Oxygen Tension Modulates Growth Of Ovine Newborn Pulmonary Vascular Smooth Muscle Cells

Cruz, Belen A

01 January 2014

Background: Platelet activating factor (PAF) is a phospholipid synthesized by the action of phospholipase A2 and acetyl transferase. PAF possesses a wide range of biological activities. In the lung of the fetus and newborn, PAF binds to its G protein couple receptor to evoke its biological activities via a well-defined signaling pathway. High levels of PAF receptor (PAFr) activity in fetal ovine lung vascular smooth muscle cells (PVSMC) at baseline has previously been demonstrated, a finding that is further perpetuated by conditions of hypoxia similar to fetal lung environment. Additionally in fetal ovine PVSMC, a cross-talk between PAFr-mediated cell signaling and activity of the vasodilator cyclic nucleotides cGMP and cAMP acting via their respective receptors protein kinase (PK) G and PKA has been shown. The interaction of PAF with its receptor has been implicated in the pathogenesis of persistent pulmonary hypertension in the newborn (PPHN) which has a high incidence of hospitalization and death of newborn infants. Successful transition of fetus to newborn life entails a mechanism whereby vasoconstrictors necessary for fetal existence are abrogated in the immediate newborn. Hypothesis: We hypothesize that PPHN results from the failure to down regulate PAFr- mediated activity and /or failure to up-regulate activity of the vasodilators cGMP and cAMP. PPHN is triggered by chronic intrauterine or postnatal hypoxia. Then newborn PVSMC undergo hyperplasia and hypertrophy, which over time, results in irreversible vascular remodeling. Methods: My study aims to employ in vitro models to delineate the consequences of PAF-PAFr mediated pathway in the pharmacological effects of the cAMP-PKA and cGMP-PKG signaling and the involvement of this cross-talk in the pathogenesis of PPHN. I modeled my cell culture studies to mimic the low oxygen environment of fetal lungs (hypoxia), the normal oxygen environment of newborn lungs (normoxia) and high oxygen environment (hyperoxia) to which the newborn lung may be exposed in incidental clinical condition of PPHN. I studied the effect of PAF, a vasoconstrictor, cAMP/cGMP, vasodilators, and other inhibitors of the PAFr pathway on growth of newborn PVSMC, by DNA synthesis, and measured their effects on expression of mitogenic and non-mitogenic proteins. Results: We found that both hypoxia and hyperoxia decreased cell growth even in the presence of PAF which up-regulates cell growth in fetal PVSMC. Also PAF treatment of cells resulted in down regulation of the vasodilator proteins, PKA and PKG. Conclusion: Our data suggests that in the lung of the newborn a high activity of PAF-PAFr mediated activities will worsen the condition of PPHN imposed on the newborn lung by environmental or therapeutic conditions. We can speculate that, in the long run, these findings may translate into the establishment of less toxic protein-based management of PPHN.

platelet activating factor

newborn disease

Circulatory and Respiratory Physiology

Respiratory Tract Diseases

Plaquettes et neutrophiles : acteurs clés dans le choc allergique dépendant des IgG / Platelets and neutrophils : key players in IgG-induced anaphylaxis

Beutier, Héloïse

09 December 2016

Le choc anaphylactique est une réaction allergique systémique qui survient en quelques minutes et pouvant être fatale. Mon travail de thèse s’articule autour de deux projets dont la finalité est de mieux comprendre le mécanisme physiopathologique. La première partie de ce travail consiste à étudier in vivo chez la souris les contributions des récepteurs Fc aux IgG (FcγRs), des cellules effectrices et des médiateurs contribuant dans un modèle d’anaphylaxie systémique passive induit par une sous-classe particulière d’IgG : des IgG1, des IgG2a ou des IgG2b monoclonales dirigées contre un même antigène. Cette étude a permis de démontrer que le FcγRIII, les neutrophiles et les monocytes/macrophages sont les acteurs majoritaires quelque soit la sous-classe d’IgG de souris ; en revanche, la participation des basophiles ainsi que la contribution relative des médiateurs histamine et PAF sont dépendantes de la sous-classe d’IgG utilisée. La deuxième partie de ce travail consiste à étudier plus particulièrement la population plaquettaire dans un modèle de souris humanisées. Contrairement à la souris, les plaquettes humaines expriment un FcγR, le FcγRIIA déjà identifié comme acteur clé de l’anaphylaxie. Un modèle de choc allergique induit par des IgG humaines dans des souris transgéniques pour le FcγRIIA m’a permis de tester l’hypothèse suivant laquelle les plaquettes participent à l’initiation et/ou à la propagation de la réaction. Ce modèle a permis de mettre en évidence une thrombocytopénie sévère, des complexes plaquettes-leucocytes circulants et de montrer que le transfert de plaquettes ou de leur surnageant restaure les signes cliniques du choc allergique. / Anaphylaxis is a systemic hyperacute allergic reaction that occurs within minutes and can be fatal. The aim of my PhD project is to investigate the physiopathological mechanisms underlying anaphylaxis induction. The first part of my work focused on the contribution of FcγRs, effector cells and mediators in passive murine models of systemic anaphylaxis induced by the different subclasses of mouse specific IgG ; directed against the same antigen: IgG1, IgG2a or IgG2b. This study demonstrated that FcγRIII, neutrophils and monocytes/macrophages are the key players of anaphylaxis induction whatever the mouse IgG subclasses used. On the contrary, basophil participation and the relative contribution of histamine and PAF are IgG subclass dependent. The second part of this work examined the role of platelets in anaphylaxis using a humanized mouse model. Opposing the murine situation, human platelets express an IgG receptor, FcγRIIA. This receptor has already been identified as a key player in anaphylaxis. Using aggregated human IgG to induce anaphylaxis in mice transgenic for FcγRIIA, we tested our hypothesis that platelets contribute to the initiation and/or the propagation of this reaction. Anaphylaxis in this model was accompanied by a severe thrombocytopenia, the presence of circulating platelet-leukocyte complexes and activated platelets. I further demonstrated that the transfer of platelets or their activated supernatent into resistant mice restored features of anaphylactic shock.

Anaphylaxie

Récepteurs Fc aux IgG

Plaquettes

Neutrophiles

IgG

Platelet-Activating factor (PAF)

Anaphylaxis

IgG receptors

Neutrophils

571.96

The Purification and Identification of Interactors to Elucidate Novel Connections in the HEK 293 Cell Line

Hawley, Brett

January 2012

The field of proteomics studies the structure and function of proteins in a large scale and high throughput manner. My work in the field of proteomics focuses on identifying interactions between proteins and discovering novel interactions. The identification of these interactions provides new information on metabolic and disease pathways and the working proteome of a cell. Cells are lysed and purified using antibody based affinity purification followed by digestion and identification using an HPLC coupled to a mass spectrometer. In my studies, I looked at the interaction networks of several AD related genes (Apolipoprotein E, Clusterin variant 1 and 2, Low-density lipoprotein receptor, Phosphatidylinositol binding clathrin assembly protein, Alpha-synuclein and Platelet-activating factor receptor) and an endosomal recycling pathway involved in cholesterol metabolism (Eps15 homology domain 1,2 and 4, Proprotein convertase subtilisin/kexin type 9 and Low-density lipoprotein receptor). Several novel and existing interactors were identified and these interactions were validated using co-immunopurification, which could be the basis for future research.

Proteomics

Alzheimer's Disease

Apolipoprotein E

Clusterin

PICALM

Synuclein

Low-density lipoprotein receptor

Platelet activating factor receptor

affinity purification

Xeroderma Pigmentosum A Deficiency Results in Increased Generation of Microvesicle Particles in Response to Ultraviolet B Radiation

Christian, Lea Rajeshkumar

28 May 2021

No description available.

Pharmacology

Toxicology

Photosensitivity

Xeroderma Pigmentosum A XPA

Microvesicle particles MVP

Platelet Activating Factor PAF

Ultraviolet B Radiation UVB

Kinetics of Microvesicle Particle Release in Keratinocytes

Thapa, Pariksha

27 August 2019

No description available.

Pharmacology

Microvesicle Particles

cytokines

Platelet Activating Factor

ultraviolet B radiation

keratinocytes

acid sphingomyelinase

TNF-alpha

Interleukin 1-receptor antagonist

Characterization of proteins found in serum and sputum samples from ventilator associated pneumonia patients

Yenuga, Hima Priya

29 May 2020

No description available.

Pharmacology

Ventilator Associated Pneumonia

Proteins

Sputum samples

Serum samples

Extracellular Vesicles

Pentraxin 3

CRP

ACE1

Cytokines

The role of Platelet-activating factor and microvesicle particles in intoxicated thermal burn injury-induced multiple organ failure

Lohade, Rushabh Pawan

16 May 2023

No description available.

Pharmacology

Toxicology

intoxicated thermal burn injury

ITBI

multiple organ dysfunction

multiple organ failure

Platelet-activating factor

microvesicle particle

acid-sphingomyelinase

Thermal Burn Injury Induced Microvesicle Particle Release

Fahy, Katherine Erin

04 May 2017

No description available.

Medicine

Pharmacology

Microvesicle particles

keratinocytes

thermal burn

ultraviolet B radiation

Platelet-activating factor

acid sphingomyelinase

MAP kinase

The Regulation of Platelet Activating Factor Acetylhydrolase by Oxidized Phospholipids

Griffiths, Rachael

27 July 2009

Platelet-activating factor acetylhydrolase (PAFAH) is elevated in atherosclerosis and may play a role in pathogenesis of this disease. Molecular mechanisms regulating the expression of this lipoprotein-associated PLA2 are indistinct. Mildy oxidized low density lipoprotein (oxLDL) and monocytes (the primary source of PAFAH) are co-localized in early atheromas. Monocytes are activated by oxidized phospholipids (oxPL) in the oxLDL particle. We hypothesized that oxPL-activated monocytes are the source of increased levels of PAFAH in atherosclerosis. We found that PAFAH expression is significantly induced by OxPAPC and in particular long-chain fractions of oxPAPC in monocytes and cytokine-differentiated DC, but not cytokine-differentiated MO. Furthermore, spontaneously differentiated MO and DC from monocytes of non-periodontitis and aggressive periodontitis subjects, oxPAPC induced PAFAH in DC alone. 1-palmitoyl-2-epoxyisoprostane-sn-glycero-3-phosphocholine (PEIPC) is a particularly bioactive component of long-chain oxPAPC fractions that binds the prostaglandin receptor subtypes DP1 and EP2. We revealed using selective agonists and antagonists of these receptors that DP1 and EP2 are required for the induction of PAFAH expression. OxPAPC stimulates IL-6 release from monocytes and this cytokine is required for oxPAPC-induced PAFAH expression. We next tested the hypothesis that oxPAPC did not induce PAFAH in MO because a key component of the signaling machinery was lacking. Flow cytometric and immunoblot analyses demonstrated that MO express very low levels of IL-6 receptor in comparison to DC and monocytes. Based on these observations, we propose that long-chain oxPL induce PAFAH expression by binding DP1 and/or EP2 and stimulating IL-6 production. These data strongly support the hypothesis that oxLDL-activated DC are the source of high PAFAH levels in atherosclerosis. Platelet activating factor (PAF) is the inflammatory phospholipids for which PAFAH is named. PAF has been shown by other investigators to induce the expression of PAFAH. In our physiologically relevant monocytes, PAF suppresses PAFAH transcription and expression. 1-palmitoyl-2-(5-oxovaleroyl)-sn-glycero-3-phosphatidylcholine (POVPC) is a short-chain oxPL that signals through the PAF receptor. Our preliminary data suggest that like PAF, POVPC suppresses PAFAH expression in monocytes. Further investigation into the effects of the short-chain oxPL are warranted. Our data support the hypothesies that oxPL-activated DC are the source of high PAFAH levels in atherosclerosis.

atherosclerosis

phospholipase a2

atherosclerosis

monocytes

macrophages

dendritic cells

oxidized phospholipids

periodontitis

Life Sciences

Modulação da resposta dos receptores do tipo Toll pela ativação do PAF-R em macrofágos murinos. / Modulation of Toll like receptors responses by PAF-R activation in murine macrophages.

Ishizuka, Edson Kiyotaka

18 May 2016

Receptores do tipo Toll (TLRs) e o receptor do fator ativador de plaquetas (PAF-R) são altamente expressos em macrófagos. Neste estudo, investigamos o efeito da ativação do PAF-R na resposta de macrófagos peritoneais a agonistas de TLR. Descobrimos que PAF exógeno inibiu a produção de citocinas pró-inflamatórias (IL-6, IL-12p40 e TNF-α) e aumentou a produção de IL-10 em macrófagos estimulados com Pam3Cys (TLR2) e LPS (TLR4), mas não Poly(I:C) (TLR3). PAF não afetou a expressão de MyD88 e TRIF, sugerindo que o efeito do PAF na modulação das citocinas é downstream aos adaptadores. PAF inibiu a fosforilação induzida por LPS da subunidade p65 do NF-κB que direciona a expressão de genes pró-inflamatórios, e aumentou a fosforilação da proteína precursora p105 do NF-κB, que induz a expressão da IL-10. Esses resultados indicam que em macrófagos ativados com LPS, a diminuição da atividade transcricional da p65 e o aumento da fosforilação da p105 induzidos pelo PAF são responsáveis pela downregulation das citocinas pró-inflamatórias e upregulation da IL-10, respectivamente. / Toll-like receptors (TLRs) and platelet-activating factor receptor (PAF-R) are highly expressed in macrophages. In this work, we investigated the effect of PAF-R activation on peritoneal macrophages responses to TLR agonists. We found that exogenous PAF inhibited the production of pro-inflammatory cytokines (IL-12p40, IL-6 and TNF-α) and increased IL-10 in macrophages challenged with Pam3Cys (TLR2) and LPS (TLR4), but not by Poly(I:C) (TLR3). PAF did not affect MyD88 and TRIF expression, suggesting that PAF modulation on cytokines is downstream to adaptors. PAF inhibited LPS-induced phosphorylation of NF-κB p65 that drives inflammatory cytokine gene expression and increased NF-κB p105 precursor phosphorylation, which induces IL-10 expression. These findings indicate that in LPS-activated macrophages, the impaired transcriptional activity of p65 subunit and enhanced p105 phosphorylation induced by PAF are responsible for the downregulation of pro-inflammatory cytokines and up-regulation of IL-10, respectively.

Fator ativador de plaquetas

Macrófagos

Macrophages

NF-κB

NF-κB

Platelet activating factor

Receptores do tipo Toll

Toll-like receptors