Mechanism of TCDD-Induced Immunotoxicity: The Role of Cell Activation in the Generation of Toxicity

Pryputniewicz, Sarah Jean

04 December 1997

2, 3, 7, 8-Tetrachlorodibenzo-p-dioxin is well known for its immunotoxic effects on the thymus, as well as on B and T lymphocyte functions. Previous studies suggested that TCDD exerted immunotoxic effects only on cells differentiating in response to antigenic challenge. To this date, no work has been done to characterize the long-term effects of TCDD on the activated cells. Additionally, no studies have been done to determine whether TCDD has any effect on resting T cells. In the current study, therefore, we investigated the effects of TCDD on activated and resting cells within the same animal. T cells in the popliteal lymph node cells were activated by rear footpad immunizations with anti-CD3 antibodies. Distally-located axillary lymph nodes were chosen as a source of naive and resting T cells. Our results demonstrate that TCDD acted at the time of cell differentiation to suppress the immune responses of activated T cells, but failed to suppress, and at times, enhanced the immune responses of resting T cells. The TCDD-induced immunomodulations were temporary; responsiveness of both activated and resting T cells from TCDD-treated animals returned to normal by two weeks post-treatment, suggesting that TCDD does not affect memory cells. Futhermore, we provide direct evidence that the TCDD-induced immunosuppression in activated cells is due to increased apoptosis of CD3+ T cells. TCDD also induced significant changes in cell surface markers expressed by naive and activated T cells. Together our data suggested that TCDD suppresses the proliferative responsiveness of only the activated, but not naive, T cells and that this is accomplished by induction of increased apoptosis of activated T cells. These studies shed new light on the mechanism through which TCDD induces increased susceptibility to infections and cancer in the vertebrate host. / Master of Science

TCDD

Apoptosis

differential regulation

activated T cells

lymph nodes

Role of the plasma membrane calcium ATPase as a negative regulator of angiogenesis

Baggott, Rhiannon Rebecca

January 2014

Angiogenesis is the formation of new blood vessels from pre-existing ones. Unregulated angiogenesis is associated with several diseases such as diabetic retinopathy and tumour growth. Many signal transduction pathways have been implicated in the regulation of angiogenesis such as p38 mitogen-activated protein kinase (MAPK), phosphatidylinositol-3 kinase (PI3K), extracellular signal-related kinase 1/2 (Erk1/2) and of particular interest the calcineurin/nuclear factor of activated T-cell (NFAT) pathway. Inhibition of calcineurin activity by the drug cyclopsorin A (CsA) has been shown to inhibit processes required for successful angiogenesis such as in vitro cell migration, tube formation and additionally attenuates corneal angiogenesis in vivo. CsA is associated with severe side effects and therefore the identification of an endogenous regulator of this pathway would be beneficial. One possibility is the plasma membrane calcium ATPases (PMCAs). These high affinity calcium extrusion pumps have been shown to interact with calcineurin in mammalian cells and cardiomyocytes and down-regulate the calcineurin/NFAT pathway. This is hypothesised to be due to the interaction between the two proteins which maintains calcineurin in a low calcium micro-environment generated by the calcium removal function of the pump. Interestingly, PMCA4 has been shown to interact with calcineurin in endothelial cells. The aim of our study was to further our understanding of PMCA4s regulation of the calcineurin/NFAT pathway specifically in endothelial cells and establish if PMCA4 has a role in the regulation of angiogenesis. ‘Gain of function’ by adenoviral over-expression of PMCA4 and ‘loss of function’ by either si-RNA mediated knockdown of PMCA4 or isolation of PMCA4-/- MLEC were used as models. Over-expression of PMCA4 in HUVEC resulted in inhibition of the calcineurin/NFAT pathway with the opposite result occurring in the case of the knockout of PMCA4, identifying PMCA4 as a negative-regulator of the calcineurin/NFAT pathway in endothelial cells. Over-expression of PMCA4 significantly attenuated VEGF-induced protein and mRNA expression of the pro-angiogenic proteins RCAN1.4 and Cox-2, endothelial cell migration and in vitro and in vivo tube formation with the opposite result occurring in knockdown or knockout studies, confirming PMCA4 as a down-regulator of angiogenesis. Interestingly, over-expression or knockdown of PMCA4 had no effect on VEGF-induced HUVEC proliferation or Erk1/2 phopshorylation proposing PMCA4 may be a potential inhibitor of angiogenesis without compromising cell survival. Disruption of the interaction between PMCA4 and calcineurin by generation and ectopic expression of an adenovirus encoding the region of PMCA4 that interacts with calcineurin (428-651) (Ad-ID4) resulted in an increase in NFAT activity, RCAN1.4 protein expression and in vitro tube formation. These results identify the mechanism of PMCA4s inhibitory effect of the calcineurin/NFAT pathway and consequently angiogenesis is a result of the interaction between the two proteins. The novel findings of this study establish PMCA4 as a negative-regulator of the calcineurin/NFAT pathway in endothelial cells and angiogenesis. These results are far reaching and highlight a potential role for PMCA4 as a therapeutic target in a variety of diseases that are associated with pathological angiogenesis.

616.15

Etude des effecteurs de la voie Ca2+/Calmoduline dans les leucémies aiguës lymphoblastiques T / Study of Ca2+/Calmoduline signaling pathway in T cell acute lymphoblastic leukemia

Catherinet, Claire

28 August 2017

Les leucémies aigües lymphobastiques (LAL) représentent un tiers des leucémies et constituent le cancer pédiatrique le plus fréquent chez l’enfant. Les LAL de type T (LAL-T)sont caractérisées par l’expansion anormale de progéniteurs de lymphocytes T. Aujourd’hui,la réponse curative aux traitements est proche de 80% chez l’enfant et 50% chez l’adulte. La rechute reste donc fréquente et souvent de mauvais pronostic. Pour ces raisons,l’identification de nouvelles voies de signalisation en vue de développer de nouvelles stratégies thérapeutiques est cruciale afin d’améliorer le traitement des LAL-T.Les résultats précédents du laboratoire ont révélé l’activation soutenue de la voie calcineurine (Cn)/NFAT dans des échantillons humains de lymphomes et de LAL, ainsi que dans des modèles murins de ces pathologies. Le laboratoire a ensuite montré que Cn est intrinsèquement requise pour la capacité des cellules leucémiques de LAL-T à propager la maladie (activité LIC « Leukemia Initiating Cells ») dans un modèle murin de LAL-T induit parun allèle activé de NOTCH1 (ICN1). Puisque l’inhibition pharmacologique de Cn induit de nombreux effets secondaires, la recherche de cibles thérapeutiques en aval de Cn constitue un axe de recherche important. J’ai participé à une étude du laboratoire montrant que l’expression à la surface cellulaire de CXCR4 est régulée par Cn et requise pour la migration des cellules de LAL-T, mais non suffisante pour rétablir le potentiel de ré-initiation suggérant que d’autres effecteurs doivent être impliqués dans cette activité.Les facteurs de transcription NFAT (NFAT1, NFAT2 et NFAT4) sont des effecteurs importants de Cn en réponse à la signalisation calcique lors du développement des thymocytes, mais également dans les lymphocytes T. L’essentiel de ce travail de thèse a utilisé des LAL-T induites par ICN1 dans lesquelles l’inactivation génique des trois facteurs NFAT par recombinaison homologue. Nous avons ainsi montré que (i) les facteurs NFAT sont requis en aval de Cn pour le potentiel LIC des LAL-T-ICN1 in vivo, (ii) leur inactivation altère la survie, la prolifération et la migration des cellules de LAL-T in vitro, (iii) NFAT1,NFAT2 et NFAT4 ont une fonction largement redondante dans les LAL-T. Nous avons également par une approche transcriptomique identifié deux gènes dont l’expression estsous contrôle des facteurs NFAT et impliqués dans la régulation de la survie et de la prolifération des LAL-T in vitro : CDKN1A et MAFB.Tout comme la voie Cn/NFAT, les CaMKs sont des protéines kinases activées en aval de la signalisation calcique dans les lymphocytes T. Nous avons montré par une approche pharmacologique que l’inhibition des CaMKs dans les LAL-T-ICN1 in vitro altère la survie etla prolifération des cellules leucémiques. L’inhibition spécifique par une approche d’ARN interférence de deux isoenzymes CaMKIIγ et CaMKIIδ suggèrent que ces protéines jouent dans le maintien des cellules leucémiques in vitro. / T cell acute lymphoblastic leukemia (T-ALL) is an aggressive malignancy of T cell progenitors. Despite initial response to chemotherapy, relapses remain frequent in children and adults. Previous results identify sustained activation of Calcineurin (Cn)/NFAT signaling pathway in human T-ALL and murine T-ALL models. Importantly, they also demonstrated Cn is essential for T-ALL Leukemia Initiating Cells (LIC) activity in a murine model of T-ALL induced by an activated allele of NOTCH1 (ICN1). Since pharmacologic inhibition of Cn induces side effects, we aim to identify downstream effectors involved in T-ALL. NFAT (Nuclear Factor of Activated T cells) factors play crucial roles downstream Cn during development and activation of T cells. To address their role in T-ALL, we generated mouse ICN1-induced T-ALL in which NFAT genes can be inactivated either single or in combination following Cre-mediated gene deletion. We demonstrated that (i) NFAT factors are required downstream Cn for LIC activity in T-ALL in vivo (ii) ex vivo NFAT factors deletion alters survival, proliferation and migration of T-ALL (iii) NFAT1, 2 and 4 have a largely redundant function in T-ALL. Moreover, the NFAT-dependant transcriptome allowed to identify important targets (CDKN1A, MAFB) involved in T-ALL survival and proliferation in vitro. Calmodulin-dependant kinases (CaMK) are kinases activated by calcium signaling in T cells. We showed that pharmacologic inhibition of CaMKs in ICN1-induced T-ALL alters survival and proliferation of T-ALL in vitro. Beside, specific inhibition by RNA interference of CaMKIIg and CaMKIId suggests a putative role of these kinases in T-ALL maintenance.

Voie de signalisation

Calmodulin-dependant kinases (CaMKs)

Signaling pathway

Influence de la stimulation et de la sénescence réplicative des lymphocytes T sur le métabolisme des télomères / Influence of T lymphocyte stimulation and replicative senescence on telomere metabolism

Chebel, Amel

14 January 2010

Les lymphocytes constituent un modèle original de cellules somatiques puisqu’ils sont capables de réactiver la télomérase lorsqu’ils sont stimulés. Nous avons montré que les lymphocytes, en culture prolongée et soumis à des stimulations itératives par la PHA, présentent une diminution progressive de l’activité télomérasique interrompue à chaque stimulation par une augmentation transitoire. Ces variations sont corrélées positivement aux variations de hTERT et de la longueur des télomères. Les foyers γ-H2AX et 53BP1 et leur localisation au niveau des télomères augmentent lors du vieillissement cellulaire. Nous montrons un dysfonctionnement des télomères au cours de la sénescence lymphocytaire in vitro résultant d’une érosion accrue des télomères et d’une diminution de l’expression des protéines qui les coiffent. Le mécanisme des variations précoces de l’expression de hTERT lors de l’activation lymphocytaire restaient à comprendre. Les conséquences du traitement des lymphocytes par différents immunosuppresseurs agissant tous de façon directe ou indirecte sur l’activation de NFAT suggéraient le rôle de NFAT dans la régulation transcriptionnelle de hTERT. Nous avons montré i) 5 éléments de réponse potentiels pour NFAT au niveau du promoteur de hTERT, ii) l’activation in vitro du promoteur de hTERT par NFAT essentiellement via un site consensus localisé dans le coeur du promoteur de hTERT en position -40 et une synergie fonctionnelle entre NFAT et SP1, iii) la liaison directe de NFAT sur le promoteur de hTERT via ce site consensus in vivo. Ainsi, NFAT1 régule la transcription de hTERT et est impliqué dans l’activation de la télomérase lors de la stimulation lymphocytaire / Lymphocytes are an example of somatic cells capable to induce telomerase activity when stimulated. We showed that lymphocytes, during long-term culture and repeated PHA stimulations, present a progressive drop in telomerase activity interrupted at each stimulation by a transitory increase. These variations are positively correlated with hTERT and telomere length variations. γ-H2AX and 53BP1 foci and their localization on telomeres increase with cell aging. We show a telomere dysfunction during in vitro lymphocyte senescence resulting from an excessive telomere shortening and a decrease in shelterin content. The mechanism involved in early variations of hTERT expression during lymphocyte activation remained to be understood. Consequences of lymphocyte treatment with different immunosuppressors, all acting directly or indirectly on NFAT activation, suggested a role for NFAT in the regulation of hTERT transcription. Five putative responsive elements for NFAT were identified in the hTERT promoter. We showed that NFAT activates in vitro the hTERT promoter mainly via a consensus site localized in the promoter core at position -40 and a functional synergy between NFAT and SP1. Furthermore, NFAT1 binds directly to the endogenous hTERT promoter via this consensus site in vivo. Thus, NFAT positively regulates the hTERT transcription and we propose its implication in telomerase activation during lymphocyte stimulation

Lymphocytes

Stimulation

Sénescence

Télomères

Télomérase

Dommage à l’ADN

Lymphocytes

Stimulation

Senescence

Telomere

Telomerase

DNA damage

573.1636