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IL-2 Signaling Pathways and their Primary Biological Effects in Different Immune Cell Types

Click on one of the links shown in the Explore Pathways box below to see either either the IL-2 signaling pathways or information related to one of the other common cytokine receptor gamma-chain family members.

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IL-2

IL-2 R

Regulates Activated
T Cell Proliferation

Activated T Cell

Proliferation/Survival

IL-2

IL-2 R

IL-2

IL-2 R

Fas L or TNF-alpha

Fas, TNF RI,
or TNF RII

Promotes Activation-Induced
Cell Death

Proliferating/Activated
CD4⁺ T Cells

Antigen

Activation-Induced Cell Death

Maintenance of Peripheral
Self-Tolerance

IL-2

TGF-beta

IL-2 R

IL-2

IL-2 R

FoxP3

TGF-beta

IL-10

IL-35

Promotes Regulatory T Cell
Development, Survival, &
Maintenance

Dendritic Cell

Naive T Cell

Regulatory T Cell
Development

Regulatory T Cells

Maintenance

Effector T Cells

Effects on Regulatory T Cells

IL-2

IL-2 R

Inhibits Division of CD8⁺
Memory T Cells

Activated
CD8⁺ T Cell

Division

Regulatory T Cell

Memory
CD8⁺ T Cell

Inhibits Division

IL-2

IL-2 R

Promotes B Cell
Proliferation

B Cell

Proliferation

IL-2

IL-2 R

Promotes Immunoglobulin
Production

Activated
B Cell

Plasma Cell

Immunoglobulin Production

IL-2 Signaling Pathways and their Primary Biological Effects in Different Immune Cell Types

Overview of Primary Biological Effects of IL-2 Signaling in Different Immune Cell Types

Interleukin-2 (IL-2) is an O-glycosylated four alpha-helix bundle cytokine that is primarily produced by activated T cells, dendritic cells, and B cells. The biological activity of IL-2 is mediated by binding to a cell surface receptor complex consisting of IL-2 R alpha/CD25, IL-2/IL-15 R beta, and the common gamma-chain/IL-2 R gamma subunit. IL-2 can also bind with low affinity to IL-2 R alpha alone, or with intermediate affinity to a complex consisting of IL-2/IL-15 R beta and the common gamma-chain subunit. Functionally, IL-2 induces the expression of both IL-2 and IL-2 R alpha on activated CD4⁺ and CD8⁺ T cells and stimulates their proliferation. In contrast, IL-2 also plays an important role in the maintenance of peripheral self-tolerance both by initiating Fas-mediated activation-induced cell death of CD4⁺ T cells following antigen restimulation and by its ability to promote the differentiation and survival of regulatory T cells. Rather than displaying a severe immunodeficient phenotype, mice lacking IL-2, IL-2 R alpha, or IL-2 R beta accumulate activated T lymphocytes, have reduced numbers of regulatory T cells, and develop autoimmune diseases. This suggests that the maintenance of T cell homeostasis and prevention of self-reactivity is the primary function of IL-2 signaling. In addition, IL-2 may enhance the cytotoxicity of natural killer cells and may be required for B cell proliferation and immunoglobulin production.

To learn more, please visit our Common gamma Chain Receptor Family Research Area.

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