Interleukin-15 receptor blockade in non-human primate kidney transplantation.

BACKGROUND: Interleukin (IL)-15 is a chemotactic factor to T cells. It induces proliferation and promotes survival of activated T cells. IL-15 receptor blockade in mouse cardiac and islet allotransplant models has led to long-term engraftment and a regulatory T-cell environment. This study investigated the efficacy of IL-15 receptor blockade using Mut-IL-15/Fc in an outbred non-human primate model of renal allotransplantation. METHODS: Male cynomolgus macaque donor-recipient pairs were selected based on ABO typing, major histocompatibility complex class I typing, and carboxy-fluorescein diacetate succinimidyl ester-based mixed lymphocyte responses. Once animals were assigned to one of six treatment groups, they underwent renal transplantation and bilateral native nephrectomy. Serum creatinine level was monitored twice weekly and as indicated, and protocol biopsies were performed. Rejection was defined as a increase in serum creatinine to 1.5 mg/dL or higher and was confirmed histologically. Complete blood counts and flow cytometric analyses were performed periodically posttransplant; pharmacokinetic parameters of Mut-IL-15/Fc were assessed. RESULTS: Compared with control animals, Mut-IL-15/Fc-treated animals did not demonstrate increased graft survival despite adequate serum levels of Mut-IL-15/Fc. Flow cytometric analysis of white blood cell subgroups demonstrated a decrease in CD8 T-cell and natural killer cell numbers, although this did not reach statistical significance. Interestingly, two animals receiving Mut-IL-15/Fc developed infectious complications, but no infection was seen in control animals. Renal pathology varied widely. CONCLUSIONS: Peritransplant IL-15 receptor blockade does not prolong allograft survival in non-human primate renal transplantation; however, it reduces the number of CD8 T cells and natural killer cells in the peripheral blood.

Interleukin-15 in the pathogenesis of multiple sclerosis and its animal models

L'interleukine-15 (IL-15) contribue au développement et à l’activation des lymphocytes T CD8, des cellules immunes qui ont été impliquées dans plusieurs maladies auto-immunes telle la sclérose en plaques. Des niveaux élevés de l'IL-15 ont été trouvés chez les patients atteints de cette maladie comparativement aux témoins, mais aucune étude n'a examiné les effets de tels niveaux élevés sur les lymphocytes T CD8. Les objectifs de notre étude étaient 1- de caractériser l’expression de l'IL-15 par des lymphocytes B humains et de déterminer ses effets sur les fonctions des lymphocytes T CD8, et 2- d’évaluer l'expression in vivo de l'IL-15 dans des modèles murins de la sclérose en plaques. Nous avons établi que les cellules B humaines augmentaient leur expression de l'IL-15 suite à une stimulation via le CD40. De plus, les fonctions effectrices des lymphocytes T CD8 ont été significativement augmentées lors des co-cultures avec des cellules B alloréactives exprimant l'IL-15. Dans les modèles murins de la sclérose en plaques, nous avons détecté au sein du système nerveux central des cellules immunes exprimant l’IL-15 ainsi que des cellules T CD8 exprimant le récepteur pour cette cytokine à différents stades de la maladie. Nous avons démontré que les cellules B modulent des réponses des lymphocytes T CD8 via l’IL-15, ce qui suggère un rôle pour les cellules B dans la pathogenèse de la sclérose en plaques. Nous avons aussi mis en évidence la présence de cellules exprimant l’IL-15 dans le système nerveux central dans des modèles murins de cette maladie.

Identification of a gene for an ancient cytokine, interleukin 15-like, in mammals; interleukins 2 and 15 co-evolved with this third family member, all sharing binding motifs for IL-15Rα

Interleukins 2 and 15 (IL-2 and IL-15) are highly differentiated but related cytokines with overlapping, yet also distinct functions, and established benefits for medical drug use. The present study identified a gene for an ancient third IL-2/15 family member in reptiles and mammals, interleukin 15-like (IL-15L), which hitherto was only reported in fish. IL-15L genes with intact open reading frames (ORFs) and evidence of transcription, and a recent past of purifying selection, were found for cattle, horse, sheep, pig and rabbit. In human and mouse the IL-15L ORF is incapacitated. Although deduced IL-15L proteins share only ~21 % overall amino acid identity with IL-15, they share many of the IL-15 residues important for binding to receptor chain IL-15Rα, and recombinant bovine IL-15L was shown to interact with IL-15Rα indeed. Comparison of sequence motifs indicates that capacity for binding IL-15Rα is an ancestral characteristic of the IL-2/15/15L family, in accordance with a recent study which showed that in fish both IL-2 and IL-15 can bind IL-15Rα. Evidence reveals that the species lineage leading to mammals started out with three similar cytokines IL-2, IL-15 and IL-15L, and that later in evolution (1) IL-2 and IL-2Rα receptor chain acquired a new and specific binding mode and (2) IL-15L was lost in several but not all groups of mammals. The present study forms an important step forward in understanding this potent family of cytokines, and may help to improve future strategies for their application in veterinarian and human medicine.

Interleukin-15 increases Paracoccidioides brasiliensis killing by human neutrophils

Interleukin-15 is a pro-inflammatory cytokine produced by a wide range of different cell types, especially monocytes and macrophages, in response to infective agents, playing a crucial and modulatory role in innate and adaptive immune response. Infections by intracellular microorganisms such as some bacteria, protozoa and fungi point out the role of IL-15 in the activation of monocytes/macrophages and neutrophils, a process that represents an important defense mechanism in early periods of infection during the development of innate immune response. The aims of the present study were to evaluate the effects of IL-15 on human neutrophil fungicidal activity against a high virulent Paracoccidioides brasiliensis strain ( Pb18) and to verify whether this activity was mediated by oxidative metabolism such as the production of superoxide anion and H2O2 and if it was associated with an alteration of cytokine ( IL-8 and TNF-alpha) levels. Neutrophils from peripheral blood of healthy individuals were incubated in the presence and absence of IL-15 ( 12.5 - 250ng/ml) for 18h, at 37 degrees C, under tension of 5% CO2, then infected with Pb18 for 4h and evaluated for fungicidal activity, production of superoxide anion and H2O2, and quantification of cytokines IL-8 and TNF-a in the supernatant. Preincubation of neutrophils with IL-15 induced a significant increase in the fungicidal activity of such cells in a dose-dependent manner. After activation, there was an increase in the production of superoxide anion and H2O2 by these cells, suggesting participation of such metabolites in fungicidal activity. Catalase inhibits fungicidal activity, confirming the role of H2O2 in fungus killing. However, the levels of TNF-alpha and IL-8 were not modified after incubation with IL-15, which suggests that its role is not mediated by those cytokines. Taken together, results showed that IL-15 had a modulatory effect on human neutrophils infected in vitro with a high virulent strain of P. brasiliensis, which was characterized by an increased fungicidal activity mediated by a dependent mechanism of oxidative metabolism.

Interleukin-15 augments oxidative metabolism and fungicidal activity of human monocytes against Paracoccidioides brasiliensis

Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)

Interleukin-15 increases Paracoccidioides brasiliensis killing by human neutrophils

Interleukin-15 is a cytokine produced by a wide range of different cell types, including macrophages, in response to lipopolysaccharide or microbial infection. This cytokine may play a crucial role in the activation of phagocytic cells against pathogens, especially during innate immune response. The effects of IL-15 on human polymorphonuclear leukocyte fungicidal activity against a highly virulent Paracoccidioides brasiliensis strain were investigated. Pretreatment of human neutrophils from healthy individuals with IL-15 for IS h increased cell fungicidal activity in a dose-dependent manner. In addition, the exposure to IL-15 induced an increase in neutrophil oxidative burst as evaluated by superoxide anion and H(2)O(2) release. Catalase inhibited fungicidal activity supporting a role for H(2)O(2) in fungus killing. In contrast, IL-8 and TNF-alpha levels were not affected by IL-15 suggesting that its effects were not mediated by these cytokines. Together, these results show that IL-15 is a potent stimulant of antifungal activities in human neutrophils, at least in part by a mechanism dependent on oxidative metabolism. (c) 2007 Elsevier Ltd. All rights reserved.

Interleukin-15: Its role in microbial infections

Interleukin-15 (IL-15) is a pleiotropic cytokine which regulates the proliferation, survival and the secretory activities of many distinct cell types in the body. This cytokine is produced by macrophages and many other cell types in response to infectious agents; it controls growth and differentiation of T and B lymphocytes, activation of Natural Killer (NK) and phagocytic cells, and contributes to the homeostasis of the immune system. The present review focuses on the biological and modulatory effects of IL-15 in microbial infections and shows that this cytokine may play a role in the host defense against infections by inducing activation of effector cells from both innate and adaptive immune system.

Generation of secretable and nonsecretable interleukin 15 isoforms through alternate usage of signal peptides

Two isoforms of human interleukin 15 (IL-15) exist. One isoform has a shorter putative signal peptide (21 amino acids) and its transcript shows a tissue distribution pattern that is distinct from that of the alternative IL-15 isoform with a 48-aa signal peptide. The 21-aa signal isoform is preferentially expressed in tissues such as testis and thymus. Experiments using different combinations of signal peptides and mature proteins (IL-2, IL-15, and green fluorescent protein) showed that the short signal peptide regulates the fate of the mature protein by controlling the intracellular trafficking to nonendoplasmic reticulum sites, whereas the long signal peptide both regulates the rate of protein translation and functions as a secretory signal peptide. As a consequence, the IL-15 associated with the short signal peptide is not secreted, but rather is stored intracellularly, appearing in the nucleus and cytoplasmic components. Such production of an intracellular lymphokine is not typical of other soluble interleukin systems, suggesting a biological function for IL-15 as an intracellular molecule.

Efeito da interleucina-15 sobre a atividade fungicida, metabolismo oxidativo e produção de citocinas por monócitos humanos, infectados in vitro com Paracoccidioides brasiliensis

Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)

Efeito da IL-15 sobre a atividade fungicida de neutrófilos humanos contra Paracoccidioides brasiliensis

Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)

Optimierte biologische Aktivität allo- und tumorreaktiver CD8-+-T-Lymphozyten im humanisierten Mausmodell durch IL-15-Superagonisten

Interleukin 15 (IL-15) gilt als eines der vielversprechendsten zukünftigen Medikamente für die Krebstherapie. Es fördert die Proliferation, Persistenz und Funktion von CD8+ T-Zellen und vermittelt zahlreiche Effekte, die es als überlegene Alternative für das derzeit in der Klinik verwendete IL-2 erscheinen lassen. Für den Einsatz von IL-15 in der vorliegenden Arbeit wurde zunächst ein Protokoll zur Herstellung von rekombinantem IL-15 in E. coli etabliert. Das hergestellte Protein hatte eine zu kommerziellen Produkten vergleichbare Bioaktivität und begünstigte die Persistenz und Aktivität antigenspezifischer, humaner CD8+ T Zellen nach adoptivem Transfer in NSG-Mäuse, wobei unter anderem ein verstärkter Effekt auf T Zellen mit TSCM-Phänotyp beobachtet wurde. Um die Bioaktivität von IL-15 zu steigern, wurden super-agonistische IL-15-Fusions¬proteine entworfen und im Expi293-System hergestellt. Dabei wurde IL 15 kovalent mit der Sushi-Domäne, der IL-15Rα-Kette und einer IgG1-Fc-Domäne verbunden, was zu einer gesteigerten Affinität der IL 15-Superagonisten zum physiologischen, niederaffinen IL 15Rβγ und zu einer stark erhöhten Halbwertszeit in Mausserum führte. Die gesteigerte Affinität der IL-15-Super¬agonisten wurde durch die IL 15Rα-Sushi-Domäne vermittelt. Eine um 13 Amino¬säuren verlängerte Sushi-Domäne zeigte im Vergleich zur normalen Form eine nochmals ge¬steigerte Affinität. Die längere Halbwertszeit wurde von der Sushi- und der IgG1-Fc-Domäne vermittelt. Die IgG1-Fc-Domäne verstärkte die Wirkung der Fusionsproteine zusätzlich über einen Mechanismus, der wahrscheinlich mit der Transpräsentation durch Fc Re¬ze¬ptoren zusammen–hängt. Die gesteigerte Bioaktivität der IL-15-Superagonisten wurde im Tiermodell mit humanen und murinen T-Zellen bestätigt und ILR13+-Fc wurde als das Fusionsprotein mit der höchsten Bioaktivität identifiziert. Im Vergleich zu anderen IL-15-Superagonisten vereint es alle derzeit bekannten Eigenschaften zur Bioaktivitätssteigerung in einem einzigen Protein. In therapeutischen Versuchen mit adoptivem Transfer tumorreaktiver T-Zellen konnte der Antitumoreffekt durch ILR13+-Fc maßgeblich verstärkt werden. Als Modellsysteme wurden NSG-Mäuse, die mit humanen AML-Blasten oder einem soliden Ovarialkarzinom engraftet wurden, verwendet. Dabei wurden sowohl antigenspezifische als auch unspezifische Effekte beobachtet. Die unspezifischen Effekte wurden wahrscheinlich durch eine ILR13+-Fc-vermittelte Überexpression von NKG2D, einem Rezeptor der angeborenen Immunantwort, auf den adoptiv transferierten T Zellen vermittelt. Die Ergebnisse dieser Arbeit zeigen, dass IL-15 und die IL-15-Superagonisten die Proliferation und Reaktivität von CD8+ T-Zellen im Rahmen der Immuntherapie fördern können. Aufgrund der hohen Bioaktivität und potenzierten Wirksamkeit, könnten vor allem die IL 15-Superagonisten in Zukunft bei der Entwicklung effizienter Therapiemethoden eingesetzt werden und dadurch einen wichtigen Beitrag zu Behandlung von Krebs leisten. rnrn

Developments in psoriasis and psoriatic arthritis

Psoriasis and psoriatic arthritis are common conditions for which treatment options have until recently been extremely limited. Recent advances in our understanding of the immunology and genetics underlying these conditions have been rapid, and have contributed to the development of new therapies for these diseases. This article discusses the current state of the art in our understanding of the aetiopathogenesis of psoriasis and psoriatic arthritis, and current therapies for the diseases.

Impact du stress sur la survie des lymphocytes T CD8+ mémoires dans le contexte des missions spatiales.

La mémoire immunitaire permet à l’organisme de se souvenir de tous les agents pathogènes rencontrés afin de pouvoir monter une réponse immunitaire plus rapide et plus efficace en cas de réinfection. Après la phase de contraction de la réponse primaire, les lymphocytes T CD8 mémoires survivent grâce à la présence de cytokines telle que l’interleukine 15 (IL-15). Ces cellules permettent aussi au système immunitaire de contrôler les virus latents n’ayant pas été totalement éliminés de l’hôte. Les situations de stress chronique affectent le système immunitaire provoquant la réactivation des virus latents. Des titres viraux élevés de virus de la famille Herspeviridea ont été observés chez les astronautes à leur retour de mission, suggérant que les hormones libérées en situation de stress auraient un impact négatif sur les lymphocytes T CD8+ mémoires. Un modèle de stress chronique in vitro chez la souris a été élaboré en ajoutant de la corticostérone à des lymphocytes T CD8+ mémoires. Il a ainsi été démontré que l’hormone de stress avait un effet pro-apoptotique sur ces cellules et que cet effet était partiellement inhibé par l’IL-15. Des cibles moléculaires ont aussi été identifiées afin de suivre la fonction immunitaire mémoire lors des vols spatiaux à l’aide du cytomètre en flux Microflow1, une nouvelle plateforme portative de diagnostic biomédical. Les résultats des tests en laboratoire puis dans la Station Spatiale Internationale (SSI) démontrent qu’il sera possible de suivre la fonction immunitaire mémoire et les marqueurs de stress en temps réel lors des vols spatiaux.