Allergen immunotherapy for allergic asthma: A systematic review and meta-analysis

Dhami, S., Kakourou, A., Asamoah, F., Agache, I., Lau, S., Jutel, M., Muraro, A., Roberts, G., Akdis, C.A., Bonini, M., Cavkaytar, O., Flood, B., Gajdanowicz, P., Izuhara, K., Kalayci, O., Mosges, R., Palomares, O., Pfaar, O., Smolinska, S., Sokolowska, M., Asaria, M., Netuveli, G., Zaman, Hadar, Akhlaq, A., Sheikh, A.

07 June 2017

Yes / Background:To inform the development of the European Academy of Allergy and Clinical Immunology’s (EAACI) Guidelines on Allergen Immunotherapy (AIT) for allergic asthma, we assessed the evidence on the effectiveness, cost-effectiveness and safety of AIT. Methods:We performed a systematic review, which involved searching nine data-bases. Studies were screened against predefined eligibility criteria and critically appraised using established instruments. Data were synthesized using random-effects meta-analyses.Results:98 studies satisfied the inclusion criteria. Short-term symptom scores were reduced with a standardized mean difference (SMD) of 1.11 (95% CI 1.66, 0.56). This was robust to a prespecified sensitivity analyses, but there was evidence suggestive of publication bias. Short-term medication scores were reduced SMD 1.21 (95% CI 1.87, 0.54), again with evidence of potential publication bias. There was no reduction in short-term combined medication and symptom scores SMD 0.17 (95% CI 0.23, 0.58), but one study showed a beneficial long-term effect. For secondary outcomes, subcutaneous immunotherapy (SCIT) improved quality of life and decreased allergen-specific airway hyperreactivity (AHR), but this was not the case for sublingual immunotherapy (SLIT). There were no consistent effects on asthma control, exacerbations, lung function, and nonspecific AHR. AIT resulted in a modest increased risk of adverse events (AEs). Although relatively uncommon, systemic AEs were more frequent with SCIT; however no fatalities were reported. The limited evidence on cost-effectiveness was mainly available for sublingual immunotherapy (SLIT) and this suggested that SLIT is likely to be cost-effective. Conclusions: AIT can achieve substantial reductions in short-term symptom and medication scores in allergic asthma. It was however associated with a modest increased risk of systemic and local AEs. More data are needed in relation to secondary outcomes, longer-term effectiveness and cost-effectiveness. / EAACI; BM4SIT. Grant Number: 601763; European Union's Seventh Framework Programme FP7

Allergen immunotherapy

Allergic asthma

Cost-effectiveness

Effectiveness

Safety

Challenges in the implementation of the EAACI AIT guidelines: A situational analysis of current provision of allergen immunotherapy

Ryan, D., van Wijk, R.G., Angier, E., Kristiansen, M., Zaman, Hadar, Sheikh, A., Cardona, V., Vidal, C., Warner, A., Agache, I., Arasi, S., Fernandez-Rivas, M., Halken, S., Jutel, M., Lau, S., Pajno, G., Pfaar, O., Roberts, G., Sturm, G., Varga, E.M., van Ree, R., Muraro, A.

12 December 2017

No / Purpose: The European Academy of Allergy and Clinical Immunology (EAACI) has produced Guidelines on Allergen Immunotherapy (AIT). We sought to gauge the preparedness of primary care to participate in the delivery of AIT in Europe. Methods: We undertook a mixed‐methods, situational analysis. This involved a purposeful literature search and two surveys: one to primary care clinicians and the other to a wider group of stakeholders across Europe. Results: The 10 papers identified all pointed out gaps or deficiencies in allergy care provision in primary care. The surveys also highlighted similar concerns, particularly in relation to concerns about lack of knowledge, skills, infrastructural weaknesses, reimbursement policies and communication with specialists as barriers to evidence‐based care. Almost all countries (92%) reported the availability of AIT. In spite of that, only 28% and 44% of the countries reported the availability of guidelines for primary care physicians and specialists, respectively. Agreed pathways between specialists and primary care physicians were reported as existing in 32%‐48% of countries. Reimbursement appeared to be an important barrier as AIT was only fully reimbursed in 32% of countries. Additionally, 44% of respondents considered accessibility to AIT and 36% stating patient costs were barriers. Conclusions: Successful working with primary care providers is essential to scaling‐up AIT provision in Europe, but to achieve this, the identified barriers must be overcome. Development of primary care interpretation of guidelines to aid patient selection, establishment of disease management pathways and collaboration with specialist groups are required as a matter of urgency.

Barriers

Care pathways

Educational needs

Immunotherapy guidelines

Primary care

CCR7 as a therapeutic target in Cancer

Salem, Anwar, Alotaibi, Mashael, Mroueh, Rima, Basheer, H.A., Afarinkia, Kamyar

18 January 2021

Yes / The CCR7 chemokine axis is comprised of chemokine ligand 21 (CCL21) and chemokine ligand 19 (CCL19) acting on chemokine receptor 7 (CCR7). This axis plays two important but apparently opposing roles in cancer. On the one hand, this axis is significantly engaged in the trafficking of a number of effecter cells involved in mounting an immune response to a growing tumour. This suggests therapeutic strategies which involve potentiation of this axis can be used to combat the spread of cancer. On the other hand, the CCR7 axis plays a significant role in controlling the migration of tumour cells towards the lymphatic system and metastasis and can thus contribute to the expansion of cancer. This implies that therapeutic strategies which involve decreasing signaling through the CCR7 axis would have a beneficial effect in preventing dissemination of cancer. This dichotomy has partly been the reason why this axis has not yet been exploited, as other chemokine axes have, as a therapeutic target in cancer. Recent report of a crystal structure for CCR7 provides opportunities to exploit this axis in developing new cancer therapies. However, it remains unclear which of these two strategies, potentiation or antagonism of the CCR7 axis, is more appropriate for cancer therapy. This review brings together the evidence supporting both roles of the CCR7 axis in cancer and examines the future potential of each of the two different therapeutic approaches involving the CCR7 axis in cancer.

Chemokine

CCR7

CCL19

CCL21

Cancer

Metastasis

Immunotherapy

Therapy

The Multiple Faces of Genetically-Modified T Cells : Potential Applications in Therapy

Hillerdal, Victoria

January 2014

In this PhD thesis the potential of T-cells as therapy for disease are explored. The applications of genetically modified T-cells for treatment of cancer and autoimmune disease; the functionality and optimal activation of T-cells are discussed. Successful treatment of cancer with T-cell receptor (TCR)-modified T-cells was first reported in 2006, and is based on recognition of a specific peptide by the TCR in the context of the MHC molecule. As antigen presentation in tumors is often defective and to avoid MHC-restriction, chimeric antigen receptors (CAR) molecules containing an antibody part for recognition of cell surface antigens and TCR and co-receptor signaling domains have been developed. Activated T-cells mount an efficient immune response resulting in the killing of the cancer cell and initiating T-cell proliferation. The rationale for using genetically modified T-cells instead of isolating tumor infiltrating lymphocytes from the tumor and expanding them (TIL therapy) is that it is often very difficult to obtain viable lymphocytes that are able to expand enough in order to use them for therapy. This thesis explores the possibility of using prostate-specific antigens to target T-cells towards prostate cancer. The prostate has many unique tissue antigens but most patients with metastatic prostate cancer have undergone prostatectomy and consequently have “prostate antigen” expression only in cancer cells. We targeted the prostate antigens TARP and PSCA with a HLA-A2 restricted TCR and a CAR respectively. In both cases the tumor-specific T-cells were able to generate potent proliferative and cytotoxic responses in vitro. The PSCA CAR-modified T-cells delayed subcutaneous tumor growth in vivo. It is evident from our in vivo experiments that the PSCA CAR T-cells were unable to completely cure the mice. Therefore, we aimed to improve the quality of the transferred T-cells and their resistance to the immunosuppressive tumor microenvironment. Stimulation with allogeneic lymphocyte-licensed DCs improved the resistance to oxidative stress and antitumor activity of the T-cells. We further investigated the potential of genetically modified regulatory T-cells (Tregs) to suppress effector cells in an antigen-specific manner. Using a strong TCR we hypothesize that the phenotype of the TCR-transduced Tregs may be affected by antigen activation of those cells. We found that the engineered Tregs produced cytokines consistent with Th1, Th2 and Treg phenotypes.

cancer immunotherapy

genetically engineered T cells

chimeric antigen receptor

T cell receptor

antigen-specific T cells

immunotherapy

An investigation of the rate of change of CD4 and CD8 T lymphocyte counts and viral loads in HIV infected patients on immune boosters

Mkhize, Brenda Thabisile

January 2007

Thesis (M.Tech.: Biomedical Technology)-Dept. of Biomedical Technology, Durban University of Technology, 2007 xxiii, 244 leaves / In 2004, it was reported that KwaZulu-Natal had the greatest number of HIV infected people, approximately 1.8 million people, of whom an estimated 450 000 were in need of antiretroviral drug therapy based on their Cluster of Differentiation 4 (CD4) counts and clinical status. Studies on the success of antiretroviral drugs in improving the quality of life in HIV infected individuals have been extensively performed and published. However, there are no published data on the effect that immune boosters have in improving the quality of life in such persons. Considering the side effects, toxicity, multi-drug regimens and drug resistance problems associated with antiretroviral therapy, alternative or supplementary therapies may play an important role in improving the quality of life in HIV infected people. Such therapy might help in situations where some patients who qualify for antiretroviral treatment are unable to access them because of several reasons such as long waiting lists, travelling costs, unwilling to take antiretroviral drugs, etc. Some patients have reservations in taking antiretroviral drugs. The stigma associated with the disease may be a major factor. The aim of this study was to investigate the change in the immune status of HIV infected patients that were on the Inochi New Medicine immune booster, as well as, to assess the safety and efficacy of this immune booster in improving the patients’ quality of life.

AIDS (Disease)--Immunotherapy

AIDS (Disease)--Patients--Drug use

AIDS (Disease)--Alternative treatment

Antiretroviral agents

Immunotherapy

Antiviral agents--Therapeutic use

Herbs--Therapeutic use

Intra-tumoural regulatory T cells : a potential new target for anti-cancer immunotherapy

Ireland, Demelza Jane

January 2007

[Truncated abstract] Previous studies in the field of tumour immunology had identified regulatory T (Treg) cells as important suppressors of the anti-tumour immune response as the presence of Treg cells in the peripheral blood of cancer patients was correlated with worse disease outcomes. Other studies had identified Treg cells to be active at sites of immune regulation such as the gut of colitis patients. It was therefore hypothesised that Treg cells would be present and active within tumours to suppress the cellular antitumour immune response. ... This treatment targeting multiple pathways of Treg cell mediated immuno-suppression and resulted in tumour regression in 50% of treated animals. Finally, the anti-tumour immune response is complex and a potentially synergistic multi-modality treatment designed to inactivate intra-tumoural Treg cells but to also induce apoptosis in tumour cells themselves was investigated. Alpha-tocopheryl succinate (α-TOS), an analogue of vitamin E, had previously been shown to induce apoptosis in human MM xenografts implanted into immuno-deficient (nude) mice. Administration of α-TOS was therefore examined as a potentially synergistic treatment to be coupled with Treg cell inactivation. At the previously published doses used to treat immuno-deficient mice, α-TOS was found to be toxic to the immuno-competent mice used in this study. A marked depleting effect on total T cells was seen in the treated animals. The results of this thesis demonstrated the high potential for an adjunct immunotherapy of MM. They did however also highlight the importance of future studies into anticancer therapies to be conducted using clinically relevant tumour models and clinically relevant treatment regimes. The need to consider synergistic multi-modal therapies was also emphasised.

Asbestosis -- Toxicology

Cancer -- Immunotherapy

Cancer -- Treatment

Carcinogenesis

Immune response -- Regulation

T cells -- Receptors

Regulatory T cells

Immunotherapy

Murine model of mesothelioma

Intra-tumoural

Dissecting early mechanism of melanoma cell resistance to cytotoxic T lymphocyte attack / Etude du mécanisme précoce de la résistance des cellules du mélanome à l'attaque des lymphocytes T cytotoxique

Khazen, Roxana

26 January 2016

Les cellules de mélanome humain expriment différents antigènes tumoraux qui sont reconnus par les lymphocytes T cytotoxiques CD8 + (CTL) induisant des réponses spécifiques de la tumeur in vivo. Cependant, chez les patients atteints de mélanome l'efficacité de la réponse naturelle des CTL ou stimulée par thérapie est limitée. Les mécanismes sous-jacents de l'échec de la phase effectrice des CTL contre les mélanomes sont encore largement méconnus. Notre hypothèse est que l'efficacité limitée des CTL dans leur combat contre les tumeurs est le résultat d'une balance défavorable entre la capacité des CTL à tuer les tumeurs et une résistance tumorale intrinsèque à l'activité cytolytique des CTL. Au cours de ma thèse je me suis concentrée sur la dynamique moléculaire qui se produit à la synapse lytique afin de pouvoir identifier un mécanisme précoce mis en place par les cellules de mélanome face à l'attaque des CTL. En combinant l'utilisation d'approches de microscopie de pointe et des outils moléculaires, j'ai pu montrer que, lors de l'interaction avec les CTL, les cellules de mélanome humain subissent une activation de leur trafic vésiculaire endosomal et lysosomal, lequel est intensifié à la synapse lytique et corrèle avec la dégradation par la cathepsine de la perforine et un défaut de pénétration d'entrée du granzyme B. De plus, j'ai démontré que le blocage du trafic lysosomal dépendant de SNAP23, la modification du pH (intra-vésiculaire) et l'inhibition de l'activité lysosomale protéotlytique des cellules de mélanome permet de restaurer leur sensibilité à l'attaque des CTL. Nos résultats révèlent une stratégie sans précédent d' " auto-défense " des cellules de mélanome à la synapse immunologique basée sur une sécrétion lysosomale massive et sur la dégradation de la perforine sécrétée par les CTL. Ainsi pouvoir interférer avec cette stratégie synaptique d'auto-défense des cellules de mélanome pourrait contribuer à potentialiser les réponses des CTL et les immunothérapies chez les patients atteints de mélanome. / Human melanoma cells express various tumor antigens that are recognized by CD8+ cytotoxic T lymphocytes (CTL) and elicit tumor-specific responses in vivo. However, natural and therapeutically enhanced CTL responses in melanoma patients are of limited efficacy. The mechanisms underlying the failure of CTL effector phase against melanomas are still largely elusive. Our hypothesis is that the limited efficacy of CTL in their fight against tumors is the result of an unfavorable balance between CTL ability to kill tumors and an intrinsic tumor resistance to CTL cytolytic activity. During my thesis I focused on the molecular dynamics occurring at the lytic synapse in order to identify possible "early response-mechanism" of melanoma cells to CTL attack. Using a combination of cutting edge microscopy approaches and molecular tools, I showed that upon conjugation with CTL, human melanoma cells undergo an exacerbated late endosome/lysosome trafficking, which is intensified at the lytic synapse and is paralleled by cathepsin-mediated perforin degradation and deficient granzyme B penetration. Abortion of SNAP-23-dependent lysosomal trafficking, pH perturbation or impairment of lysosomal proteolytic activity restores susceptibility to CTL attack. Our results reveal an unprecedented strategy of melanoma cell "self-defense" at the immunologic synapse based on a lysosome secretory burst and perforin degradation at the lytic synapse. Interfering with this synaptic self-defense strategy might be instrumental to potentiate CTL-mediated therapies in melanoma patients.

Lytic synapse

Melanoma

Cytotoxic T cells

Late lysosomes endosomes

Cathepsin

Perforin

Immunotherapy

Monensin

Lytic synapse

Melanoma

Cytotoxic T cells

Late lysosomes endosomes

Cathepsin

Perforin

Immunotherapy

Monensin

Immunotherapy of children with rhinoconjunctivitis due to birch pollinosis

Möller, Christian

January 1986

In this investigation of immunotherapy (IT) children 6-16 years old with rhinoconjunctivitis due to birch polli­nosis were included. I. Methodological studies. To monitor IT a reliable provocation test is desirable. The conjunctival provocation test (CPT) was evaluated in 20 children with four repeated challenges. The test was found to have a good preci­sion, it was simple and appeared to be clinically safe. After repeated tests the levels of IgE antibodies against birch increased considerably in three children, indicating an immunological response. A pollen peak affects the symptoms of an atopic individual for several days. Thus pollen counts for previous days must be taken into account when relating symptom scores with the counts. A dynamic time series model was therefore developed by which groups of atopic patients could be compared when exposed to different amounts of pollens. II: Cross-reactivity between deciduous trees during IT. Immunotherapy with pollen allergen preparations made from either birch (B) or a mixture of birch, alder and hazel (M) were compared. As measured with symptom scores the children in the M group improved at least as much as those in the B group. In the B group but not in the M group the improvement correlated with immunochemical findings before IT or early during the treatment, probably an unsignificant finding. Otherwise there was little difference between the two groups. Analysis of sera with crossed radioimmunoelectrophoresis in 20 children revealed that 60% of the children below 13 years had de­veloped IgE antibodies during IT against allergens against which they had not been allergic before IT. This had no appearent clinical implications. III: Oral immunotherapy (OIT). A pilot study of 18 children treated with high doses of a birch pollen allergen preparation in enteric coated capsules and 8 untreated controls indicated that OIT was effective as shown by lower symptom scores, less conjuctival sensitivity and increased levels of IgE antibodies against birch. However, the gastrointestinal side-effects were pronounced. Therefore a second double-blind study, in 30 children, was performed reducing the side-effects through a different dose schedule. Compared with the placebo group, the ac­tively treated children had lower symptom scores (p = 0.04), reduced skin sensitivity (p = 0.01), increasing levels of IgE (p = 0.001) and IgG (p = 0.007) antibodies against birch before the birch pollen season and a suppression of the seasonal increase in levels of IgE antibodies against birch (p <0.001). After three months of OIT but not after ten months they also had a lower sensitivity in CPT than the controls (p = 0.01). The intestinal permeability as assessed by the urinary recovery of differently-sized polyethyleneglycols was studied in 24 of the children during IT. No changes were seen in the group of actively treated children. In two ad­ditional children openly treated with OIT small bowel biopsies were taken with normal morphological findings. Thus OIT did not result in a generalized inflammation of the small bowel. / digitalisering@umu

Birch pollinosis

Conjunctival provocation test

Crossed radioimmunoelectrophoresis

Crossreactivity tree pollens

Immunotherapy

Oral immunotherapy

Polyethyleneglycol absorption

Pollen counts

Rhinoconjunctivitis

Symptom score

Medical and Health Sciences

Medicin och hälsovetenskap

Caractérisation de peptides HLA-A2.1 restreints immunogènes dans le cadre des cancers colorectaux à instabilité microsatellitaire : développement de nouvelles approches d'immunothérapie cellulaire spécifique / Characterization of restricted immunogene HLA-A2.1 peptides within the framework of the colorectal cancers with microsatellite instability : development of new specific cellular immunotherapy approaches

Kora, Hafid

17 January 2017

L’immunothérapie représente une avancée majeure dans la prise en charge des patients atteints de cancer. L’utilisation thérapeutique récente des anticorps anti-"checkpoints", qui renforcent la réponse immunitaire cellulaire naturelle anti-tumorale, a relancé l’intérêt d’approches d’immunothérapie cellulaire spécifique dans les cancers. Malgré tout, l’identification d'antigènes capables de stimuler efficacement des lymphocytes T (LT) anti-tumoraux représente un obstacle majeur au développement de telles approches. Pour identifier de tels antigènes, des cellules présentatrices d’antigène (CPA) artificielles (CPAA), capables d’exprimer, après transduction gamma-rétrovirale, des peptides directement codés ou des antigènes entiers, dégradés par ces cellules, comme le feraient des CPA humaines, en peptides présentés au sein de la molécule du CMH de classe I la plus fréquente chez l'homme, HLA-A2.1, ont été développées au laboratoire. Ces CPAA sont capables de stimuler efficacement des LT cytotoxiques (LTC) spécifiques contre des antigènes tumoraux. Deux grandes approches d’identification des antigènes tumoraux d’intérêt thérapeutique, ont été utilisées. La première est une approche directe d’identification des peptides basée sur l’élution des peptides HLA-A2.1-restreints présentés par nos CPAA et leur analyse par spectrométrie de masse. La seconde est une approche d’immunologie inverse basée sur des prédictions in silico d’épitopes HLA-A2.1-restreints reposant sur des données biochimiques des poches du CMH. Dans les deux approches, des tests fonctionnels d’activation de LTC spécifiques ont été effectués avec nos CPAA. Dans la première étude, nous avons utilisé la spectrométrie de masse en tandem couplée à la chromatographie en phase liquide, qui a été jusqu'à présent la technologie permettant l'identification rapide de centaines de ligands du CMH dans différentes approches expérimentales. En partant de CPAA codant les peptides immunogènes connus M1m, M1 ou FSP02, des LTC spécifiques de ces peptides ont été obtenus, et nous avons réussi à les caractériser par spectrométrie de masse. En partant de CPAA codant les protéines entières desquelles ces peptides sont dérivés, des LTC spécifiques des peptides ont également été obtenus mais nous n’avons pas réussi à les caractériser par spectrométrie de masse. Des peptides très immunogènes, capables de stimuler de fortes réponses immunitaires cellulaires anti-tumorales, peuvent donc échapper à une détection par spectrométrie de masse, rendant ainsi discutable l'utilisation de cette technique pour sélectionner des peptides d’intérêt clinique. Dans la deuxième étude, nous sommes partis de peptides prédits. Nous avons pu monter des réponses immunitaires spécifiques contre les néoépitopes FSP25 et FSP26 prédits in silico, dérivés de la protéine mutée CASP5 (-1) retrouvée chez 60% de patients atteints de cancer colorectal (CCR) à instabilité microsatellitaire (IMS). La CASP5 est impliquée dans l’apoptose et nous avons montré que les patients atteints d’un CCR à IMS présentant cette mutation avaient un moins bon pronostic. Nous avons également montré que chez des patients HLA-A2+ atteints d’un CCR à IMS présentant la mutation, des LTC pouvaient être obtenus contre les épitopes FSP25 et FSP26, capables de lyser spécifiquement la lignée cellulaire HLA-A2.1+ HCT116 dérivée d’un CCR à IMS présentant également la mutation, faisant de la protéine mutée CASP5 (-1) une cible thérapeutique de choix chez ces patients. Dans ces deux études, nos CPAA constituaient un outil de choix pour le développement d’approches d’immunothérapie spécifique personnalisée, soit cellulaire adoptive, pour déterminer quels antigènes devraient être ciblés ou pour directement activer et amplifier in vitro des LT injectés in vivo, soit vaccinale, pour déterminer les antigènes les plus immunogènes à inclure dans un vaccin efficace. / Immunotherapy represents a major advance in cancer patient management. Recent use of anti-checkpoint antibodies, that reinforce the natural cellular anti-tumor immune response, has revived interest for specific cellular immunotherapy approaches in cancers. Nevertheless, the difficulty of identifying highly immunogenic tumor antigens capable of specifically stimulating efficient anti-tumor T lymphocytes (TLs) is a considerable barrier to the development of such approaches. In order to identify such antigens, artificial antigen presenting cells (AAPCs) expressing the most common HLA class I molecule, HLA-A2.1, were developed in the laboratory. After gammaretroviral transduction, these AAPCs also express a directly-encoded peptide of interest or a full-length antigen, degraded by these cells into peptides as human antigen presenting cells (APCs) do. These AAPCs are capable of efficiently stimulating specific cytotoxic T lymphocytes (CTLs) against tumor antigens. Two major approaches for the identification of tumor antigens of therapeutic interest have been used. The first one is a direct approach of identification of HLA-A2.1-restricted peptides based on the elution of HLA-A2.1-peptide complexes expressed by our AAPCs and their analysis by mass spectrometry. The second one is a reverse immunology approach based on in silico predictions of HLA-A2.1-restricted epitopes using available MHC pocket biochemical data. In both approaches, functional tests were performed in vitro with our AAPCs to test the immunogenicity of the studied peptides. In the first study, we used tandem mass spectrometry coupled with liquid chromatography, which has been until today the technology of choice for the rapid identification of hundreds of MHC ligands in different experimental approaches. Starting from AAPCs encoding known immunogenic M1m, M1 and FSP02 peptides, specific CTLs could be obtained against these peptides, and we were able to characterize them by mass spectrometry. Starting from AAPCs encoding full length antigens from which these peptides are derived, peptide-specific CTLs were also obtained, but we were unable to characterize them by mass spectrometry. Therefore, highly immunogenic peptides, capable of stimulating strong anti-tumor cellular immune responses, may not be detected by mass spectrometry, rendering questionable the use of this technique for selecting clinically relevant peptides. In the second study, we started from predicted peptides. We were able to mount specific immune responses against FSP25 and FSP26 in silico predicted neoepitopes, derived from the CASP5 (-1) mutated protein found in 60% of microsatellite instability (MSI) colorectal cancer (CCR) patients. CASP5 is involved in programmed cell death and we have shown that MSI CRC patients whose tumors harbored this CASP5 (-1) mutation had less good prognosis. We have also shown that in HLA-A2+ MSI CASP5 (-1)-mutated CRC patients, specific CTLs could be obtained against FSP25 and FSP26 epitopes, capable of specifically lysing HLA-A2+ MSI CRC cell line HCT116 also harboring this mutation. Therefore, the mutated caspase-5 protein might be a therapeutic target of major interest for personalized specific immunotherapy strategies in the context of MSI CASP5 (-1)-mutated CRCs. In both studies, our AAPCs were a tool of choice for the development of personalized specific immunotherapy strategies, either for cellular adoptive approaches, to determine which antigens should be targeted or to directly activate and amplify in vitro antigen of interest-specific TLs which would be transferred in vivo, or for vaccine approaches, to identify the most immunogenic antigens which should be included in an efficacious vaccine

Immunologie

Cancers colorectaux

Immunothérapie cellulaire

Cellules présentatrices d'antigènes

Immunothérapie adoptive

Immunology

Colorectal neoplasms

Cellular immunotherapy

Antigen presenting cells

Adoptive Immunotherapy

616.994

IgG-mediated Immune Suppression: the Effect on the Host Immune System

Brinc, Davor

30 July 2008

One of the most effective immunological interventions for human disease prevention is the administration of anti-red blood cell (RBC) IgG, more specifically, anti-D IgG, for prevention of hemolytic disease of the fetus and newborn (HDN), a serious and potentially fatal condition caused by the maternal immune response against the Rhesus (Rh) blood group system D antigen on fetal RBC. Despite its widespread clinical use, the mechanism of the suppressive anti-RBC IgG effect is not fully understood. In a murine model of immunity to foreign RBCs, transfusion of mice with IgG-opsonized RBCs strongly attenuated the antibody response compared to transfusion of untreated RBCs. This model was used to study the anti-RBC IgG effect on the host immune response. Contrary to the predominant theories of the anti-D effect, here it is shown that IgG-mediated RBC clearance is not sufficient for the attenuation of antibody responses. IgG-opsonized RBCs internalized by the mononuclear phagocytic cells could stimulate T and B cell responses against RBC antigens. This thesis also shows that the adaptive tolerance at the T or B cell level is not the reason for the attenuation of the antibody response. Instead, IgG selectively prevented the appearance of antigen-primed RBC-specific B cells and, surprisingly, induced the host B cell response against the IgG in complex with RBCs. These results suggest that the inability of RBC-specific B cells to recognize and present RBC-specific epitopes may explain the inhibitory IgG effect.

Hemolytic Disease of the Newborn

Immunotherapy

Antibody-mediated immune suppression

Immune regulation

0982