Interleukin 21 is a protein that in humans is encoded by the IL21gene. Interleukin-21 is a cytokine that has potent regulatory effects on cells of the immune system, including natural killer cells and cytotoxic T cells that can destroy virally infected or cancerous cells. This cytokine induces cell division/proliferation in its target cells.
Gene
The human IL-21 gene is about 8.43kb, mapped to chromosome 4 and 180kb from IL-2 gene, and the mRNA product is 616 nucleotides long.
Tissue and cell distribution
IL-21 is expressed in activated human CD4+ T cells but not in most other tissues. In addition, IL-21 expression is up-regulated in Th2 and Th17 subsets of T helper cells, as well as T follicular cells. In fact, it was shown that IL-21 can be used to identify peripheral T follicular helper cells. Furthermore, IL-21 is expressed in NK T cells regulating the function of these cells. Interleukin-21 is also produced by Hodgkin's lymphoma cancer cells. This observation may explain a great deal of the behavior of classical Hodgkin's lymphoma including clusters of other immune cells gathered around HL cells in cultures. Targeting IL-21 may be a potential treatment or possibly a test for HL.
Receptor
The IL-21 receptor is expressed on the surface of T, B and NK cells. IL-21r is similar in structure to the receptors for other type I cytokines like IL-2R or IL-15 and requires dimerization with the common gamma chain in order to bind IL-21. When bound to IL-21, the IL-21 receptor acts through the Jak/STAT pathway, utilizing Jak1 and Jak3 and a STAT3 homodimer to activate its target genes.
Clinical relevance
Role in allergies
It has been shown that IL-21R knock-out mice express higher levels of IgE and lower levels of IgG1 than normal mice after antigen exposure. IgE levels decreased after mice were injected with IL-21. This has implications for the role of IL-21 in controlling allergic responses because of the role of IgE in hypersensitivity type 1 responses. IL-21 has been tried as therapy for alleviating allergic responses. It was shown to be successful in decreasing pro-inflammatory cytokines produced by T cells in addition to decreasing IgE levels in a mouse model for rhinitis. A study using mice with peanut allergies showed that systemic treatment of IL-21 was an effective means of mitigating the allergic response. This has strong implications for the pharmacological development of IL-21 for controlling both localized and systemic allergies.
A role for IL-21 in modulating the differentiation programming of human T cells was first reported by Li et al., where it was shown to enrich for a population of central memory-type CTL with a unique CD28+ CD127hi CD45RO+ phenotype with IL-2 producing capacity. Tumor-reactive antigen-specific CTL generated by priming in the presence of IL-21 led to a stable, 'helper-independent' phenotype. IL-21 is also noted to have anti-tumour effects through continued and increased CD8+ cell response to achieve enduring tumor immunity. IL-21 was approved for Phase 1clinical trials in metastatic melanoma and renal cell carcinoma patients. It was shown to be safe for administration with flu-like symptoms as side effects. Dose-limiting toxicities included low lymphocyte, neutrophil, and thrombocyte count as well as hepatotoxicity. According to the Response Evaluation Criteria in Solid Tumors response scale, 2 out of 47 MM patients and 4 out of 19 RCC patients showed complete and partial responses, respectively. In addition, there was an increase of perforin, granzyme B, IFN-γ, and CXCR3 mRNA in peripheral NK cells and CD8+ T cells. This suggested that IL-21 enhances the CD8+ effector functions thus leading to anti-tumor response. IL-21 proceeded to Phase 2 clinical trials where it was administered alone or coupled with drugs as sorafinib and rituximab.
IL-21 may be a critical factor in the control of persistent viral infections. IL-21 knock-out mice infected with chronic LCMV were not able to overcome chronic infection compared to normal mice. Besides, these mice with impaired IL-21 signaling had more dramatic exhaustion of LCMV-specific CD8+ T cells, suggesting that IL-21 produced by CD4+ T cells is required for sustained CD8+ T cell effector activity and then, for maintaining immunity to resolve persistent viral infection. Thus, IL-21 may contribute to the mechanism by which CD4+T helper cells orchestrate the immune system response to viral infections. In HIV infected subjects, IL-21 has been reported to critically improve the HIV-specific cytotoxic T cell responses and NK cell functions. It has also been shown that HIV-specific CD4 T cells from “HIV controllers” are able to produce significantly more IL-21 than those of progressors. In addition, IL-21 producing virus specific CD8 T cells were also preferentially found in HIV controllers. These data and the fact that IL-21 stimulated CD8 or NK cells are able to inhibit HIV viral replication in vitro, show that this cytokine could potentially be useful for anti-HIV therapeutics.