ABCA1 Increases Extracellular ATP to Mediate Cholesterol Efflux to ApoA-I

Lee, Jee Yeon

10 January 2012

ABCA1 is a key plasma membrane protein required for the efflux of cellular cholesterol to extracellular acceptors, particularly to apoA-I. This process is essential to maintain cholesterol homeostasis in the body. The detailed molecular mechanisms, however, are still insufficiently understood. Also, the molecular identity of ABCA1, i.e. channel, pump or flippase, remains unknown. In this study we analyzed the extracellular ATP levels in the medium of ABCA1-expressing BHK cells and RAW macrophages and compared them to the medium of relevant non-expressing cells. We found that the extracellular ATP concentrations are significantly elevated when cells express ABCA1. Importantly, a dysfunctional ABCA1 mutant (A937V), when expressed similarly as WT-ABCA1, is unable to raise extracellular ATP concentration. This suggests a causal relationship between functional ABCA1 and elevated extracellular ATP. To explore the physiological role of elevated extracellular ATP, we analyzed ABCA1-mediated cholesterol efflux under the conditions where extracellular ATP levels were modulated. We found that increasing extracellular ATP within the physiological range, i.e. < μM, promotes cholesterol efflux to apoA-I. On the other hand, removing extracellular ATP, either by adding apyrase to the medium or by expressing a plasma membrane bound ecto-nucleotidase CD39, abolishes cholesterol efflux to apoA-I. Based on these results we conclude that, through direct or indirect mechanisms, ABCA1 functions to raise ATP levels in the medium. This elevated extracellular ATP is required for ABCA1-mediated cholesterol efflux to apoA-I.

ABCA1

extracellular ATP

RAW macrophages

BHK cells

CD39

apyrase

ABCA1 Increases Extracellular ATP to Mediate Cholesterol Efflux to ApoA-I

Lee, Jee Yeon

10 January 2012

ABCA1 is a key plasma membrane protein required for the efflux of cellular cholesterol to extracellular acceptors, particularly to apoA-I. This process is essential to maintain cholesterol homeostasis in the body. The detailed molecular mechanisms, however, are still insufficiently understood. Also, the molecular identity of ABCA1, i.e. channel, pump or flippase, remains unknown. In this study we analyzed the extracellular ATP levels in the medium of ABCA1-expressing BHK cells and RAW macrophages and compared them to the medium of relevant non-expressing cells. We found that the extracellular ATP concentrations are significantly elevated when cells express ABCA1. Importantly, a dysfunctional ABCA1 mutant (A937V), when expressed similarly as WT-ABCA1, is unable to raise extracellular ATP concentration. This suggests a causal relationship between functional ABCA1 and elevated extracellular ATP. To explore the physiological role of elevated extracellular ATP, we analyzed ABCA1-mediated cholesterol efflux under the conditions where extracellular ATP levels were modulated. We found that increasing extracellular ATP within the physiological range, i.e. < μM, promotes cholesterol efflux to apoA-I. On the other hand, removing extracellular ATP, either by adding apyrase to the medium or by expressing a plasma membrane bound ecto-nucleotidase CD39, abolishes cholesterol efflux to apoA-I. Based on these results we conclude that, through direct or indirect mechanisms, ABCA1 functions to raise ATP levels in the medium. This elevated extracellular ATP is required for ABCA1-mediated cholesterol efflux to apoA-I.

ABCA1

extracellular ATP

RAW macrophages

BHK cells

CD39

apyrase

ABCA1 Increases Extracellular ATP to Mediate Cholesterol Efflux to ApoA-I

Lee, Jee Yeon

10 January 2012

ABCA1 is a key plasma membrane protein required for the efflux of cellular cholesterol to extracellular acceptors, particularly to apoA-I. This process is essential to maintain cholesterol homeostasis in the body. The detailed molecular mechanisms, however, are still insufficiently understood. Also, the molecular identity of ABCA1, i.e. channel, pump or flippase, remains unknown. In this study we analyzed the extracellular ATP levels in the medium of ABCA1-expressing BHK cells and RAW macrophages and compared them to the medium of relevant non-expressing cells. We found that the extracellular ATP concentrations are significantly elevated when cells express ABCA1. Importantly, a dysfunctional ABCA1 mutant (A937V), when expressed similarly as WT-ABCA1, is unable to raise extracellular ATP concentration. This suggests a causal relationship between functional ABCA1 and elevated extracellular ATP. To explore the physiological role of elevated extracellular ATP, we analyzed ABCA1-mediated cholesterol efflux under the conditions where extracellular ATP levels were modulated. We found that increasing extracellular ATP within the physiological range, i.e. < μM, promotes cholesterol efflux to apoA-I. On the other hand, removing extracellular ATP, either by adding apyrase to the medium or by expressing a plasma membrane bound ecto-nucleotidase CD39, abolishes cholesterol efflux to apoA-I. Based on these results we conclude that, through direct or indirect mechanisms, ABCA1 functions to raise ATP levels in the medium. This elevated extracellular ATP is required for ABCA1-mediated cholesterol efflux to apoA-I.

ABCA1

extracellular ATP

RAW macrophages

BHK cells

CD39

apyrase

ABCA1 Increases Extracellular ATP to Mediate Cholesterol Efflux to ApoA-I

Lee, Jee Yeon

January 2012

ABCA1 is a key plasma membrane protein required for the efflux of cellular cholesterol to extracellular acceptors, particularly to apoA-I. This process is essential to maintain cholesterol homeostasis in the body. The detailed molecular mechanisms, however, are still insufficiently understood. Also, the molecular identity of ABCA1, i.e. channel, pump or flippase, remains unknown. In this study we analyzed the extracellular ATP levels in the medium of ABCA1-expressing BHK cells and RAW macrophages and compared them to the medium of relevant non-expressing cells. We found that the extracellular ATP concentrations are significantly elevated when cells express ABCA1. Importantly, a dysfunctional ABCA1 mutant (A937V), when expressed similarly as WT-ABCA1, is unable to raise extracellular ATP concentration. This suggests a causal relationship between functional ABCA1 and elevated extracellular ATP. To explore the physiological role of elevated extracellular ATP, we analyzed ABCA1-mediated cholesterol efflux under the conditions where extracellular ATP levels were modulated. We found that increasing extracellular ATP within the physiological range, i.e. < μM, promotes cholesterol efflux to apoA-I. On the other hand, removing extracellular ATP, either by adding apyrase to the medium or by expressing a plasma membrane bound ecto-nucleotidase CD39, abolishes cholesterol efflux to apoA-I. Based on these results we conclude that, through direct or indirect mechanisms, ABCA1 functions to raise ATP levels in the medium. This elevated extracellular ATP is required for ABCA1-mediated cholesterol efflux to apoA-I.

ABCA1

extracellular ATP

RAW macrophages

BHK cells

CD39

apyrase

Úloha deseti ektodoménových cysteinových zbytků ve funkci P2X4 receptoru stimulovaného ATP / Contribution of ten ectodomain cysteine residues to function of ATP-gated P2X4 receptor

Tvrdoňová, Vendula

January 2010

Extracellular adenosine-5'-triphosphate (ATP), released from damaged cells or coreleased as a cotransmitter from synaptic vesicles, acts on its plasma membrane receptors termed purinergic. Purinergic P2X receptors are ATP-gated cation channels. To date seven P2X isoforms designated P2X1-7 have been cloned that are organized as trimeric homomers or heteromers. All P2X subunits share a similar structure consisting of a large extracellular loop, two transmembrane domains and intracellular N- and C- termini. An additional structural feature is conserved aminoacids, these include ten conserved cysteine residues in the extracellular loop. All ectodomain cysteines form disulfide bonds which are organized in two areas: three disulfide bridges are localized in the N-termini half and two in the C-termini half at P2X receptor. ATP binding pocket is apparently localized between two neighbouring subunits. The aim of this Diploma Thesis was to examine the relevance of ectodomain cysteine residue and/or disulfide bonds for the expression, function and ATP binding properties of the P2X receptor. All ten, one by one, ectodomain cysteines were substituted by alanines and ATP-induced currents was recorded in HEK293 cells expressing wild-type P2X4 receptor and its mutants. Low responsible or nonfunctional mutants...

Extracellular ATP facilitates cell extrusion from epithelial layers mediated by cell competition or apoptosis / 細胞外ATPは上皮層からのがん原性変異細胞およびアポトーシス細胞の排除を促進する

Mori, Yusuke

25 July 2022

京都大学 / 新制・課程博士 / 博士(医科学) / 甲第24141号 / 医科博第142号 / 新制||医科||9(附属図書館) / 京都大学大学院医学研究科医科学専攻 / (主査)教授 松田 道行, 教授 斎藤 通紀, 教授 妹尾 浩 / 学位規則第4条第1項該当 / Doctor of Medical Science / Kyoto University / DFAM

Cell extrusion

Cell competition

Extracellular ATP

Reactive Oxygen Species

Epithelial homeostasis

491

Inflammatory Cytokines Facilitate the Sensitivity of P2X7 Receptors Toward Extracellular ATP at Neural Progenitor Cells of the Rodent Hippocampal Subgranular Zone

Liu, Juan, Tahir Khan, Muhammad, Tang, Yong, Franke, Heike, Illes, Peter

06 April 2023

Organotypic hippocampal slice cultures were used to model the effects of neuroinflammatory conditions following an epileptic state on functional P2X7 receptors (Rs) of subgranular zone (SGZ) neural progenitor cells (NPCs). The compound, 4-aminopyridine (4-AP), is known to cause pathological firing of neurons, consequently facilitating the release of various transmitter substances including ATP. Lipopolysaccharide (LPS) and interleukin-1(IL-1) both potentiated the dibenzoyl-ATP (Bz-ATP)-induced current amplitudes in NPCs, although via different mechanisms. Whereas LPS acted via promoting ATP release, IL-1 acted via its own receptor to directly influence P2X7Rs. Thus, the effect of LPS was inhibited by the ecto-ATPase inhibitor, apyrase, but not by the IL-1 antagonist, interleukin-1RA (IL-1RA); by contrast, the effect of IL-1 was inhibited by IL-1RA, but not by apyrase. Eventually, incubation with 4-AP upregulated the number of nestin/glial fibrillary acidic protein/P2X7R immunoreactive cells and their appropriate staining intensity, suggesting increased synthesis of P2X7Rs at NPCs. In conclusion, inflammatory cytokines accumulating after epilepsy-like neuronal firing may facilitate the effect of endogenous ATP at P2X7Rs of NPCs, thereby probably promoting necrosis/apoptosis and subsequent cell death.

info:eu-repo/classification/ddc/570

ddc:570

High, in Contrast to Low Levels of Acute Stress Induce Depressive-like Behavior by Involving Astrocytic, in Addition to Microglial P2X7 Receptors in the Rodent Hippocampus

Zhao, Ya-Fei, Ren, Wen-Jing, Zhang, Ying, He, Jin-Rong, Yin, Hai-Yan, Liao, Yang, Rubini, Patrizia, Deussing, Jan M., Verkhratsky, Alexei, Yuan, Zeng-Qiang, Illes, Peter, Tang, Yong

17 January 2024

Extracellular adenosine 50-triphosphate (ATP) in the brain is suggested to be an etiological factor of major depressive disorder (MDD). It has been assumed that stress-released ATP stimulates P2X7 receptors (Rs) at the microglia, thereby causing neuroinflammation; however, other central nervous system (CNS) cell types such as astrocytes also possess P2X7Rs. In order to elucidate the possible involvement of the MDD-relevant hippocampal astrocytes in the development of a depressive-like state, we used various behavioral tests (tail suspension test [TST], forced swim test [FST], restraint stress, inescapable foot shock, unpredictable chronic mild stress [UCMS]), as well as fluorescence immunohistochemistry, and patch-clamp electrophysiology in wild-type (WT) and genetically manipulated rodents. The TST and FST resulted in learned helplessness manifested as a prolongation of the immobility time, while inescapable foot shock caused lower sucrose consumption as a sign of anhedonia. We confirmed the participation of P2X7Rs in the development of the depressive-like behaviors in all forms of acute (TST, FST, foot shock) and chronic stress (UCMS) in the rodent models used. Further, pharmacological agonists and antagonists acted in a different manner in rats and mice due to their diverse potencies at the respective receptor orthologs. In hippocampal slices of mice and rats, only foot shock increased the current responses to locally applied dibenzoyl-ATP (Bz-ATP) in CA1 astrocytes; in contrast, TST and restraint depressed these responses. Following stressful stimuli, immunohistochemistry demonstrated an increased co-localization of P2X7Rs with a microglial marker, but no change in co-localization with an astroglial marker. Pharmacological damage to the microglia and astroglia has proven the significance of the microglia for mediating all types of depression-like behavioral reactions, while the astroglia participated only in reactions induced by strong stressors, such as foot shock. Because, in addition to acute stressors, their chronic counterparts induce a depressive-like state in rodents via P2X7R activation, we suggest that our data may have relevance for the etiology of MDD in humans.

info:eu-repo/classification/ddc/610

ddc:610

Výskyt purinergních receptorů P2 a jejich úloha v intracelulární vápníkové signalizaci neonatálních hypofyzárních buněk / Expression of purinergic P2 receptors and their role in intracellular calcium signaling of neonatal pituitary cells

Šprláková, Katarína

January 2014

This diploma thesis focuses on study of the expression of purinergic receptors P2X and P2Y in the cells of neonatal adenohypofysis. Purinergic receptors are activated by binding of extracellular ATP and their activation leads to an increase in intracellular concentrations of calcium ions. The aim of this thesis was to determine by microfluorimetry method whether neonatal pituitary cells contain purinergic receptors. In addition, the influence of various agonists and antagonists of purinergic receptors on intracellular concentrations of ions Ca2+ in neonatal pituitary cells was monitored. The influence of extracellular ATP on secretion of a luteinizing hormone was observed by radioimmunoassay and it was compared with the effect of a hormone GnRH. It was found that neonatal pituitary cells are less sensitive to extracellular ATP than adult pituitary cells, but the relative sensitivity to other agonists of purinergic receptors is similar to the one of adult pituitary cells. In the mixed population of neonatal pituitary cells there were identified ATP- and 2 MeSATP- sensitive purinergic receptors P2X, as well as ADP-sensitive receptors P2Y. Further, the BzATP-sensitive receptors P2X7, PPADS-sensitive receptors P2X2 and BDBD-sensitive receptors P2X4 were identified. Finally, it was proved that...

Libération localisée d’ATP cellulaire par ultrasons et microbulles pour l’immunothérapie du cancer

Demeze Kenfack, Falonne

03 1900

Plusieurs types cancéreux prolifèrent par leur capacité à exprimer les marqueurs de régulation négative du système immunitaire, tels que les récepteurs PD-L1 et CD80/86 qui inhibent l’activation et la prolifération des lymphocytes T. L’inhibition de ces voies par des anticorps peut ainsi réactiver la réponse immunitaire chez certains patients. D’autres voies de signalisations sont aujourd’hui explorées, incluant la signalisation purinergique (ATP/adénosine) dans la modulation du microenvironnement tumoral. L’adénosine triphosphate extracellulaire (ATPe) est classifiée parmi les molécules de danger extracellulaire et joue un rôle crucial dans l’activation de l’inflammasome NLRP3, un médiateur important de l’activation des réactions pro-inflammatoires. Les ultrasons sont des ondes mécaniques de haute pression capable d’engendrer la cavitation inertielle des microbulles. Il a été démontré que les microbulles (MB) stimulées par ultrasons (US) libèrent de l’ATP dans le muscle squelettique et dans le muscle cardiaque. Nous posons l’hypothèse selon laquelle le traitement US+MB appliqué sur une tumeur de cancer du sein murin (4T1) in vivo peut libérer de l’ATPe localement dans le but d’activer des réactions pro-inflammatoires pour l’immunothérapie du cancer. Dans ce mémoire, nous présentons la quantification du signal d’ATPe d’une culture de cellules 4T1, puis in vivo dans le muscle et dans une tumeur solide sous-cutanée chez la souris à la suite d’une stimulation par US+MB. Nos études démontrent que la thérapie US+MB libère de l’ATP in vitro et in vivo. En comparant le signal découlant de l’injection IM d’ATP avec celui du muscle et des tumeurs post-US+MB, nous pouvons conclure que le traitement US+MB libère une quantité d’ATPe supérieure à 250 µM, ce qui est supérieur à la quantité d’ATPe dans un microenvironnement tumoral et qui persiste pour une durée d’au moins 60 min dans le muscle et 45 min dans la tumeur. La transfection stable de cellules MC38 (carcinome colorectal) à travers le gène PLenti-PmeLUC, codant la synthèse de luciférase sur la face externe de la membrane cellulaire, est explorée afin d’augmenter le rapport signal sur bruit en bioluminescence (annexe A). L’utilisation de POM-1 (inhibiteur pharmacologique de CD39) et l’utilisation de souris knockout du gène CD39 sont discutées pour la suite du projet afin d’inhiber la dégradation de l’ATP extracellulaire (Annexe B). / Several cancer types proliferate due to their ability to express the negative regulatory markers of the immune system (PD-L1 and CD80/86) which inhibit the activation and proliferation of T cells. Inhibition of these pathways by antibodies (anti-PDL-1, anti-PD-1, anti-CTLA-4) can thus reactivate the immune system in some patients. Other signaling pathways are currently being explored, including purinergic signaling (ATP/adenosine) in the modulation of the tumor microenvironment. Extracellular Adenosine triphosphate (eATP) is classified as danger signal plays a critical role in the activation of the NLRP3 inflammasome, an important mediator of the innate immune response. Ultrasound (US) and microbubbles (MB) have been shown to release ATP in skeletal and cardiac muscle. Thus, we hypothesized that US+MB treatment in 4T1 breast cancer cells could locally activate pro-inflammatory responses by releasing an eATP in tumors for cancer immunotherapy. In this thesis, I present the quantification of the eATP signal after US+MB stimulation in vitro (4T1 cell culture), then in muscle and subcutaneous solid tumors in the mouse. Our studies demonstrate that US+MB treatment releases ATP both in vitro and in vivo. In comparison with the IM injection of ATP, we can conclude that US+MB released a large amount of ATP (>250 µM), which is more than the eATP concentration in the untreated tumor microenvironment, and which persisted for at least 60 min in muscle and 45 min in tumor. The stable transfection of MC38 cells (colorectal carcinoma) through the Plenti-PmeLUC gene, encoding the synthesis of luciferase on the external surface of cell membrane is explored to increase the signal to noise ratio in bioluminescence (see appendix A). The use of POM-1 (pharmacological inhibitor of CD39) and CD39 gene knockout mice to inhibit the degradation of eATP signal are discussed for the continuation of the project.

Cancer

Ultrasons thérapeutiques

Imagerie ultrasonore

Bioluminescence

Cavitation des microbulles

Therapeutic ultrasound

Ultrasound imaging

Cavitation of microbubble

ATP extracellulaire

Extracellular ATP