The effect of cytomegalovirus infection on the susceptibility of target cells to lysis by natural killer cells

Fletcher, Jean Margaret

January 2001

No description available.

579

Role of Ly49 Receptors on Natural Killer Cells During Influenza Virus Infection

Mahmoud, Ahmad

23 August 2012

Natural killer (NK) cells are lymphocytes of the innate immune system that play a major role in the destruction of both tumours and virally-infected cells. The cytotoxicity of NK cells is tightly controlled by signals received through activating and inhibitory receptors. NK cells express a variety of inhibitory receptors such as Ly49 receptors. Ly49 receptors bind to class I MHC molecules that expressed on normal cells. Using Ly49-deficient (NKCKD) mice we show that Ly49-KD NK cells successfully recognize and kill influenza virus-infected cells and that NKCKD mice exhibit better survival than wild-type mice. Moreover, influenza virus infection has a propensity to upregulate cell surface expression of MHC-I on murine lung epithelial cells in vivo. Significantly, we demonstrate increased lung damage of WT-mice versus NKCKD mice after influenza virus infection as determined by histological analyses. This data indicated that absence of Ly49 inhibitory NK receptors greatly enhances survival of infected mice.

Influenza Virus

MHC-I

Natural Killer cells

NK cells

Surgical Stress Promotes the Development of Cancer Metastases by a Coagulation-Dependent Mechanism in a Murine Model

Seth, Rashmi

07 September 2011

Surgery precipitates a hypercoagulable state and has been shown to increase the development of cancer metastases in animal models, however mechanism(s) responsible for this are largely unknown. We hypothesize that the prometastatic effect of surgery may be secondary to postoperative hypercoagulable state. Surgical stress was induced in mice by partial hepatectomy or nephrectomy, preceded by intravenous injection of CT26-LacZ or B16F10-LacZ cells to establish pulmonary metastases with or without perioperative anticoagulation and their lung tumor cell emboli (TCE) were quantified. Fibrinogen and platelets were fluorescently labeled prior to surgical stress to evaluate TCE-associated fibrin and platelet clots. Surgery significantly increased metastases while anticoagulation with five different agents attenuated this effect. Fibrin and platelet clots were associated with TCE significantly more frequently in surgically stressed mice. Surgery promotes the formation of fibrin and platelet clots around TCE and this appears to be the mechanism for the increase in metastases seen following surgery.

Surgical stress

Cancer metastases

Coagulation

Natural-Killer cells

Murine model

Role of Ly49 Receptors on Natural Killer Cells During Influenza Virus Infection

Mahmoud, Ahmad

23 August 2012

Natural killer (NK) cells are lymphocytes of the innate immune system that play a major role in the destruction of both tumours and virally-infected cells. The cytotoxicity of NK cells is tightly controlled by signals received through activating and inhibitory receptors. NK cells express a variety of inhibitory receptors such as Ly49 receptors. Ly49 receptors bind to class I MHC molecules that expressed on normal cells. Using Ly49-deficient (NKCKD) mice we show that Ly49-KD NK cells successfully recognize and kill influenza virus-infected cells and that NKCKD mice exhibit better survival than wild-type mice. Moreover, influenza virus infection has a propensity to upregulate cell surface expression of MHC-I on murine lung epithelial cells in vivo. Significantly, we demonstrate increased lung damage of WT-mice versus NKCKD mice after influenza virus infection as determined by histological analyses. This data indicated that absence of Ly49 inhibitory NK receptors greatly enhances survival of infected mice.

Influenza Virus

MHC-I

Natural Killer cells

NK cells

Surgical Stress Promotes the Development of Cancer Metastases by a Coagulation-Dependent Mechanism in a Murine Model

Seth, Rashmi

07 September 2011

Surgery precipitates a hypercoagulable state and has been shown to increase the development of cancer metastases in animal models, however mechanism(s) responsible for this are largely unknown. We hypothesize that the prometastatic effect of surgery may be secondary to postoperative hypercoagulable state. Surgical stress was induced in mice by partial hepatectomy or nephrectomy, preceded by intravenous injection of CT26-LacZ or B16F10-LacZ cells to establish pulmonary metastases with or without perioperative anticoagulation and their lung tumor cell emboli (TCE) were quantified. Fibrinogen and platelets were fluorescently labeled prior to surgical stress to evaluate TCE-associated fibrin and platelet clots. Surgery significantly increased metastases while anticoagulation with five different agents attenuated this effect. Fibrin and platelet clots were associated with TCE significantly more frequently in surgically stressed mice. Surgery promotes the formation of fibrin and platelet clots around TCE and this appears to be the mechanism for the increase in metastases seen following surgery.

Surgical stress

Cancer metastases

Coagulation

Natural-Killer cells

Murine model

Διερεύνηση του in vivo ρόλου της πρωτεΐνης Geminin στην ανάπτυξη φυσικών φονικών κυττάρων ποντικού

Πεχλιβάνη, Ευγενία

18 June 2014

Τόσο τα βλαστικά όσο και τα προγονικά κύτταρα συντονίζουν τον πολλαπλασιασμό και τη διαφοροποίηση για να δώσουν γένεση στον κατάλληλο αριθμό λειτουργικά εξειδικευμένων κυττάρων κατά την οργανογένεση. Διαφορετικές πειραματικές προσεγγίσεις ανέδειξαν τον ρόλο της πρωτεΐνης Geminin στη διατήρηση των προγονικών κυττάρων, τη συμμετοχή της στις αποφάσεις καθορισμού της αναπτυξιακής τους τύχης αλλά και την συμβολή της στην οργανογένεση. Αν και ο ακριβής μηχανισμός δεν είναι ξεκάθαρος, η Geminin φαίνεται να επηρεάζει την κατεύθυνση του πολλαπλασιασμού έναντι της διαφοροποίησης. Για να διαλευκανθεί ο ρόλος της Geminin in vivo στην κυτταρική διαίρεση και διαφοροποίηση των προγονικών κυττάρων, δημιουργήθηκαν ποντίκια που στερούνται την έκφραση της Geminin ειδικά στα κύτταρα της λεμφοειδούς σειράς μέσω Cre ανασυνδυασμού. Προηγούμενες μελέτες έδειξαν ότι η απουσία της Geminin έχει ελάχιστες επιπτώσεις στην ανάπτυξη και διαφοροποίηση των θυμοκυττάρων ενώ τα ώριμα περιφερειακά Τ κύτταρα που δεν εκφράζουν Geminin εμφανίζουν πολλές επιπτώσεις στον πολλαπλασιασμό μετά από in vitro ενεργοποίηση. Τα φυσικά φονικά κύτταρα (Natural Killer Cells) αναπτύσσονται στο μυελό των οστών από κοινά αρχέγονα κύτταρα και καθορίζονται από την ικανότητά τους να σκοτώνουν καρκινικούς στόχους χωρίς προηγούμενη ενεργοποίηση. Τα κύτταρα αυτά παίζουν σημαντικό ρόλο στις μη ειδικές αποκρίσεις και πέρα από την ισχυρή κυτταροτοξική δράση έναντι ευαίσθητων κυττάρων-στόχων χαρακτηρίζονται από την ικανότητα να απελευθερώνουν διάφορες κυτταροκίνες αποκρινόμενα άμεσα σε ενδοκυτταρικές μολύνσεις. Επιπρόσθετα, αποτελούν έναν κρίσιμο κυτταρικό πληθυσμό για την προστασία των ιικών μολύνσεων, καθώς αναγνωρίζουν με ειδικό τρόπο ιικά μολυσμένα κύτταρα και τα σκοτώνουν απευθείας. Για τους λόγους αυτούς παρουσιάζει ενδιαφέρον ο έλεγχος των τυχόν επιπτώσεων της απουσίας της Geminin στα ΝΚ κύτταρα. Με βασικό πειραματικό εργαλείο την κυτταρομετρία ροής, μελετήσαμε την αναπτυξιακή πορεία των φυσικών φονικών κυττάρων απουσία της Geminin. Σε κυτταρικά εναιωρήματα από σπλήνα και μυελό των οστών από Fl/koCD2Cre και Fl/WT πειραματόζωα, NK1.1+TCRβ- ΝΚ κύτταρα αναλύονται με κυτταρομετρία ροής για τον έλεγχο της έκφρασης μορίων-δεικτών των ώριμων ΝΚ κυττάρων. / The interplay of proliferation and differentiation is essential for normal development and organogenesis. Stem cells as wells as progenitor cells coordinate these cellular decisions to give rise to the appropriate number of differentiated cells with specific function. Geminin was identified through two parallel lines of investigation as both a regulator of DNA replication and a regulator of differentiation of neural cells. In order to address the in vivo role of Geminin in regulating progenitor cell self-renewal and differentiation decisions in different cellular systems, have been generated mice that allow the conditional inactivation of the mouse Geminin gene in cells giving rise to the lymphoid lineage. Natural Killer Cells are lymphocytes of the innate immunity with effector function such as perforin-dependent cytotoxicity and interferon-γ secretion. Several lines of evidence implicate them in the early control of virus infection, in tumor immunoserveillance and in the regulation of immune responses. Mature NK cells express a wide variety of cell surface receptors that enable them to recognize targets expressing low surface amounts of major histocompatibility complex class I molecules or high surface amounts of molecules induced by stress or microbial molecules. NK cells generation occurs in the bone marrow from hematopoietic stem cells. In this study, we shed light to the in vivo role of Geminin in the development and differentiation of Natural Killer Cells. Cell suspensions from bone marrow and spleen from Fl/koCD2Cre mice that lack Geminin expression in the lymphoid lineage and Fl/WT mice that serves as controls were analyzed with flow cytometry. NK1.1+TCRβ- ΝΚ cells were analysed for surface receptors, markers of mature NK cells.

571.968

Mouse natural killer cells

Geminin

The Role of Innate Immunity in the Pathogenesis and Treatment of Experimental Pulmonary Hypertension

Ormiston, Mark Leonard

15 September 2011

In this thesis, the monocrotaline (MCT)-induced rat model of pulmonary arterial hypertension (PAH) was used to investigate the role of innate immunity in the pathogenesis of PAH and the mode of action of experimental therapies. The first section of this thesis is an investigation of the therapeutic mechanism of human, early and late-outgrowth endothelial progenitor cells (EPCs) in the MCT-induced, nude rat model of PAH. While late-outgrowth EPCs provided no therapeutic benefit in this model, early EPCs (E-EPCs) prevented the elevation of right ventricular systolic pressure (RVSP, P<0.001) and right ventricular (RV) hypertrophy (P<0.01). Ablation of natural killer (NK) and natural killer T cells with anti-asialo GM-1 antiserum (ASGM-1) enhanced human cell retention in the lung but abrogated the therapeutic capacity of E-EPCs. In vitro studies demonstrated that E-EPCs are similar to monocyte-derived regulatory dendritic cells (DCs) and possess the capacity to stimulate both autologous and rat NK cells in co-culture. Imatinib mesylate has been reported to reverse established PAH both clinically and in the MCT model. Imatinib can also induce NK activation through inhibition of c-kit signaling in DCs, suggesting that imatinib and the DC-like E-EPCs may prevent PAH through a similar, NK-mediated mechanism. In the second section of this thesis, imatinib prevented MCT-induced increases in RVSP (P<0.001) and RV hypertrophy (P<0.01) in immunocompetent Fisher 344 rats, but not in nude rats or Fisher rats following ablation of NK cells and T lymphocytes with ASGM-1. These data suggest that the stimulation of NK activity by imatinib is insufficient to prevent disease in the absence of T lymphocytes. Hyaluronan (HA) fragments are a potent inflammatory stimulus, capable of inducing macrophage activation and DC maturation. In the third section of this thesis, HA synthesis and degradation were investigated in the MCT model of PAH. While the early stages of disease were characterized by enhanced hyaluronidase-1 activity and a loss of high molecular weight (HMW) HA, severe disease was associated with HMW HA synthesis and HA accumulation in the lungs. The early degradation of HMW HA may drive inflammation and stimulate pathological vascular remodeling in PAH.

pulmonary hypertension

immunity

natural killer cells

hyaluronan

0541

The Role of Innate Immunity in the Pathogenesis and Treatment of Experimental Pulmonary Hypertension

Ormiston, Mark Leonard

15 September 2011

In this thesis, the monocrotaline (MCT)-induced rat model of pulmonary arterial hypertension (PAH) was used to investigate the role of innate immunity in the pathogenesis of PAH and the mode of action of experimental therapies. The first section of this thesis is an investigation of the therapeutic mechanism of human, early and late-outgrowth endothelial progenitor cells (EPCs) in the MCT-induced, nude rat model of PAH. While late-outgrowth EPCs provided no therapeutic benefit in this model, early EPCs (E-EPCs) prevented the elevation of right ventricular systolic pressure (RVSP, P<0.001) and right ventricular (RV) hypertrophy (P<0.01). Ablation of natural killer (NK) and natural killer T cells with anti-asialo GM-1 antiserum (ASGM-1) enhanced human cell retention in the lung but abrogated the therapeutic capacity of E-EPCs. In vitro studies demonstrated that E-EPCs are similar to monocyte-derived regulatory dendritic cells (DCs) and possess the capacity to stimulate both autologous and rat NK cells in co-culture. Imatinib mesylate has been reported to reverse established PAH both clinically and in the MCT model. Imatinib can also induce NK activation through inhibition of c-kit signaling in DCs, suggesting that imatinib and the DC-like E-EPCs may prevent PAH through a similar, NK-mediated mechanism. In the second section of this thesis, imatinib prevented MCT-induced increases in RVSP (P<0.001) and RV hypertrophy (P<0.01) in immunocompetent Fisher 344 rats, but not in nude rats or Fisher rats following ablation of NK cells and T lymphocytes with ASGM-1. These data suggest that the stimulation of NK activity by imatinib is insufficient to prevent disease in the absence of T lymphocytes. Hyaluronan (HA) fragments are a potent inflammatory stimulus, capable of inducing macrophage activation and DC maturation. In the third section of this thesis, HA synthesis and degradation were investigated in the MCT model of PAH. While the early stages of disease were characterized by enhanced hyaluronidase-1 activity and a loss of high molecular weight (HMW) HA, severe disease was associated with HMW HA synthesis and HA accumulation in the lungs. The early degradation of HMW HA may drive inflammation and stimulate pathological vascular remodeling in PAH.

pulmonary hypertension

immunity

natural killer cells

hyaluronan

0541

Analyzing the effects of laquinimod on innate and adaptive immunity in mice with experimental autoimmune encephalomyelitis

Ott, Martina

07 May 2014

No description available.

Laquinimod

T cells

Dendritic cells

Natural killer cells

Surgical Stress Promotes the Development of Cancer Metastases by a Coagulation-Dependent Mechanism in a Murine Model

Seth, Rashmi

07 September 2011

Surgery precipitates a hypercoagulable state and has been shown to increase the development of cancer metastases in animal models, however mechanism(s) responsible for this are largely unknown. We hypothesize that the prometastatic effect of surgery may be secondary to postoperative hypercoagulable state. Surgical stress was induced in mice by partial hepatectomy or nephrectomy, preceded by intravenous injection of CT26-LacZ or B16F10-LacZ cells to establish pulmonary metastases with or without perioperative anticoagulation and their lung tumor cell emboli (TCE) were quantified. Fibrinogen and platelets were fluorescently labeled prior to surgical stress to evaluate TCE-associated fibrin and platelet clots. Surgery significantly increased metastases while anticoagulation with five different agents attenuated this effect. Fibrin and platelet clots were associated with TCE significantly more frequently in surgically stressed mice. Surgery promotes the formation of fibrin and platelet clots around TCE and this appears to be the mechanism for the increase in metastases seen following surgery.

Surgical stress

Cancer metastases

Coagulation

Natural-Killer cells

Murine model