A Functional Study of Major Histocompatibility Expression and Immune Function in Rainbow Trout, (Oncorhynchus mykiss)

Kales, Stephen

January 2006

Major Histocompatibility Complex (MHC) receptors serve a critical role in self/non-self recognition through the presentation of peptide antigen to circulating T lymphocytes and are also believed to play a role in mate selection. Through the development of antibodies to MHC homologues in trout, this report demonstrates the presence of MHC expression in germ cells, as well as a soluble form in seminal fluid. What role these immune molecules may perform in reproduction and mate selection is discussed. In addition, as ectotherms, fish are often subjected to low temperatures. Previous data indicates that the expression of these genes is abolished by low temperatures. Employing these same antibodies, this report further demonstrates that trout maintain the expression of MH I and its critical light chain component, beta-2-microglobulin when subjected to 2oC for 10 days. Expression of the MH II receptor sub-units however, was sensitive to both confinement stress and low-temperature in vivo, as well as to factors secreted from a known fungal pathogen in cultured macrophage. As the cause of "winter kill", Saprolegniales cultures induced homotypic aggregation and pro-inflammatory gene expression in the macrophage cell line, RTS11 as well as down-regulation of MH II. Though no evidence of fungal toxins was evident, fungal spore size appeared to exceed macrophage phagocytic capabilities. Taken together, such a loss of MH II expression at low temperature may allow for establishment of fungal and bacterial diseases and that upon the return to warmer temperatures, saprolegniales have the ability to maintain MH II down-regulation and evade immune recognition. Concurrent to the study of MH expression, this report includes the first cloning and characterization of calreticulin (CRT) in fish. Like its mammalian homologue and primary chaperone to MHC receptors and other immune proteins, trout CRT appears to be a single copy gene with ubiquitous tissue distribution, displaying anomalous migration as a doublet with relative molecular mass of 60kD. Despite its promoter containing endoplasmic reticulum stress elements (ERSE), trout CRT expression did not increase upon treatment with several calcium homeostasis antagonists. Treatment of peripheral blood leukocytes with phytohemaglutinin did reveal a qualitative increase in cell surface expression, as seen in mammals; however, cellular protein levels did not change, suggesting that, in trout, CRT function may be regulated through cellular sub-localization, rather than through changes in gene expression, as it is in mammals.

Biology

trout

RTS11

temperature

mate

Saprolegnia

Achlya

MHC

calreticulin

fish

Modulators of calcium signalling in neuronal physiology and disease

Grant, Jeff

11 September 2008

This thesis focuses on the regulation of the ubiquitous second messenger Ca2+ in neuronal physiology and disease. Ca2+ signalling in neurons is regulated by ion channels located in the plasma membrane, as well as in the endoplasmic reticulum (ER) and mitochondrial membranes. Ca2+ signalling is essential for numerous cellular processes, including neuronal excitability, neurotransmitter release, synaptic plasticity, and induction of cell death. Age-related disruptions in Ca2+ signalling may contribute to decline of cognitive function and motor control associated with aging. Furthermore, disruption in neuronal Ca2+ signalling is implicated in several neurodegenerative disorders including Alzheimer’s disease (AD), Parkinson’s disease (PD), Huntington’s disease (HD), and Amyotrophic Lateral Sclerosis (ALS). In this thesis, I studied neuronal Ca2+ signalling and how it is affected in neurodegenerative disease. First, I examined the role of the ER Ca2+ binding protein Calreticulin (CRT) in AD. CRT is involved in regulation of ER Ca2+ signalling and modulation of susceptibility to cell death. I found that there was an increase in the expression of CRT in in vitro and in vivo models of AD. However, increased levels of CRT did not alter susceptibility of neuronal cells to death induced by AD-related stressors. Second, I examined the role of X-Linked Inhibitor of Apoptosis Protein (XIAP) in the modulation of neuronal Ca2+ signalling. I found that overexpression of XIAP in neuronal cells modified Ca2+ signalling by decreasing Ca2+ flux through multiple plasma membrane and ER channels. These effects appear to be independent of caspase inhibition, which is one of the ways that XIAP can inhibit apoptosis. Third, I examined a compound found in green tea, L-theanine, a glutamate receptor antagonist that is protective in models of excitotoxic neuronal injury. I found that 24 hour L-theanine treatment reduces the amount of Ca2+ released from neuronal intracellular stores in response to both glutamate stimulation and passive leak through ER channels. An acute 30 minute L-theanine treatment had similar effects. In conclusion, these observations further the understanding of the regulation of Ca2+ signalling in neurons and may lead to novel therapeutic strategies in neurodegenerative disease.

calcium

neuron

XIAP

Calreticulin

L-Theanine

Alzheimer's disease

neurodegeneration

Modulators of calcium signalling in neuronal physiology and disease

Grant, Jeff

11 September 2008

This thesis focuses on the regulation of the ubiquitous second messenger Ca2+ in neuronal physiology and disease. Ca2+ signalling in neurons is regulated by ion channels located in the plasma membrane, as well as in the endoplasmic reticulum (ER) and mitochondrial membranes. Ca2+ signalling is essential for numerous cellular processes, including neuronal excitability, neurotransmitter release, synaptic plasticity, and induction of cell death. Age-related disruptions in Ca2+ signalling may contribute to decline of cognitive function and motor control associated with aging. Furthermore, disruption in neuronal Ca2+ signalling is implicated in several neurodegenerative disorders including Alzheimer’s disease (AD), Parkinson’s disease (PD), Huntington’s disease (HD), and Amyotrophic Lateral Sclerosis (ALS). In this thesis, I studied neuronal Ca2+ signalling and how it is affected in neurodegenerative disease. First, I examined the role of the ER Ca2+ binding protein Calreticulin (CRT) in AD. CRT is involved in regulation of ER Ca2+ signalling and modulation of susceptibility to cell death. I found that there was an increase in the expression of CRT in in vitro and in vivo models of AD. However, increased levels of CRT did not alter susceptibility of neuronal cells to death induced by AD-related stressors. Second, I examined the role of X-Linked Inhibitor of Apoptosis Protein (XIAP) in the modulation of neuronal Ca2+ signalling. I found that overexpression of XIAP in neuronal cells modified Ca2+ signalling by decreasing Ca2+ flux through multiple plasma membrane and ER channels. These effects appear to be independent of caspase inhibition, which is one of the ways that XIAP can inhibit apoptosis. Third, I examined a compound found in green tea, L-theanine, a glutamate receptor antagonist that is protective in models of excitotoxic neuronal injury. I found that 24 hour L-theanine treatment reduces the amount of Ca2+ released from neuronal intracellular stores in response to both glutamate stimulation and passive leak through ER channels. An acute 30 minute L-theanine treatment had similar effects. In conclusion, these observations further the understanding of the regulation of Ca2+ signalling in neurons and may lead to novel therapeutic strategies in neurodegenerative disease.

calcium

neuron

XIAP

Calreticulin

L-Theanine

Alzheimer's disease

neurodegeneration

Calreticulin in kidney function and disease: chronic low level of calreticulin impairs Ca2+ homeostasis leading to mitochondrial dysfunction and chronic renal injury / Bedeutung der Calreticulin in Nierenfunktion und -Erkrankung: chronisch niedrige Calreticulin-Konzentration beeinträchtigt die Ca2+-Homöostase und führt zu mitochondrialer Dysfunktion und chronischer Nierenschädigung

Bibi, Asima

11 October 2012

No description available.

570 Biowissenschaften, Biologie

Biologie

Biology (incl. Psychology)

Calreticulin

Niere

CKD

chronischer Nierenschädigung

Calreticulin

Kidney

CKD

chronic kidney disease

Biologie

Implication de la Calréticuline et de CRMP4 dans la dégénérescence des motoneurones dans la Sclérose Latérale Amyotrophique

Bernard, Nathalie

24 October 2011

La Sclérose Latérale Amyotrophique se caractérise par la perte sélective de motoneurones (MNs) du cortex, du tronc cérébral et de la moelle épinière. Les souris surexprimant le gène humain muté codant pour la superoxide dismutase 1 (mSOD1) constitue un bon modèle d'étude. Les MNs mSOD1 présentent une hypersensibilité à la mort après activation du récepteur Fas et la production d'oxyde nitrique (NO). Notre étude protéomique a identifié deux effecteurs du NO, la calréticuline (CRT) et CRMP4. CRT est une protéine chaperonne de stockage du calcium dans le réticulum endoplasmique. Nous montrons que, in vivo, CRT diminue de moitié dans une sous population de MNs mSOD1 dits vulnérables, car dégénérant les premiers. Sa diminution est nécessaire et suffisante pour induire la mort des MNs mSOD1 en activant le stress du RE. CRMP4 est une protéine de régulation de la croissance axonale, qui augmente in vivo dans les MNs mSOD1 à un stade pré-symptomatique. Sa surexpression est suffisante pour induire une dénervation périphérique et la dégénérescence de MNs mSOD1. Nos résultats mettent en évidence CRT et CRMP4 comme étant deux cibles thérapeutiques potentielles dans la SLA. / Amyotrophic Lateral Sclerosis (ALS) is characterized by the selective degeneration of upper and lower motoneurons (MNs). The most common familial form and best characterized mouse model of ALS is linked to mutations in the gene coding for the superoxide dismutase 1 (mSOD1). MNs expressing mSOD1 show an increased sensitivity to the death induced by Fas/NO activation. Our proteomic study identified two downstream effectors of NO, Calreticulin (CRT) and CRMP4. CRT is a chaperone-calcium-binding protein of the endoplasmic reticulum, which is decreased two-fold in vivo, in an early degenerating MNs sub-population, named vulnerable. The decrease in CRT expression is both necessary and sufficient to kill mSOD1 MNs through ER stress activation. CRMP4 is a neurite outgrowth regulator which expression is increased in vivo in mSOD1 MNs at a presymptomatic stage. CRMP4 overexpression is sufficient to induce peripheral denervation and, through a dying-back effect, to kill mSOD1 MNs. Our results point out CRT and CRMP-4 as two potential therapeutic targets for ALS.

Sclérose latérale amyotrophique

Mort des motoneurones

Calréticuline

Crmp4

Amyotrophic lateral sclerosis

Motoneuron degeneration

Calreticulin

Crmp4

Lien entre la Lysyl-ARNt-synthétase et la calréticuline dans le cadre de la mort tumorale immunogénique / Relation between lysyl-tRNA-synthetase and calreticulin in the context of immunogenic tumor cell death

Gdoura, Abdelaziz

06 June 2011

En réponse aux inducteurs de la mort cellulaire immunogénique, la calréticuline (CRT) est transportée depuis sa localisation orthotopique dans la lumière du réticulum endoplasmique (RE) vers la surface cellulaire où elle va jouer un rôle de signal puissant d’endocytose à l’endroit des cellules présentatrices d’antigène. Ici nous rapportons qu’une autre protéine, la lysyl-ARNt-synthétase (KRS), est exposée à la surface des cellules stressées où elle colocalise avec la CRT au niveau des radeaux lipidiques. La déplétionde KRS à l’aide d’ARNs interférents annihile l’exposition de la CRT induit par les anthracyclines ou les rayonnements UVC. A l’inverse de la CRT, KRS est aussi retrouvée dans le surnageant des cellules stressées. De plus, la protéine KRS recombinante (KRSr) est ici incapable d’influencer la liaison de laCRT recombinante à la surface cellulaire. Et KRSr ne possède pas la capacité de stimuler des macrophages in vitro. Enfin nous révélons que le statut de phosphorylation d’eIF2α constitue un critère différentiel entre l’oxaliplatine et la cisplatine, capable de rendre compte de l’incapacité de cette dernière à entrainer l’exposition de la CRT, et ce malgré une très grande ressemblance chimique entre ces deux composés. Ces résultats mettent donc en exergue la contribution respective de KRS et du stress du RE dans l’émission du signal prototypique de la mort immunogénique. / In response to immunogenic cell death inducers, calreticulin (CRT) translocates from its orthotopiclocalization in the lumen of the endoplasmic reticulum (ER) to the surface of the plasma membrane where it serves as a potent engulfment signal for antigen-presenting cells. Here, we report that another protein, the lysyl-tRNA-synthetase (KRS), was exposed on the surface of stressed cells, on which KRS co-localized with CRT in lipid rafts. Depletion of KRS with small interfering RNAs suppressed CRT exposure induced by anthracyclines or UVC light. In contrast to CRT, KRS was also found in the supernatant of stressed cells. Recombinant KRS (rKRS) protein was unable to influence the binding of recombinant CRT to the cell surface. Moreover, rKRS protein was unable to stimulate macrophages invitro. Finally, we reveal that the phosphorylation status of eIF2α constitute a differential criteria between oxaliplatin and cisplatin (CDDP), accounting for the incapacity of CDDP to trigger the exposure ofCRT, despite their structural and chemical similarities. These results underscore the respective contribution of KRS and ER stress to the emission of the prototypic signal of immunogenic cell death.

Calréticuline

Mort cellulaire immunogénique

KRS

Apoptose

Stress du RE

Calreticulin

Immunogenic cell death

KRS

Apoptosis

ER stress

Effekte der Barorezeptoraktivierungstherapie auf Marker des Endoplasmatischen Retikulum Stresses / Effects of baroreflex activation therapy on marker of endoplasmic reticulum stress

Schierke, Kathrin Anina

12 November 2019

No description available.

610

hypertension

baroreceptor activation therapy

endoplasmic reticulum stress

ERp57

calreticulin

GRP78

Medizin (PPN619874732)

Mechanisms involved in macrophage phagocytosis of apoptotic cells

Nilsson, Anna

January 2009

Efficient removal of apoptotic cells is critical for development, tissue remodelling, maintenance of homeostasis, and response to injury. Phagocytosis of apoptotic cells is mediated by many phagocytic receptors, soluble bridging molecules, and pro-phagocytic ligands on the surface of apoptotic cells. Macrophage phagocytosis in general is controlled by stimulatory and inhibitory mechanisms. An example of the latter mechanism is that mediated by the cell surface glycoprotein CD47, which by binding to the inhibitory receptor Signal Regulatory Protein alpha (SIRPα) on macrophages, is known to inhibit phagocytosis of viable host cells. The studies of the present thesis aimed at investigating possible changes to CD47 on apoptotic cells, which could influence their elimination by macrophages. The endoplasmatic protein calreticulin (CRT), in conjunction with Low density lipoprotein Receptorrelated Protein 1 (LRP1) on the phagocyte, can act as a receptor for collectin family members and mediate uptake of apoptotic cells. However, CRT itself was found to also be expressed on the surface of many viable cell types, and the CRT expression increased on apoptotic cells. By using antibodies to LRP1 or receptor‐associated protein (RAP), an antagonist blocking LRP1 ligand binding, we found that CRT on target cells could interact in trans with LRP1 on a phagocyte and stimulate phagocytosis. CD47 on the target cell inhibited LRP1‐mediated phagocytosis of viable cells (e.g. lymphocytes or erythtocytes), but not that of apoptotic cells. The inability of CD47 on apoptotic cells to inhibit LRP1‐ mediated phagocytosis could be explained in two ways: 1) Some apoptotic cell types (fibroblasts and neutrophils, but not Jurkat T cells) lost CD47 from the cell surface, or 2) CD47 is evenly distributed on the surface of viable cells, while it was redistributed into patches on apoptotic cells, segregated away from areas of the plasma membrane where the pro‐phagocytic ligands CRT and phoaphatidylserine (PS) were concentrated. Apoptotic murine thymocytes also showed a patched distribution of CD47, but no significant loss of the receptor. However, both PS‐independent and PS‐dependent macrophage phagocytosis of apoptotic CD47‐/‐ thymocytes was less efficient than uptake of apoptotic wild‐type (wt) thymocytes. This contradictory finding was explained by the fact that CD47 on apoptotic thymocytes did no longer inhibit phagocytosis, but rather mediated binding of the apoptotic cell to the macrophage. These effects could in part be dependent on the apoptotic cell type, since uptake of experimentally senescent PS+ wt or CD47‐/‐ erythrocytes by macrophage in vitro, or by dendritic cells (DC) in vivo, were the same. In vivo, PS+ erythrocytes were predominantly trapped by marginal zone macrophages and by CD8+ CD207+ DCs in the splenic marginal zone. DCs which had taken up PS+ erythrocytes showed a slight increase in expression levels of CD40, CD86 and MHC class II. These findings suggest that PS+ erythrocytes may be recognized by splenic macrophages and DCs in ways similar to that reported for apoptotic T cells. Uptake of senescent erythrocytes by DCs may serve as an important mechanism to maintain self‐tolerance to erythrocyte antigens, and defects in this function may facilitate development of AIHA. Glucocorticoids are used to treat inflammatory conditions and can enhance macrophage uptake of apoptotic cells. We found that the glucocorticoid dexamethasone time‐ and dose‐dependently stimulated macrophage cell surface LRP1 expression. Dexamethasone‐stimulated macrophages also showed enhanced phagocytosis of apoptotic thymocytes and unopsonized viable CD47‐/‐ erythrocytes. In summary, LRP1 can mediate phagocytosis of both viable and apoptotic cells by binding CRT on the target cell. Macrophage expression of LRP1 is increased by glucocorticoids, which could be one explanation for the anti‐inflammatory role of glucocorticoids. While CD47 on viable cells efficiently inhibits phagocytosis in macrophages, CD47 on apoptotic cells does not and can sometimes even promote their removal.

macrophages

dendritic cells

phagocytosis

apoptotic cells

senescent erythrocytes

CD47

SIRPalpha

LRP1

calreticulin

Immunology

Immunologi

Novel non-collagenous modulators of biomineralization in bone and dentin /

Somogyi-Ganss, Eszter,

January 2004

Diss. (sammanfattning) Stockholm : Karol. inst., 2004. / Härtill 4 uppsatser.

Etude de la calréticuline de la cellule en apoptose précoce et son interaction avec C1q et le phagocyte / Study of calreticulin of the early apoptotic cell and its interaction with C1q and the phagocyte.

Osman, Rim

23 November 2015

L'efferocytose est un phénomène physiologique par lequel des millions de cellules apoptotiques sont efficacement éliminées par phagocytose sans provoquer une réaction inflammatoire. L'efficacité de ce processus nécessite une interaction rapide entre la cellule apoptotique et son phagocyte afin d'éviter l'entrée de la première dans une phase de nécrose secondaire. Cette interaction implique des motifs de la surface des 2 cellules qui peuvent interagir directement ou aussi indirectement via des molécules de pontage. Ce dernier rôle est associé à C1q, premier composant du système du complément. En effet, C1q favorise l'élimination des cellules apoptotiques et aussi la réponse tolérogène en interagissant avec des ligands présents de part et d'autre de la synapse efferocytaire. La calréticuline (CRT) de surface fait partie de ces ligands. Initialement connue comme co-récepteur, avec CD91, de la queue collagène de C1q à la surface du phagocyte, la CRT est aujourd'hui décrite comme un signal « eat-me » de la surface des cellules apoptotiques où elle peut aussi interagir avec les têtes globulaires de C1q. Des études récentes ont soulevé le potentiel immunogénique de la CRT, notamment au cours de la mort des cellules cancéreuses. Ainsi, la CRT de surface joue un rôle important dans l'efferocytose même si l'on ne sait pas exactement comment cette protéine chaperonne résidente du réticulum endoplasmique est exposée à la membrane plasmique. Dans un premier temps, j'ai démontré que la CRT augmente à la surface des cellules Jurkat rapidement après l'induction de l'apoptose, à un stade où la phosphatidylsérine, marqueur emblématique de l'apoptose, n'est pas encore détectée. D'une manière intéressante, C1q est capable d'interagir directement avec la CRT exposée à la surface des cellules à ce stade « pré-apoptotique », et de favoriser significativement leur phagocytose par les macrophages THP1. Dans un deuxième temps, j'ai mis en évidence la présence de la CRT dans le milieu extracellulaire et montré qu'elle varie avec l'évolution de l'apoptose. De plus, la CRT soluble est capable d'induire la migration des macrophages THP1, d'augmenter l'expression à leur surface de CD14, récepteur impliqué dans l'efferocytose, et de stimuler la macropinocytose, un processus utilisé par les phagocytes lors de la phagocytose des cellules apoptotiques. Cela suggère que la CRT extracellulaire peut moduler la biologie du phagocyte. Enfin, la CRT exogène peut se lier à la surface des macrophages et peut être ainsi une source externe de la CRT retrouvée à la surface des phagocytes. / Efferocytosis is a physiological phenomenon whereby millions of apoptotic cells are efficiently removed by phagocytosis without inducing an inflammatory response. The efficiency of this process requires rapid interaction between the apoptotic cell and the phagocyte in order to prevent the entry of the dying cell in a secondary necrosis phase. This interaction involves patterns of the surface of the 2 cells that can interact directly or indirectly via bridging molecules. The latter role is associated to C1q, the first component of the complement system. Indeed, C1q promotes the removal of apoptotic cells and the tolerogenic response by interacting with ligands present on either side of the efferocytic synapse. Surface exposed calreticulin (CRT) is one of these ligands. Initially known as the co-receptor, with CD91, to the collagenous tail of C1q on the phagocyte surface, CRT is now described as an “eat-me" signal of the apoptotic cell surface where it can also interact with the globular heads of C1q. Recent data have revealed the immunogenic potential of CRT, especially in the case of cancer cell death. Thus, surface exposed CRT plays an important role in efferocytosis even if it is not fully understood how this reticulum endoplasmic resident protein gets to the plasma membrane. I firstly demonstrated that CRT increases rapidly on the surface of Jurkat cells after the induction of apoptosis, at a stage where phosphatidylserine, emblematic marker of apoptosis, is not yet detected. Interestingly, C1q is capable of interacting directly with this “pre-apoptotic” cell surface exposed CRT, and promotes significantly the uptake of Jurkat cells by THP1 macrophages at this stage. Secondly, I demonstrated the presence of CRT in the extracellular medium whose content depends on the evolution of apoptosis. Furthermore, soluble CRT induces the migration of THP1 macrophages, increases their surface expression of CD14, a receptor involved in efferocytosis, and stimulates macropinocytosis, a process used by phagocytes during phagocytosis of apoptotic cells. These results suggest that the extracellular CRT can modulate the biology of the phagocyte. Finally, exogenous CRT binds to the surface of macrophages and can therefore be an external source of the CRT found on the phagocyte surface.

Apoptose précoce

Calréticuline

C1q

Phagocyte

Early apoptotic cell

Calreticulin

C1q

Phagocyte

570

610