Interleukin 15
Interleukin-15 is a cytokine with structural similarity to Interleukin-2. Like IL-2, IL-15 binds to and signals through a complex composed of IL-2/IL-15 receptor beta chain and the common gamma chain. IL-15 is secreted by mononuclear phagocytes following infection by virus. This cytokine induces the proliferation of natural killer cells, i.e. cells of the innate immune system whose principal role is to kill virally infected cells.
Expression
IL-15 was discovered in 1994 by two different laboratories, and characterized as T cell growth factor. Together with Interleukin-2, Interleukin-4, Interleukin-7, Interleukin-9, granulocyte colony-stimulating factor, and granulocyte-macrophage colony-stimulating factor, IL-15 belongs to the four α-helix bundle family of cytokines.IL-15 is constitutively expressed by a large number of cell types and tissues, including monocytes, macrophages, dendritic cells, keratinocytes, fibroblasts, myocyte and nerve cells. As a pleiotropic cytokine, it plays an important role in innate and adaptive immunity.
Gene
IL-15 is 14-15 kDa glycoprotein encoded by the 34 kb region of chromosome 4q31 in humans, and at the central region of chromosome 8 in mice. The human IL-15 gene comprises nine exons and eight introns, four of which code for the mature protein.Two alternatively spliced transcript variants of this gene encoding the same protein have been reported. The originally identified isoform, with long signal peptide of 48 amino acids consisted of a 316 bp 5’-untranslated region, 486 bp coding sequence and the C-terminus 400 bp 3’-UTR region. The other isoform has a short signal peptide of 21 amino acids encoded by exons 4A and 5. Both isoforms shared 11 amino acids between signal sequences of the N-terminus. Although both isoforms produce the same mature protein, they differ in their cellular trafficking. IL-15 LSP isoform was identified in Golgi apparatus , early endosomes and in the endoplasmic reticulum. It exists in two forms, secreted and membrane-bound particularly on dendritic cells. On the other hand, IL-15 SSP isoform is not secreted and it appears to be restricted to the cytoplasm and nucleus where plays an important role in the regulation of cell cycle.
It has been demonstrated that two isoforms of IL-15 mRNA are generated by alternatively splicing in mice. The isoform which had an alternative exon 5 containing another 3’ splicing site, exhibited a high translational efficiency, and the product lack hydrophobic domains in the signal sequence of the N-terminus. This suggests that the protein derived from this isoform is located intracellulary. The other isoform with normal exon 5, which is generated by integral splicing of the alternative exon 5, may be released extracellulary.
Although IL-15 mRNA can be found in many cells and tissues including mast cells, cancer cells or fibroblasts, this cytokine is produced as a mature protein mainly by dendritic cells, monocytes and macrophages. This discrepancy between the wide appearance of IL-15 mRNA and limited production of protein might be explained by the presence of the twelve in humans and five in mice upstream initiating codons, which can repress translation of IL-15 mRNA. Translational inactive mRNA is stored within the cell and can be induced upon specific signal. Expression of IL-15 can be stimulated by cytokine such as GM-CSF, double-strand mRNA, unmethylated CpG oligonucleotides, lipopolysaccharide through Toll-like receptors, interferon gamma or after infection of monocytes herpes virus, Mycobacterium tuberculosis and Candida albicans.
Signaling
The prevailing mechanism of IL-15 action seems to be juxtacrine signaling or also determined as cell-to-cell contact. It also includes intracrine and reverse signaling. IL-15 was initially characterized as a soluble molecule. Later it was shown that IL-15 also exists as a membrane-bound form which represents the major form of IL-15 protein. In membrane-bound form it could be bound directly to cellular membrane or presented by IL-15Rα receptor.The main mechanism of IL-15 signaling is trans-presentation which is mediated by membrane-bound complex IL-15/IL-15Rα. IL-15 bind to IL-15Rα receptor alone with affinity. It can also bind to IL-15Rβγc signaling complex with lower affinity .
Signaling pathway of IL-15 begins with binding to IL-15Rα receptor, with subsequent presentation to surrounding cells bearing IL-15Rβγc complex on their cell surface. Upon binding IL-15β subunit activates Janus kinase 1 and γc subunit Janus kinase 3, which leads to phosphorylation and activation of signal transducer and activator of transcription 3 and STAT5. Due to sharing of receptor subunits between IL-2 and IL-15, both of these cytokines have similar downstream effects including the induction of Bcl-2, MAP kinase pathway and the phosphorylation of Lck and Syk kinases, which leads to cell proliferation and maturation.
In mast cells, the IL-15R signaling pathway has been found to include Jak2 and STAT5 instead Jak1/3 and STAT3/5. Phosphorylation STATs form transcription factors and activate transcription of appropriate genes. The β chain of IL-15R recruits and also activates protein tyrosine kinases of the Src family including Lck, Fyn and Lyn kinase. It also activates phosphatidylinositol 3-kinase and AKT signaling pathway and induce expression of transcription factors including c-Fos, c-Jun, c-Myc and NF-κB.
IL-15 is also able to bind to the 15Rβγc signaling complex with intermediate affinity without requirement for IL-15Rα receptor. Upon binding IL-15 to signaling complex, kinases of the Src family including Lck and Fyn are activated, and subsequently activates PI3K and MAPK signaling pathway. The second mechanism of IL-15 action is cis-presentation, when IL-15 is presented by IL-15Rα to 15Rβγc signaling complex on the same cell. This mechanism is mediated by the C-terminus flexibility which is mediated by 32 amino acids linker and/or 74 amino acids long PT region.
Function
IL-15 regulates the activation and proliferation of T and natural killer cells. Survival signals that maintain memory T cells in the absence of antigen are provided by IL-15. This cytokine is also implicated in NK cell development. In rodent lymphocytes, IL-15 prevents apoptosis by inducing BCL2L1/BCL-x, an inhibitor of the apoptosis pathway. In humans with celiac disease IL-15 similarly suppresses apoptosis in T-lymphocytes by inducing Bcl-2 and/or Bcl-xL.A hematopoietin receptor, the IL-15 receptor, that binds IL-15 propagates its function. Some subunits of the IL-15 receptor are shared in common with the receptor for a structurally related cytokine called Interleukin 2 allowing both cytokines to compete for and negatively regulate each other's activity. CD8+ memory T cell number is controlled by a balance between IL-15 and IL-2. When IL-15 binds its receptor, JAK kinase, STAT3, STAT5, and STAT6 transcription factors are activated to elicit downstream signaling events.
IL-15 and its receptor subunit alpha are also produced by skeletal muscle in response to different exercise doses, playing significant roles in visceral fat reduction and myofibrillar protein synthesis.
Disease
Epstein-Barr virus
In humans with history of acute infectious mononucleosis, IL-15R expressing lymphocytes are not detected even 14 years after infection.Celiac disease
There have been recent studies suggesting that suppression of IL-15 may be a potential treatment for celiac disease and even presents the possibility of preventing its development. In one study with mice blocking IL-15 with an antibody led to the reversal of autoimmune intestinal damage. In another study mice used were able to eat gluten without developing symptoms.Non-alcoholic fatty liver disease
A recent report indicated IL-15 promotes non-alcoholic fatty liver disease.Immunotherapy
Metastatic cancer
IL-15 has been shown to enhance the anti-tumor immunity of CD8+ T cells in pre-clinical models. A phase I clinical trial to evaluate the safety, dosing, and anti-tumor efficacy of IL-15 in patients with metastatic melanoma and renal cell carcinoma has begun to patients at the National Institutes of Health.Vaccines Adjuvants
Vector-based therapy – Nonlytic Newcastle Disease Virus was engineered to express recombinant IL-15 protein to generate an NDV-modified tumor vaccine. Preclinical results of NDV-modified tumor vaccine showed promise by controlling melanoma tumor growth in mice. A recombinant vaccinia virus expressing influenza A proteins and IL-15 promoted cross protection by CD4+ T cells. A Brucella DNA vaccine containing IL-15 gene enhanced the CD8+ T cell immune response in mice. IL-15 was needed for CD4+ T cell heterosubtypic protection while using a multivalent influenza vaccine using vaccinia-based vector. While influenza A virus expressing IL-15 stimulates both innate and adaptive immune cells to decrease tumor growth mice.Transpresentation complexes
Currently there are two varieties of IL-15 superagonist available. One combines IL-15 and IL-15Rα-Fc in vitro to generate the complex. It is referred to as IL-15 SA. A second IL-15 superagonist complex called ALT-803 is offered by Altor BioScience.IL-15 SA
IL-15 SA is currently being evaluated for antiviral and anticancer activities, in addition to enhancing immunotherapy and vaccination. One potential shortcoming of IL-15 SA was its enhancement of septic shock in mice.ALT-803
ALT-803 is an IL-15 superagonist complex IL-15N72D:IL-15RαSu/Fc that includes an IL-15 mutant and a dimeric IL-15 receptor α sushi domain-IgG1 Fc fusion protein.ALT-803 was given fast track status by the FDA in 2017 and at that time, Phase III trials in bladder cancer were being prepared.