Caracterização das vias de morte celular induzida pela metilecgonidina, produto da pirólise da cocaína / Neurotoxicity of anydroecgonine methyl ester, a crack cocaine pyrolysis product

Livia Mendonça Munhóz Dati

26 October 2012

A cocaína é considerada a principal droga de abuso utilizada na América do Sul, sendo que o crack é a via de administração que mais cresceu nos últimos anos. Cabe salientar que o usuário do crack sofre ação tanto da cocaína quanto das substâncias advindas da sua pirólise, dentre elas a metilecgonidina (AEME). Trabalho publicado pelo nosso grupo demonstrou que a AEME é mais neurotóxica que a cocaína em cultura primária de hipocampo. Além disso, dados da literatura têm mostrado uma possível ação da AEME em receptores colinérgicos muscarínicos no sistema nervoso periférico. Na tentativa de elucidar se essa ação ocorre no sistema nervoso central, a AEME foi incubada na presença e na ausência de atropina, um antagonista de receptores colinérgicos muscarínicos. Nossos resultados em cultura primária de hipocampo mostraram que a atropina foi capaz de prevenir os efeitos neurotóxicos causados pela AEME, sugerindo uma afinidade aos receptores colinérgicos muscarínicos. Contudo, o mesmo efeito não foi observado após a incubação com a cocaína e a associação (AEME 1 mM /cocaína 2 mM). Pode-se pressupor que a AEME age preferencialmente em receptores colinérgicos muscarínicos subtipos M1, M3 e M5, uma vez que houve a formação de IP3 e aumento de cálcio intracelular, sendo esse último observado também nos grupos incubados com cocaína e associação (AEME 1 mM /cocaína 2 mM). Com a finalidade de verificar se a apoptose era uma das vias de morte neuronal, foi avaliada a expressão das proteínas mitoncondriais (Bax e Bcl-2), a atividade da caspase-3 e a análise da fragmentação do DNA, bem como a integridade da membrana celular. Foi observado que a AEME aumentou a razão das proteínas mitocondriais Bax/Bcl-2, a atividade da caspase-3 e o DNA fragmentado, bem como a perda da integridade da membrana. A cocaína aumentou a atividade da caspase 3, a fragmentação do DNA e a perda da integridade da membrana celular, mas não alterou a razão da expressão das proteínas mitocondriais Bax/Bcl-2. Apesar de apresentar uma diminuição da atividade da caspase-3, a associação (AEME 1 mM /cocaína 2 mM) apresentou um aumento do DNA fragmentado e do rompimento da membrana, bem como um aumento da razão Bax/Bcl-2. Estes dados sugerem que estas substâncias estimulam vias de morte neuronal tanto de apoptose quanto de necrose. Mais ainda, nas vias estudas neste trabalho, parece que a associação (AEME 1 mM /cocaína 2 mM) desencadeia os efeitos neurotóxicos mais rápido, estimulando, possivelmente, vias diferentes das encontradas com as substâncias isoladamente. / Cocaine is the main illicit drug used in South America, and the crack cocaine is the administration route that grown more than any other route in the last years. The user of crack cocaine suffers the action of both cocaine and its pyrolysis products, which methylecgonidine (AEME) is the main compound. Published work by our group demonstrated that AEME is more neurotoxic than cocaine in rat primary hippocampal cell culture. Moreover, published data have shown a possible muscarinic cholinergic action of AEME in the peripheral nervous system. To verify if this action occurs in the central nervous system, AEME was incubated in the presence and absence of atropine, a muscarinic cholinergic receptor antagonist. Our results in rat primary hippocampal cell culture showed that atropine was able to prevent AEME-induced neurotoxic effects, suggesting its affinity for muscarinic cholinergic receptors. However, this effect was not observed after incubation with cocaine and association (AEME 1 mM /cocaine 2 mM). It is suggestive that AEME acts, with preference, on subtypes M1, M3 and M5 muscarinic cholinergic receptors, once there was the formation of IP3 and the increase of intracellular calcium. It is important to mention that the intracellular calcium was also increased in both cocaine and association (AEME 1 mM /cocaine 2 mM) groups. In order to know whether apoptosis was a neuronal death pathway, it was evaluated the expression of mitochondrial proteins (Bax and Bcl-2), the capase-3 activity and the DNA fragmentation, as well as the loss of membrane integrity. It was observed that AEME increased the ratio of mitochondrial proteins Bax/Bcl-2, the activity of caspase-3, the fragmentation of DNA and the loss of membrane integrity. Cocaine increased the activity of caspase-3, the DNA fragmentation and the loss of cell membrane integrity, but did not affect the ratio expression of mitochondrial proteins Bax/Bcl-2. Although it was observed a decrease in caspase-3 activity, the association (AEME 1 mM / cocaine 2 mM) showed an increase in the DNA fragmentation and the cell membrane disruption, as well as an increase in Bax/Bcl-2 ratio. These data suggest that these substances stimulate neuronal death pathways of both apoptosis and necrosis. Moreover, in the pathways studied in this work, it seems that the association (AEME 1 mM /cocaine 2 mM) has the fastest neurotoxic effects, stimulating, possibly, different neuronal death pathways when compared to substances isolated.

Apoptose

Caspase/efeitos de drogas

Cocaína crack

Necrose

Proteínas mitocondriais

Ratos Wistar

Receptores muscarínicos

Síndromes neurotóxicas

Sobrevivência celular/efeitos de drogas

Anhydroecgonine methyl ester

Apoptosis

Crack cocaine

Necroses

Neurotoxicity

Rat primary hippocampal cell culture

Caspase-8が制御するレチノイン酸誘導細胞分化とネクロプトーシスの分子機構解析

染田, 真孝

23 March 2020

京都大学 / 0048 / 新制・論文博士 / 博士(生命科学) / 乙第13351号 / 論生博第22号 / 新制||生||58(附属図書館) / 京都大学大学院生命科学研究科高次生命科学専攻 / (主査)教授 井垣 達吏, 教授 垣塚 彰, 教授 影山 龍一郎 / 学位規則第4条第2項該当 / Doctor of Philosophy in Life Sciences / Kyoto University / DFAM

レチノイン酸

ネクロプトーシス

RIPK3

460

The Epithelial Transmembrane Protein PERP Is Required for Inflammatory Responses to S. typhimurium Infection: A Dissertation

Hallstrom, Kelly N.

28 October 2015

Salmonella enterica subtype Typhimurium (S. Typhimurium) is one of many non-typhoidal Salmonella enterica strains responsible for over one million cases of salmonellosis in the United States each year. These Salmonella strains are also a leading cause of diarrheal disease in developing countries. Nontyphoidal salmonellosis induces gastrointestinal distress that is characterized histopathologically by an influx of polymorphonuclear leukocytes (PMNs), the non-specific effects of which lead to tissue damage and contribute to diarrhea. Prior studies from our lab have demonstrated that the type III secreted bacterial effector SipA is a key regulator of PMN influx during S. Typhimurium infection and that its activity requires processing by caspase-3. Although we established caspase-3 activity is required for the activation of inflammatory pathways during S. Typhimurium infection, the mechanisms by which caspase-3 is activated remain incompletely understood. Most challenging is the fact that SipA is responsible for activating caspase-3, which begs the question of how SipA can activate an enzyme it requires for its own activity. In the present study, we describe our findings that the eukaryotic tetraspanning membrane protein PERP is required for the S. Typhimuriuminduced influx of PMNs. We further show that S. Typhimurium infection induces PERP accumulation at the apical surface of polarized colonic epithelial cells, and that this accumulation requires SipA. Strikingly, PERP accumulation occurs in the absence of caspase-3 processing of SipA, which is the first time we have shown SipA mediates a cellular event without first requiring caspase-3 processing. Previous work demonstrates that PERP mediates the activation of caspase-3, and we find that PERP is required for Salmonella-induced caspase-3 activation. Our combined data support a model in which SipA triggers caspase-3 activation via its cellular modulation of PERP. Since SipA can set this pathway in motion without being cleaved by caspase-3, we propose that PERP-mediated caspase-3 activation is required for the activation of SipA, and thus is a key step in the inflammatory response to S. Typhimurium infection. Our findings further our understanding of how SipA induces inflammation during S. Typhimurium infection, and also provide additional insight into how type III secreted effectors manipulate host cells.

Bacterial Proteins

Caspase 3

Epithelial Cells

Inflammation

Membrane Proteins

Microfilament Proteins

Neutrophils

Salmonella Infections

Salmonella enterica

Salmonella typhimurium

Dissertations, UMMS

Bacterial Infections and Mycoses

Bacteriology

Immunology of Infectious Disease

Immunopathology

Pathogenic Microbiology

Molecular and Cellular Mechanisms Leading to Similar Phenotypes in Down and Fetal Alcohol Syndromes

Solzak, Jeffrey Peter

22 August 2013

Indiana University-Purdue University Indianapolis (IUPUI) / Down syndrome (DS) and Fetal Alcohol Syndrome (FAS) are two leading causes of birth defects with phenotypes ranging from cognitive impairment to craniofacial abnormalities. While DS originates from the trisomy of human chromosome 21 and FAS from prenatal alcohol consumption, many of the defining characteristics for these two disorders are stunningly similar. A survey of the literature revealed over 20 similar craniofacial and structural deficits in both human and mouse models of DS and FAS. We hypothesized that the similar phenotypes observed are caused by disruptions in common molecular or cellular pathways during development. To test our hypothesis, we examined morphometric, genetic, and cellular phenotypes during development of our DS and FAS mouse models at embryonic days 9.5-10.5. Our preliminary evidence indicates that during early development, dysregulation of Dyrk1a and Rcan1, cardinal genes affecting craniofacial and neurological precursors of DS, are also dysregulated in embryonic FAS models. Furthermore, Caspase 3 was also found to have similar expression in DS and FAS craniofacial neural crest derived tissues such as the first branchial arch (BA1) and regions of the brain. This may explain a developmental deficit by means of apoptosis. We have also investigated the expression of pAkt, a protein shown to be affected in FAS models, in cells located within the craniofacial precursor of Ts65Dn. Recent research shows that Ttc3, a gene that is triplicated and shown to be overexpressed in the BA1 and neural tube of Ts65Dn, targets pAkt in the nucleus affecting important transcription factors regulating cell cycle and cell survival. While Akt has been shown to play a role in neuronal development, we hypothesize that it also affects similar cellular properties in craniofacial precursors during development. By comparing common genotypes and phenotypes of DS and FAS we may provide common mechanisms to target for potential treatments of both disorders. One of the least understood phenotypes of DS is their deficient immune system. Many individuals with DS have varying serious illnesses ranging from coeliac disease to respiratory infections that are a direct result of this immunodeficiency. Proteasomes are an integral part of a competent and efficient immune system. It has been observed that mice lacking immunoproteasomes present deficiencies in providing MHC class I peptides, proteins essential in identifying infections. A gene, Psmg1 (Dscr2), triplicated in both humans and in Ts65Dn mice, is known to act as a proteasome assembly chaperone for the 20S proteasome. We hypothesized that a dysregulation in this gene promotes a proteasome assembly aberration, impacting the efficiency of the DS immune system. To test this hypothesis we performed western blot analysis on specific precursor and processed β-subunits of the 20S proteasome in thymic tissue of adult Ts65Dn. While the β-subunits tested displayed no significant differences between trisomic and euploid mice we have provided further insight to the origins of immunodeficiency in DS.

Down Syndrome

Fetal Alcohol Syndrome

Caspase 3

Dyrk1a

Rcan1

Akt

Fetal alcohol syndrome -- Research

Down syndrome -- Research

Fetal alcohol syndrome -- Animal models

Phenotype -- Research

Cognition disorders

Dual specificity phosphatase 1

Apoptosis

Transcription factors

Immunodeficiency

Dysostosis

Alcohol -- Physiological effect

Developmental neurophysiology

Mechanismen der Inhibierung von Wirtszellapoptose durch <i>Toxoplasma gondii</i> / Inhibition mechanisms of host cell apoptosis by <i>Toxoplasma gondii</i>

Hippe, Diana

30 October 2008

No description available.

570 Biowissenschaften, Biologie

Mathematics and Computer Science

<i>Toxoplasma gondii</i>

Apoptose

Caspase

Fas/CD95;Bcl-2-Proteine

BH3-only Protein

<i>Toxoplasma gondii</i>

apoptosis

caspase

Fas/CD95;Bcl-2-proteins

BH3-only protein

42.36

WHF 900: Zelltod, Apoptose {Cytologie}

MED 337: Parasitologie {Medizin}

Darmschädigung durch Photonen-Strahlung nach Einzeitbestrahlung der Leber / Radiation-induced damage in different segments of the rat intestine after external

Schwartz, Antonia

16 January 2012

No description available.

610 Medizin, Gesundheit

Medicine

Darm

Ileum

Leberbestrahlung

Strahlenschäden

Chemokine

Apoptose

Zytokine

Caspasen

Bax

Bcl-2

Angiogenese

Fibrose

Intestine

Ileum

Radiation mucositis

Chemokines

Cytokines

Apoptosis

Out-of-field effects

external-beam irradiation of the liver

Caspase

Bax

Bcl-2

angiogenesis

fibrosis

44.61

44.87

44.64

44.47

MED 414: Gastroenterologie

MED 375: Strahlenschutz {Medizin}

Some aspects of molecular mechanisms of xenobiotics' hepatotoxicity and hepatoprotection : Modulatory roles of natural polyphenols

Lekic, Nataša

January 2013

Background & Aims: Oxidative stress and apoptosis are proposed mechanisms of cellular injury in studies of xenobiotic hepatotoxicity. The aim of this work is to find early signal markers of drug-induced injury of the liver by focusing on select antioxidant/oxidant and apoptotic genes. As well, to address the relationship between conventional liver dysfunction markers and the measured mRNA and protein expressions in the D-galactosamine/lipopolysaccharide and tert-butylhydroperoxide hepatotoxicity models. Furthermore, potential hepatoprotective capabilities of antioxidant polyphenols quercetin and curcumin were evaluated in relation to its modulation of the oxidative stress and apoptotic parameters in the given xenobiotic hepatotoxicity models. Methods: Biochemical markers testing the hepatic function included aminotransferases (ALT, AST) and bilirubin. Measurements of TBARS and conjugated dienes were used to assess lipoperoxidation. Plasma levels of catalase and reduced glutathione were used as indicators of the oxidative status of the cell. Real time PCR was used to analyse the mRNA expressions of the inducible nitric oxide synthase (NOS-2), heme oxygenase-1 (HO-1), superoxide dismutase (SOD-1), glutathione peroxidase (Gpx-1), caspase 3 (Casp3), BH3 interacting domain death agonist (Bid) and Bcl-2...

Caspase-8 and RIP Kinases Regulate Bacteria-Induced Innate Immune Responses and Cell Death: A Dissertation

Weng, Dan

07 July 2014

Yersinia pestis (Y. pestis), as the causative agent of plague, has caused deaths estimated to more than 200 million people in three historical plague pandemics, including the infamous Black Death in medieval Europe. Although infection with Yersinia pestis can mostly be limited by antibiotics and only 2000-5000 cases are observed worldwide each year, this bacterium is still a concern for bioterrorism and recognized as a category A select agent by the Centers for Disease Control and Prevention (CDC). The investigation into the host-pathogen interactions during Y. pestis infection is important to advance and broaden our knowledge about plague pathogenesis for the development of better vaccines and treatments. Y. pestis is an expert at evading innate immune surveillance through multiple strategies, several mediated by its type three secretion system (T3SS). It is known that the bacterium induces rapid and robust cell death in host macrophages and dendritic cells. Although the T3SS effector YopJ has been determined to be the factor inducing cytotoxicity, the specific host cellular pathways which are targeted by YopJ and responsible for cell death remain poorly defined. This thesis research has established the critical roles of caspase-8 and RIP kinases in Y. pestis-induced macrophage cell death. Y. pestis-induced cytotoxicity is completely inhibited in RIP1-/- or RIP3-/-caspase-8-/- macrophages or by specific chemical inhibitors. Strikingly, this work also indicates that macrophages deficient in either RIP1, or caspase-8 and RIP3, have significantly reduced infection-induced production of IL-1β, IL-18, TNFα and IL-6 cytokines; impaired activation of NF-κB signaling pathway and greatly compromised caspase-1 processing; all of which are critical for innate immune responses and contribute to fight against pathogen infection. Y. pestis infection causes severe and often rapid fatal disease before the development of adaptive immunity to the V bacterium, thus the innate immune responses are critical to control Y. pestis infection. Our group has previously established the important roles of key molecules of the innate immune system: TLR4, MyD88, NLRP12, NLRP3, IL-18 and IL-1β, in host responses against Y. pestis and attenuated strains. Yersinia has proven to be a good model for evaluating the innate immune responses during bacterial infection. Using this model, the role of caspase-8 and RIP3 in counteracting bacterial infection has been determined in this thesis work. Mice deficient in caspase-8 and RIP3 are very susceptible to Y. pestis infection and display reduced levels of pro-inflammatory cytokines in spleen and serum, and decreased myeloid cell death. Thus, both in vitro and in vivo results indicate that caspase-8 and RIP kinases are key regulators of macrophage cell death, NF-κB and caspase-1 activation in Yersinia infection. This thesis work defines novel roles for caspase-8 and RIP kinases as the central components in innate immune responses against Y. pestis infection, and provides further insights to the host-pathogen interaction during bacterial challenge.

Adaptive Immunity

Caspase 8

Cell Death

Host-Pathogen Interactions

Innate Immunity

NF-kappa B

Plague

Tumor Necrosis Factor-alpha

Yersinia Infections

Yersinia pestis

Dissertations, UMMS

Immunity, Innate

Bacterial Infections and Mycoses

Bacteriology

Immunity

Immunology of Infectious Disease

Immunopathology

Death is Not the End: The Role of Reactive Oxygen Species in Driving Apoptosis-induced Proliferation

Fogarty, Caitlin E.

02 June 2015

Apoptosis-induced proliferation (AiP) is a compensatory mechanism to maintain tissue size and morphology following unexpected cell loss during normal development, and may also be a contributing factor to cancer growth and drug resistance. In apoptotic cells, caspase-initiated signaling cascades lead to the downstream production of mitogenic factors and the proliferation of neighboring surviving cells. In epithelial Drosophila tissues, the Caspase-9 homolog Dronc drives AiP via activation of Jun N-terminal kinase (JNK); however, the specific mechanisms of JNK activation remain unknown. Using a model of sustained AiP that produces a hyperplastic phenotype in Drosophila eye and head tissue, I have found that caspase-induced activation of JNK during AiP depends on extracellular reactive oxygen species (ROS) generated by the NADPH oxidase Duox. I found these ROS are produced early in the death-regeneration process by undifferentiated epithelial cells that have initiated the apoptotic cascade. I also found that reduction of these ROS by mis-expression of extracellular catalases was sufficient to reduce the frequency of overgrowth associated with our model of AiP. I further observed that extracellular ROS attract and activate Drosophila macrophages (hemocytes), which may in turn trigger JNK activity in epithelial cells by signaling through the TNF receptor Grindelwald. We propose that signaling back and forth between epithelial cells and hemocytes by extracellular ROS and Grindelwald drives compensatory proliferation within the epithelium, and that in cases of persistent signaling, such as in our sustained model of AiP, hemocytes play a tumor promoting role, driving overgrowth.

Apoptosis

Apoptosis-induced Proliferation

Cancer

Caspase

Catalase

Cell death

Chronic Inflammation

c-Jun Kinase (JNK) Signaling

Dcp-1

DrICE

Drosophila

Dronc

Duox

Hemocytes

Imaginal Discs

Non-apoptotic functions

Phoenix Rising

Reactive Oxygen Species

Regeneration

Regulatory Feedback Loop

TNF Signaling

Tumor Associated Macrophages

Wound Healing

Cancer Biology

Developmental Biology

ApoE3 mediated poly(butyl) cyanoacrylate nanoparticles containing curcumin: study of enhanced activity of curcumin against beta amyloid induced cytotoxicity using in vitro cell culture model

Mulik, R.S., Monkkonen, J., Juvonen, R.O., Mahadik, K.R., Paradkar, Anant R

January 2010

No / Beta amyloid plays a main role in the pathophysiology of Alzheimer's disease by inducing oxidative stress in the brain. Curcumin, a natural antioxidant, is known to inhibit beta amyloid and beta amyloid induced oxidative stress. However, low bioavailability and photodegradation are the major concerns for the use of curcumin. In the present study, we have formulated apolipoprotein E3 mediated poly(butyl) cyanoacrylate nanoparticles containing curcumin (ApoE3-C-PBCA) to provide photostability and enhanced cell uptake of curcumin by targeting. Prepared nanoparticles were characterized for particle size, zeta potential, entrapment efficiency and in vitro drug release. The entrapment of curcumin inside the nanoparticles was confirmed by X-ray diffraction analysis. Physicochemical characterization confirmed the suitability of the method of preparation. The photostability of curcumin was increased significantly in nanoparticles compared to plain curcumin. In vitro cell culture study showed enhanced therapeutic efficacy of ApoE3-C-PBCA against beta amyloid induced cytotoxicity in SH-SY5Y neuroblastoma cells compared to plain curcumin solution. Beta amyloid is known to induce apoptosis in neuronal cells, therefore antiapoptotic activity of curcumin was studied using flow cytometry assays. From all the experiments, it was found that the activity of curcumin was enhanced with ApoE3-C-PBCA compared to plain curcumin solution suggesting enhanced cell uptake and a sustained drug release effect. The synergistic effect of ApoE3 and curcumin was also studied, since ApoE3 also possesses both antioxidant and antiamyloidogenic activity. It was found that ApoE3 did indeed have activity against beta amyloid induced cytotoxicity along with curcumin. Hence, ApoE3-C-PBCA offers great advantage in the treatment of beta amyloid induced cytotoxicity in Alzheimer's disease.

Alzheimer disease

Amyloid beta-Peptides

Apolipoprotein E3

Apoptosis

Caspase 3/metabolism

Cell cycle

Cell line

Curcumin

Enbucrilate

Flow cytometry

Humans

Models

Nanoparticles

Polymers

Reactive oxygen species

X-Ray diffraction

REF 2014

Drug therapy

Metabolism

Physiology

Chemistry

Drug effects

Beta amyloid

Tumor

Therapeutic use

Theoretical

Targeted nanoparticles