Name
Catalog #
17871
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)

Hyperexpression of tumor necrosis factor receptor 2 inhibits differentiation of myeloid‐derived suppressor cells by instigating apolarity during ageing M. Wang et al. MedComm 2024 Jun

Abstract

AbstractDuring the ageing process, TNF‐α can promote the expansion of myeloid‐derived suppressor cells (MDSCs). However, it remains unclear which receptor(s) of TNF‐α are involved in and how they modulate this process. Here, we report that TNFR2 hyperexpression induced by either TNF‐α or IL‐6, two proinflammatory factors of senescence‐associated secretory phenotype (SASP), causes cellular apolarity and differentiation inhibition in aged MDSCs. Ex vivo overexpression of TNFR2 in young MDSCs inhibited their polarity and differentiation, whereas in vivo depletion of Tnfr2 in aged MDSCs promotes their differentiation. Consequently, the age‐dependent increase of TNFR2 versus unaltered TNFR1 expression in aged MDSCs significantly shifts the balance of TNF‐α signaling toward the TNFR2–JNK axis, which accounts for JNK‐induced impairment of cell polarity and differentiation failure of aged MDSCs. Consistently, inhibiting JNK attenuates apolarity and partially restores the differentiation capacity of aged MDSCs, suggesting that upregulated TNFR2/JNK signaling is a key factor limiting MDSC differentiation during organismal ageing. Therefore, abnormal hyperexpression of TNFR2 represents a general mechanism by which extrinsic SASP signals disrupt intrinsic cell polarity behavior, thereby arresting mature differentiation of MDSCs with ageing, suggesting that TNFR2 could be a potential therapeutic target for intervention of ageing through rejuvenation of aged MDSCs. Ageing in stem or progenitor cells often results in cellular apolarity, which impedes their mature differentiation. However, the induction of apolarity in aged myeloid‐derived suppressor cells (MDSCs) remains unexplored. This study reveals that the TNFR2 hyperexpression, triggered by either TNF‐α or IL‐6—two factors associated with the senescence‐associated secretory phenotype (SASP), causes JNK‐induced apolarity and inhibits differentiation in aged MDSCs.
Expanded tumor-associated polymorphonuclear myeloid-derived suppressor cells in Waldenstrom macroglobulinemia display immune suppressive activity Blood Cancer Journal 2024 Dec

Abstract

The role of the bone marrow (BM) microenvironment in regulating the antitumor immune response in Waldenstrom macroglobulinemia (WM) remains poorly understood. Here we transcriptionally and phenotypically profiled non-malignant (CD19- CD138-) BM cells from WM patients with a focus on myeloid derived suppressive cells (MDSCs) to provide a deeper understanding of their role in WM. We found that HLA-DRlowCD11b+CD33+ MDSCs were significantly increased in WM patients as compared to normal controls, with an expansion of predominantly polymorphonuclear (PMN)-MDSCs. Single-cell immunogenomic profiling of WM MDSCs identified an immune-suppressive gene signature with upregulated inflammatory pathways associated with interferon and tumor necrosis factor (TNF) signaling. Gene signatures associated with an inflammatory and immune suppressive environment were predominately expressed in PMN-MDSCs. In vitro, WM PMN-MDSCs demonstrated robust T-cell suppression and their viability and expansion was notably enhanced by granulocyte colony stimulating factor (G-CSF) and TNFα. Furthermore, BM malignant B-cells attracted PMN-MDSCs to a greater degree than monocytic MDSCs. Collectively, these data suggest that malignant WM B cells actively recruit PMN-MDSCs which promote an immunosuppressive BM microenvironment through a direct T cell inhibition, while release of G-CSF/TNFα in the microenvironment further promotes PMN-MDSC expansion and in turn immune suppression. Targeting PMN-MDSCs may therefore represent a potential therapeutic strategy in patients with WM.
Neutrophil and Granulocytic Myeloid-Derived Suppressor Cell-Mediated T Cell Suppression Significantly Contributes to Immune Dysregulation in Common Variable Immunodeficiency Disorders. M. Vlkova et al. Journal of immunology (Baltimore, Md. : 1950) 2018 NOV

Abstract

Common variable immunodeficiency disorders (CVID) represent a group of primary immunodeficiency diseases characterized by hypogammaglobulinemia and impaired specific Ab response, resulting in recurrent infections due to dysfunctional immune response. The specific mechanisms mediating immune deficiency in CVID remain to be determined. Previous studies indicated that immune dysregulation in CVID patients is associated with chronic microbial translocation, systemic immune activation, and altered homeostasis of lymphocytic and myeloid lineages. A detailed phenotypic, functional characterization of plasma markers and immune cell populations was performed in 46 CVID patients and 44 healthy donors. CVID patients displayed significantly elevated plasma levels of a marker of neutrophil activation neutrophil gelatinase-associated lipocalin. Neutrophils from CVID patients exhibited elevated surface levels of CD11b and PD-L1 and decreased levels of CD62L, CD16, and CD80, consistent with a phenotype of activated neutrophils with suppressive properties. Neutrophils from CVID patients actively suppressed T cell activation and release of IFN-$\gamma$ via the production of reactive oxygen species. Furthermore, CVID was associated with an increased frequency of low-density neutrophils (LDNs)/granulocytic myeloid-derived suppressor cells. LDN/granulocytic myeloid-derived suppressor cell frequency in CVID patients correlated with reduced T cell responsiveness. Exogenous stimulation of whole blood with bacterial LPS emulated some but not all of the phenotypic changes observed on neutrophils from CVID patients and induced neutrophil population with LDN phenotype. The presented data demonstrate that neutrophils in the blood of CVID patients acquire an activated phenotype and exert potent T cell suppressive activity. Specific targeting of myeloid cell-derived suppressor activity represents a novel potential therapeutic strategy for CVID.