Neuroblastoma and gastrointestinal stromal tumor as a target for natural killer lymphocytes : the role of ncr3/nkp30 / Activité anti-tumorale des lymphocytes natural killer dans le neuroblastome et la tumeur gastrointestinal : le rôle de ncr3/nkp30

Semeraro, Michaela

05 September 2013

Depuis la formulation de la théorie de l’immuno-surveillance en 1957 par Burnet et Thomas, le monde scientifique s’est efforcé d’identifier les cellules immunitaires impliquées dans ce processus. Les lymphocytes Natural Killer (NK) constituent une composant majeure de l’immuno-surveillance innée dans plusieurs cancers hématologiques et solides. L’activité des lymphocytes NK passe principalement par une grande variété de récepteurs avec un rôle activateur ou inhibiteur. Parmi les récepteurs activateurs présents à la surface des lymphocytes NK, le récepteur NCR3/NKp30 a un rôle majeur dans la toxicité directe contre la cellule cible et dans l’activation des cellules dendritiques.Les tumeurs stromales gastrointestinales (GIST) et le Neuroblastome (NB) sont deux tumeurs sensibles à l’immuno-surveillance par les lymphocytes NK. Dans une étude récente notre équipe a démontré que l’épissage alternatif du gène NCR3/NKp30 peut être déterminant dans la fonction NK et dans la survie des patients atteints de GIST.Afin de caractériser les lymphocytes infiltrant le GIST, nous avons effectué une recherche visant à analyser l’infiltrat des lymphocytes CD3+, des lymphocytes T régulateurs (Treg) et des lymphocytes NK dans des tumeurs GIST localisés, et corréler ces résultats à la survie des patients. Nous avons mis en évidence que, avant traitement, les lymphocytes NK sont surtout localisés au niveau des fibres trabéculaires qui entourent la tumeur, alors que les lymphocytes T sont localisé à l’intérieur de la tumeur en contact avec les cellules tumorales qui expriment HLA-I.Nous avons aussi observé que les cellules NK ont un phénotype plutôt CD56bright et migrent à l’intérieur de la tumeur après traitement par Imatinib. L’analyse de survie a mis en évidence que les lymphocytes NK et T peuvent prédire la survie sans progression (PFS). Ces résultats mettent en évidence l’importance de l’infiltrat immunitaire dans la prédiction du risque de rechute dans le GIST et surlignent l’importance de viser une réponse immunitaire dans les protocoles thérapeutiques.Nous avons ensuite déterminé la proportion de lymphocytes NK dans le sang périphérique et dans la moelle dans une cohorte de Neuroblastome (NB) localisé et métastatique : une infiltration plus important par les NK CD56bright a été observé chez les patients présentant une maladie métastatique et chez les patients avec une réponse mineure au traitement d’induction. De plus, les NK présents dans les échantillons de moelle osseuse infiltrés par les neuroblastes, présentaient une expression plus basse du récepteur NKp30. L’expression du ligand de NKp30, B7-H6, a été mise en évidence sur les neuroblastes infiltrant la moelle osseuse, et sa forme soluble, sB7-H6, a été retrouvée être positivement corrélée à l’extension de maladie et inversement à la réponse au traitement d’induction. L’analyse de l’épissage alternatif du gène NCR3/NKp30 a permis de mettre en évidence l’impact des isoformes NKp30 sur la survie sans progression chez les patients atteints de NB de haut risque en maladie minimale résiduelle après chimiothérapie d’induction. En particulier, les patients présentant un taux élevé de l’isoforme pro-inflammatoire (NKp30b) par rapport à l’isoforme immunosuppressive (NKp30c), présentent une meilleure survie sans évènement. Nous avons aussi démontré le rôle des monocytes dans l’amplification de la réponse NKp30 dépendant. Les résultats de notre recherche dans le GIST et dans le NB, deux maladies différentes mais toutes les deux sensibles aux lymphocytes NK, surlignent l’importance d’intégrer de nouvelles options thérapeutiques aptes à cibler le système immunitaire. / Since Burnet and Thomas formulated in 1957 the cancer immunosurveillance theory, the scientific world has made tremendous progress to identify the immune cells involved in this process. Natural Killer (NK) cells have emerged as a major component of the innate immunosurveillance of several hematological and solid malignancies. The activity of NK-cells is mainly mediated through their wide variety of receptors with activating and inhibitory functions. Among the versatile receptors present on NK cells, the activating receptor NCR3/NKp30 is a major receptor involved in both direct killing of target cells and mutual NK and dendritic cell activation.Gastrointestinal stromal tumors (GIST) and Neuroblastoma (NB) are known to be tumors sensitive to NK immunosurveillance. In a recent study we showed that alternative splicing of NCR3/NKp30 gene can affect NK cell function and GIST patient’s outcome.In order to better characterize the GIST tumor-infiltrating lymphocytes, we analyzed the CD3+, T regulatory (Treg) and NK lymphocytes infiltration within primary localized GIST tumors and we determined their prognostic value. We described that, before treatment, NK cells are mainly localized in fibrous trabeculae while T lymphocytes are in the tumor nests in HLA-I positive tumor cells contact. Moreover infiltrating NK cells displayed a secreting CD56bright phenotype, and accumulate in tumor nests after Imatinib (IM) treatment. Importantly CD3+ and NK lymphocytes independently predicted progression free survival (PFS). These results highlight the importance of the immune infiltrate in re-define the GIST risk stratification and allow enhancing the immune response in the therapeutic decisions.We next investigated the proportions of NK cells in blood and bone marrow (BM) in a cohort of localized and metastatic NB; a high proportion of CD56bright NK cells was associated with metastatic NB and with poor response to induction treatment within the metastatic NB. Moreover, infiltrated BM presented NKp30 down regulation. The expression of the NKp30 ligand, B7-H6, was found on BM neuroblasts, while the soluble protein, sB7-H6 correlated with resistance to treatment. Furthermore the transcriptional status of NKp30/NCR3 dictated the event-free survival rates of HR-NBs with minimal residual disease post-induction chemotherapy: in particular patients presenting a high proportion of the immunosuppressive isoform (NKp30c) compared to the pro-inflammatory isoform (NKp30b), presented a worse outcome. We further demonstrated the significant role of monocytes to amplify the NKp30 activation response.These researches in GIST and NB, two different but at the meantime NK-sensitive diseases support the effort to define new immunological therapeutic approaches and to determine their optimal use.

Lymphocytes Natural Killer

Neuroblastome

GIST

NKp30

Natural Killer LymphocytesKiller

Neuroblastoma

GIST

NKp30

Rôle du stress hypoxique dans la régulation de la réponse immunitaire anti-tumorale des lymphocytes "Natural Killer" / Role of hypoxic stress in the regulation of the anti-tumor immune response mediated by Natural killer lymphocytes.

Berchem, Guy

22 December 2014

Le microenvironnement tumoral, et notamment le stress hypoxique, joue un rôle immunosuppressif permettant l’échappement des cellules tumorales à la surveillance du système immunitaire. Des études récentes ont montré que l’échange de microvésicules (MVs) entre les cellules tumorales et les cellules du système immunitaire peut être responsable de l’établissement d’un microenvironnement immunosuppressif. Dans ce contexte, nous avons étudié l’effet des MVs issues des cellules tumorales hypoxiques sur la cytotoxicité des cellules «Natural Killer» (NKs). Nos résultats démontrent clairement que les cellules NKs sont capables d’internaliser les MVs issues des cellules tumorales normoxiques et hypoxiques. Cependant, seules les MVs hypoxiques sont capables de diminuer significativement la cytotoxicité des cellules NKs. Ainsi, nous avons déterminé que les MVs dérivées des cellules tumorales hypoxiques séquestrent deux immunomodulateurs, le TGF- et le miR-23a. Nous avons montré que le transfert de TGF- et miR-23a aux cellules NKs était responsable de la diminution respective de l’expression du récepteur activateur NKG2D à leur surface et de la protéine membranaire associée aux lysosomes (LAMP-1/CD107a) impliquée dans la dégranulation des granules cytotoxiques. Dans la deuxième partie de cette étude nous avons montré que les cellules tumorales soumises à un stress hypoxique étaient capables de déjouer un système immunitaire fonctionnel et d’échapper ainsi à la surveillance immunitaire des cellules NKs. En effet, nos résultats ont clairement démontré que la résistance des cellules tumorales hypoxiques à la lyse par les cellules NKs n’était pas liée à un défaut de reconnaissance, mais plutôt à l’activation d’un mécanisme de résistance intrinsèque dans les cellules tumorales. Ce mécanisme de résistance implique l’activation de l’autophagie qui opère dans les cellules tumorales pour dégrader le granzyme B, une protéase à sérine secrétée par les cellules NKs dont l’internalisation par les cellules tumorales cibles est nécessaire pour induire leur mort. Les expériences d’imagerie cellulaire combinées à des approches biochimiques ont confirmé que le niveau de granzyme B dans les cellules tumorales hypoxiques était significativement mois élevé par rapport à celui des cellules tumorales normoxiques. Ces résultats suggèrent fortement que le granzyme B est destiné à être dégradé par autophagie dans les cellules tumorales hypoxiques. En effet, l’inhibition génétique et pharmacologique de l’autophagie dans les cellules tumorales hypoxiques était suffisante pour contrecarrer la dégradation de granzyme B et ainsi restaurer la sensibilité des cellules tumorales hypoxiques à la lyse par les cellules NKs. Nos résultats ont clairement établi que l’inhibition de l’autophagie pouvait améliorer la réponse immunitaire antitumorale dépendante des cellules NK. Nous avons validé ce concept in vivo chez la souris en utilisant deux modèles syngéniques de cancer du sein et de mélanome. L’ensemble de nos travaux indiquent clairement que le stress hypoxique, qui est une caractéristique majeure du microenvironnement tumoral, peut favoriser l’établissement d’un microenvironnement immunosuppressif par plusieurs mécanismes qui ne s’excluent pas mutuellement. En effet, le stress hypoxique modifie les caractéristiques des cellules tumorales et active des mécanismes de résistance à la surveillance immunitaire. De plus, les cellules tumorales modifiées peuvent éduquer et exporter leur phénotype hypoxique aux cellules immunitaires présentes dans le microenvironnement afin d’affaiblir leur pouvoir cytotoxique. Nos résultats ouvrent ainsi la voie à la mise en place de nouvelles applications cliniques en immunothérapie anticancéreuse basées sur la réactivation des lymphocytes cytotoxiques et l’inhibition simultanée de l’autophagie. / The tumor microenvironment, including hypoxic stress plays an immunosuppressive role in tumor cell escape from immune surveillance. Recent studies have shown that the exchange of microvesicles (MVs) between tumor cells and cells of the immune system could be responsible for the establishment of an immunosuppressive microenvironment. In this context, we investigated the effect of MVs derived from hypoxic tumor cells on the cytotoxicity of Natural Killer (NK) cells. Our results clearly demonstrated that NK cells are able to internalize MVs derived from both normoxic and hypoxic tumor cells. However, only hypoxic MVs are able to significantly reduce the cytotoxicity of NK cells. Thus, we revealed that MVs derived from hypoxic tumor cells sequester two immunomodulators, TGF- and miR-23a. We have shown that the transfer of TGF- and miR-23a to NK cells was responsible for the respective reduction of the expression of NKG2D activating receptor on their surface and lysosomal-associated membrane protein (LAMP-1 / CD107a) involved in degranulation of cytotoxic granules.In the second part of this thesis we have shown that tumor cells subjected to hypoxic stress were able to outmaneuver a functional immune system and thus escape NK-mediated immune surveillance. Indeed, our results clearly demonstrated that the resistance of hypoxic tumor cells to NK-mediated lysis was not related to the impairment of recognition by NK cells, but rather to the activation of an intrinsic resistance mechanism in tumor cells. We showed that the resistance mechanism involves the activation of the autophagy which operates in the tumor cells to degrade the granzyme B, a serine protease secreted by NK cells and internalized by target tumor cells to induce cell death. Cell imaging experiments combined to biochemical approaches have confirmed that the level of granzyme B in hypoxic tumor cells was significantly higher compared to normoxic tumor cells. The analysis of the subcellular distribution of granzyme B reveals that it is predominantly present in the endosomes and autophagosomes of hypoxic tumor cells. These results strongly suggest that granzyme B is subjected to be degraded by autophagy in hypoxic tumor cells. Genetic and pharmacological inhibition of autophagy in hypoxic tumor cells was sufficient to block the degradation of granzyme B and thus restore the sensitivity of hypoxic tumor cells to NK-mediated lysis. Our results clearly demonstrated that inhibition of autophagy could improve NK-mediated antitumor immune response. We validated this concept in vivo using two syngeneic mice model of breast cancer and melanoma.Taken together, our work clearly shows that hypoxic stress, which is a major feature of the tumor microenvironment, can promote the establishment of an immunosuppressive microenvironment by several mechanisms which are not mutually exclusive. Thus, hypoxic stress changes the characteristics of tumor cells and activates the mechanisms of resistance to immune surveillance. In addition, tumor cells can educate and export their hypoxic phenotype to the immune cells in the microenvironment in order to impair their cytotoxicity. Our findings pave the way for the development of new clinical applications in cancer immunotherapy based on the reactivation of cytotoxic lymphocytes and simultaneous inhibition of autophagy.

Hypoxie

Natural killer

Microenvironement tumoral

Réponse immunitaire

Autophagie

Hypoxia

Natural killer

Tumor Microenvironment

Immune response

Autophagy

Avaliação do percentual de células Natural Killer e de auto-anticorpos em sangue periférico de pacientes com endometriose pélvica / Evaluation of the percentage of natural killer cells and autoantibodies in the peripheral blood of patients with pelvic endometriosis

Dias Junior, João Antonio

03 August 2010

Objetivo: o objetivo deste estudo foi avaliar a prevalência de autoanticorpos e a dosagem da concentração de células Natural Killer (NK) no sangue periférico em pacientes com endometriose. Métodos: Entre dezembro de 2004 e dezembro de 2007 foram avaliadas 155 pacientes submetidas a videolaparoscopia, divididas em um grupo sem endometriose(n=55) e outro com endometriose (n=100). Foi coletada amostra de sangue periférico de todas as pacientes no momento da laparoscopia e nessa amostra foi realizada a quantificação do percentual de células NK em relação aos linfócitos periféricos (por citometria de fluxo), e a determinação dos seguintes auto-anticorpos: anticorpos antinucleares (ANA, por imunofluorescência indireta), anticorpos antitireoglobulina e antiperoxidase (anti-TG e anti-TPO, por eletroquimioluminescência), anticorpos anticardilipina e antifosfatidilserina (aCL e aPS IgG, IgM e IgA, todos por ensaio imunoenzimático). Além da presença de endometriose, essas pacientes também foram avaliadas quanto ao estadiamento, os locais de doença, relações com a fase do ciclo, e a classificação histológica dessa doença. Resultados: as pacientes com endometriose apresentaram percentual de células NK (média DP de 15,3 9,8%) superiores àquelas sem a doença (média DP de 10,6 5,8%), p<0,001. Quanto aos autoanticorpos, as portadoras de endometriose também apresentaram positividade para ANA mais frequentemente (33%) que as pacientes do grupo controle (12,7%), p=0,006. Quanto aos anti-TG, anti-TPO, anti-CL (IgG, IgM e IgA) e aPS ( IgG, IgM e IgA), não houve diferenças estatísticas quanto à sua positividade. As células NK também mostraram-se mais elevadas nas protadoras de endometriose em estádios avançados e naquelas com comprometimento de retossigmóide, grupo no qual encontramos o maior percentual de células NK com concentração média de 19,8 10,3%. Concentrações de células NK 12,5% podem ser usadas como marcadores de endometriose em retossigmóide, com sensibilidade de 73% e especificidade de 65%. Utilizando-se de um modelo estatístico de probabilidades, demonstramos que associação desse marcador (NK 12,5%) com a presença de sintomas como dor e/ou sangramento intestinal durante a menstruação nos possibilitou estimar uma probabilidade de comprometimento de retossigmóide de 60,4%. Conclusões: pacientes com endometriose apresentam maior concentração de células NK periféricas, além de maior prevalência de ANA positivo em relação àquelas sem endometriose. As células NK aumentam nas pacientes com endometriose predominantemente nos estádios avançados, com comprometimento de retossigmóide. Nesse sentido poderiam ser utilizadas como marcadores diagnósticos desse tipo de comprometimento da doença, principalmente se forem avaliadas em conjunto com os sintomas das pacientes / Objectives: The objective of this study was to evaluate the prevalence of autoantibodies and the percentage of natural killer (NK) cells in the peripheral blood of patients with endometriosis. Methods: Between December 2004 and December 2007, 155 patients submitted to videolaparoscopy were evaluated. Patients were divided into two groups: one group of women without endometriosis (n = 55) and another in which all the women had endometriosis (n = 100). Samples of peripheral blood were collected from all the patients at the time of laparoscopy and flow cytometry was used to determine the percentage of NK cells in relation to peripheral blood lymphocytes in these samples. In addition, the following autoantibodies were measured: antinuclear antibodies (ANA) by indirect immunofluorescence, anti-thyroglobulin and anti-thyroid peroxidase antibodies (anti-TG and anti-TPO) by electrochemiluminescence, and anticardiolipin and anti-phosphatidylserine antibodies (aCL and aPS IgG, IgM and IgA), all performed using immunoenzymatic assay. In addition to the presence of endometriosis, these patients were also evaluated with respect to staging, to the sites of the disease, any association with the phase of the menstrual cycle and the histological classification of the disease. Results: The patients with endometriosis had a higher percentage of NK cells (15.3 ± 9.8%; mean ± SD) compared to those without the disease (10.6 ± 5.8%; mean ± SD), (p<0.001). Evaluation of the autoantibodies showed that positivity for ANA was more common in the group of patients with endometriosis (33%) compared to the patients in the control group (12.7%), (p = 0.006). With respect to anti-TG, anti-TPO, aCL (IgG, IgM and IgA) and aPS (IgG, IgM and IgA), no statistically significant differences were found between the groups of patients with or without endometriosis. NK cell concentrations were also found to be higher in patients with advanced stages of endometriosis and in those in whom the rectosigmoid was affected by the disease, this being the group in which the highest percentage of NK cells was found, with mean concentrations of 19.8 ± 10.3%. NK cell concentrations 12.5% may be used as markers of endometriosis of the rectosigmoid, with sensitivity of 73% and specificity of 65%. Using a statistical model of probability, these findings showed that the association of this marker (NK 12.5%) with the presence of symptoms such as pain and/or intestinal bleeding during menstruation permitted an estimation to be made of a likelihood of 60.4% of rectosigmoid endometriosis. Conclusions: Patients with endometriosis have higher percentages of peripheral NK cells, as well as a greater prevalence of positive ANA compared to those without endometriosis. The concentration of peripheral NK cells increases in patients with endometriosis, predominantly in patients with advanced stages of the disease and those in whom the rectosigmoid is affected. Therefore, the concentration of NK cells in peripheral blood could be used as a diagnostic marker of this type of endometriosis, particularly when evaluated together with patients symptoms

Auto-anticorpos

Autoantibodies

Biological markers

Células Natural Killer

Endometriose

Endometriosis

Marcadores biológicos

Natural Killer cells

Eficácia de leveduras no biocontrole da mancha aquosa em meloeiro

MELO, Edilaine Alves de Melo

27 July 2012

Submitted by (lucia.rodrigues@ufrpe.br) on 2017-03-16T13:22:52Z No. of bitstreams: 1 Edilaine Alves de Melo.pdf: 641010 bytes, checksum: 2a8032c2676a99782e8fd581d977a950 (MD5) / Made available in DSpace on 2017-03-16T13:22:52Z (GMT). No. of bitstreams: 1 Edilaine Alves de Melo.pdf: 641010 bytes, checksum: 2a8032c2676a99782e8fd581d977a950 (MD5) Previous issue date: 2012-07-27 / The bacterial fruit blotch caused by Acidovorax citrulli is one of the most severe diseases of melon (Cucumis melo), and a major problem in the Northeast, the main melon producing region of Brazil. Strategies for control of bacterial blotch include chemical and physical treatments of seeds and chemical sprays of the plant canopy. Since these treatments are not efficient and resistant melon cultivars do not exist, other strategies have been studied, including biological control. Our objectives were to analyze the efficiency of yeasts in the biocontrol of this disease by protecting seedlings and plants, and by treating melon seeds; and to verify the in vitro activity against the pathogen and the growth promotion of melon plants. None of the 60 yeasts inhibited the growth of the pathogen, but the isolates LMA1 (Rhodotorula aurantiaca), LMS (R. glutinis) and CC-2 (Pichia anomala) stood out as the most effective in protecting seedlings. When tested in plants and seeds, LMA1 and CC-2 maintained effectiveness. In plants, the reductions in disease index (ID) and area under the disease progress curve (AUDPC) compared to the control reach 58.6 and 47.2%, respectively, while seed treatments reduced ID and AUDPC up to 34.3 and 45.5%. These isolates did not promote the growth of melon plants and did not produce killer toxins in vitro. R. aurantiaca (LMA1) and P. anomala (CC-2) were effective in protecting plants and seedlings and for seed treatment of melon. Therefore, the use of these yeasts jointly with other control methods, such as resistant varieties and copper compounds, is important in integrated management of bacterial fruit blotch. / A mancha aquosa causada por Acidovorax citrulli, é uma das doenças mais severas do meloeiro (Cucumis melo) e um dos principais problemas para o Nordeste, a principal região produtora de melão do Brasil. Estratégias para o controle da mancha aquosa incluem tratamentos químicos e físicos das sementes e químico da parte aérea da planta. Uma vez que esses tratamentos não são eficientes e cultivares resistentes de meloeiro inexistem, outras estratégias têm sido investigadas, dentre elas o controle biológico. Os objetivos deste trabalho foram analisar a eficiência de leveduras no biocontrole dessa doença pela proteção de plântulas e plantas e pelo tratamento de sementes de meloeiro, além de verificar a atividade in vitro contra o patógeno e a promoção do crescimento de plantas de meloeiro. Nenhuma das 60 leveduras testadas inibiu o crescimento do patógeno, porém os isolados LMA1 (Rhodotorula aurantiaca), LMS (R. glutinis) e CC-2 (Pichia anomala) destacaram-se como os mais eficientes na proteção de plântulas. Quando testadas em plantas e sementes, LMA1 e CC-2 mantiveram a eficácia. Em plantas, as reduções de índice de doença (ID) e área abaixo da curva de progresso da doença (AACPD) em relação à testemunha foram de até 58,6 e 47,2%, respectivamente, enquanto que o tratamento de sementes reduziu o ID e AACPD em até 34,3 e 45,5%. Esses isolados não promoveram o crescimento do meloeiro e não produziram toxinas killer in vitro. R. aurantiaca (LMA1) e P. anomala (CC-2) foram eficazes na proteção de plântulas e plantas e no tratamento de sementes de meloeiro. Portanto, a utilização dessas leveduras junto a outros métodos de controle, tais como cultivares resistentes e utilização de compostos cúpricos, será importante no manejo integrado da mancha aquosa.

Acidovorax citrulli

Pichia anomala

Rhodotorula aurantiaca

Promoção de crescimento

Toxinas killer

Growth promotion

Toxins killer

FITOSSANIDADE::FITOPATOLOGIA

The immunogenetics of natural killer cell alloreactivity

Foley, Bree Amanda

January 2008

[Truncated abstract] Natural killer (NK) cell alloreactivity can be exploited in haploidentical haematopoietic stem cell transplantation (HSCT) to improve graft survival, reduce graft versus host disease and decrease leukaemic relapse. NK cells lyse cells that have reduced expression of class I HLA molecules. In an allogeneic setting, donor NK cells may be activated by the absence of donor (self) class I HLA molecules on recipient cells; the absence of self-epitopes being detected by inhibitory KIR receptors on donor NK cells. The way in which genetic polymorphism of the receptors and ligands affects NK allorecognition of missing self, has not been fully elucidated. HLA-C molecules are divided into two groups, C1 and C2, with KIR2DL1 recognising cells expressing C2 and KIR2DL2 and KIR2DL3 recognising cells expressing C1. Donor NK cells expressing KIR2DL2 or KIR2DL3 can be alloreactive towards a recipient if they lack the C1 epitope and donor NK cells expressing KIR2DL1 can be alloreactive towards a recipient if they lack the C2 epitope. KIR3DL1 recognises the Bw4 epitope present on one-third of HLA-B alleles and certain HLA-A alleles. NK cells from donors expressing KIR3DL1 can be alloreactive towards recipients whose cells lack Bw4. Mismatches of KIR related HLA epitopes does not always results in NK alloreactivity. Therefore it is not possible to reliably predict NK alloreactivity based solely on the donor's HLA type and KIR repertoire and the recipient's HLA type. ... All Bw4-positive HLA-B alleles, with the exception of HLA-B*1301 and B*1302, protected targets from lysis. HLA-A*2402 and HLA-A*3201 unequivocally protected target cells from lysis whereas HLA-A*2501 and HLA-A*2301 provided only weak protection from lysis. KIR3DL1-dependent alloreactive NK clones were identified in donors whose only Bw4 positive allele was HLA-A*2402 but not in donors whose only Bw4 positive HLA allele was HLA-B*1301 or B*1302. Finally this thesis demonstrated that an activating KIR can control NK cell alloreactivity. Donors who are C2 negative and KIR2DS1 positive had NK cells that expressed the activating receptor KIR2DS1 and were capable of lysing cells expressing the C2 epitope. More so, KIR2DS1 dependent NK clones were shown to override inhibitory signals generated by NKG2A interacting with its ligand, HLA-E. The identification of these NK clones has important implications for haploidentical HSCT in that recipient expressing all three NK epitopes, C1, C2 and Bw4 were previously thought to be resistant to alloreactive NK cells controlled by inhibitory receptors. Such patients may be amenable to haploidentical HSCT from C2 negative, KIR2DS1 positive donors. These results will improve the ability to predict NK cell alloreactivity based on a donor's HLA type and KIR repertoire and the recipient?s HLA type.

Bone marrow -- Transplantation

HLA histocompatibility antigens

Killer cells

Isolation And Characterization Of The K4 Type Yeast Killer Toxin

Acun, Tolga

01 January 2003

Killer yeasts secrete polypeptide toxins which kill sensitive cells of their own species and frequently those of other species and genera of yeasts. These protein compounds are designated as killer toxins. Also killer toxins of certain yeast strains have potential growth inhibitory activity on gram-positive pathogenic bacteria and plant pathogenic fungi. The yeasts are immune to their own killer protein. The killer phenomenon can be utilized for the protection of fermentation process against contaminating yeasts and for biological control of undesirable yeasts in the preservation of foods. The killer trait can also be used to produce large amount of foreign proteins in yeast. In the medical field , it is thought that their anti-microbial and anti-mycotic activity could be exploited in a therapeutic strategy. Yeast killer toxins are classified into 11 types according to their killing spectra and immunity-specificities such as K1, K2, etc. Altough there is considerable amount of published information concerning the applications of yeast killer toxins , among the 11 types , only K1 , K2 and K6 have been characterized. In this study , it was aimed to purify and characterize the K4 type yeast killer toxin secreted by the Hansenula anomala NCYC 432. Gel permeation chromatography was performed to isolate the killer toxin by using a HPLC system. The toxin was shown to be a glycoprotein having a molecular mass of between 49.08 kDa and 47.25 kDa and isoelectric point of between 3.77 and 3.41.

Natural killer cell inhibitory and activating receptors : regulatory role in effector functions against normal and tumor cells /

Vahlne, Gustaf,

January 2007

Diss. (sammanfattning) Stockholm : Karolinska institutet, 2007. / Härtill 4 uppsatser.

Therapeutic potential of natural killer cells in multiple myeloma /

Alici, Evren,

January 2006

Diss. (sammanfattning) Stockholm : Karolinska institutet, 2006. / Härtill 4 uppsatser.

Genetic analysis of natural killer cell mediated virus immunity in related strains of New Zealand inbred mice and their hybrid offspring /

Rodriguez, Marisela Raquel.

January 2008

Thesis (Ph. D.)--University of Virginia, 2008. / Includes bibliographical references. Also available online through Digital Dissertations.

Activation of murine cytotoxic cells with interleukin-2 and the bacterial superantigen staphylococcal enterotoxin A

Belfrage, Hans.

January 1996

Thesis (doctoral)--University of Lund, 1996. / Added t.p. with thesis statement added.