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Caracterização do gene Zmlim-1 de milho e seu papel na tolerância ao alumínio / Characterization of a maize gene Zmlim-1 and its role in aluminum toleranceBaldacin, Maria Graziela Zagatto Krug 07 December 2010 (has links)
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Previous issue date: 2010 / Resumo: A toxidez por alumínio (Al3+) é o principal fator limitante da produção agrícola em grandes áreas do Brasil e do mundo. Sabe-se que a defesa das plantas a este elemento é controlada por múltiplos genes. A caracterização de genes cuja expressão é induzida pelo Al contribui para compreender as defesas ativadas pelas plantas. Neste trabalho identificou-se um cDNA de milho expresso em raízes através da técnica de mRNA differential display. Este cDNA codifica uma seqüência que contem dois domínios LIM, separados por um espaçador de 40-50 resíduos, sendo denominado Zmlim-1. O objetivo deste trabalho é a caracterização deste gene e o seu papel na tolerância ao Al em milho. Em estudos de expressão verificou-se que o gene Zmlim- 1 é induzido por Al e sua expressão é maior na linhagem tolerante, Cat100-6, quando comparado com a linhagem sensível S1587-17. O direcionamento da proteína ZMLIM-1 foi observado em epitélios de cebola bombardeados com a construção fusionada à proteína GFP (green fluorescent protein). A expressão transiente revelou que esta proteína está localizada no citoplasma e no núcleo. A hibridização in situ demonstrou que Zmlim-1 é expresso na maioria das células do ápice de raiz de milho. O sistema de duplo híbrido de levedura permitiu identificar três proteínas que interagem com a proteína ZMLIM-1: duas proteínas da subunidade ribossomal e uma proteína da família OMT envolvida na biossíntese de lignina. Plantas transgênicas silenciando este gene forneceram evidências de que o gene Zmlim-1 pode influenciar a anatomia da raiz e a quantidade de lignina. Este é o primeiro relato de interação OMT com proteínas de domínio LIM, sugerindo um envolvimento desta proteína com a biossíntese de lignina. Plantas transgênicas submetidas ao estresse por Al3+ não apresentaram diferenças com relação às plantas controle não transformadas / Abstract: Aluminum (Al) toxicity is the main factor limiting agricultural production in large areas in Brazil and in the world. It is known that plant defenses against this element are controlled by multiple genes. The characterization of genes whose expression is induced by Al contributes to the understanding of the defenses activated by plants. In this work we identified a cDNA expressed in maize roots using mRNA differential display. This cDNA encodes a sequence that contains two LIM domains separated by a spacer of 40-50 residues, being named Zmlim-1. The purpose of this study was the characterization of this gene and its involvement in Al tolerance in maize. In expression studies it was found that the Zmlim-1 gene was induced by Al and its expression was higher in the tolerant line, Cat100-6 when compared with the sensitive line S1587-17. The subcellular localization of the protein ZMLIM-1 was observed in onion epithelial cells bombarded with a ZMLIM-1::GFP (green fluorescent protein) fusion. The assay of transient expression revealed that this protein is localized in cytoplasm and nucleus. In situ hybridization showed that Zmlim-1 is expressed in most cells of the root apex of maize. The yeast two hybrid system identified three proteins that interact with ZMLIM-1 protein: tworibosomal subunit proteins and a protein from the OMT family involved in lignin biosynthesis. Transgenic plants silenced for this gene have provided evidence that Zmlim-1 gene can influence the anatomy of the root and the amount of lignin in the plants. This is the first report of OMT interaction with LIM domain proteins, suggesting an involvement of this protein with lignin biosynthesis. Transgenic plants subjected to Al3+ stress did not show differences when compared to control, untransformed plants / Doutorado / Genetica Vegetal e Melhoramento / Doutor em Genetica e Biologia Molecular
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Eucalyptus DREB regulation pathway : control of abiotic stress tolerance, plant development and wood formation / Contribution à l'étude de la régulation de la voie des facteurs de transcription DREB chez l'eucalyptus : contrôle de la tolérance aux stress abiotique, de la croissance et de la formation du boisNguyen, Hong Chien 26 September 2016 (has links)
L'Eucalyptus, feuillu le plus planté dans le monde, est fortement exposé au froid en raison de l'absence de dormance. Les gènes DREB sont connus comme étant les principaux régulateurs de la réponse aux stress abiotiques. Un nombre élevé de gènes DREB1/CBF (C-Repeat Factor) a été identifié chez Eucalyptus grandis. Le but de l'étude est de mieux comprendre le rôle de la voie DREB chez Eucalyptus pour le contrôle de la tolérance au stress, du développement et de la formation du bois. La présente étude a permis une annotation des gènes CBF et DREB2 dans le cadre d'un projet de sequençage partiel du génome d'E. gunnii. Une analyse complète de l'expression des genes par qRT-PCR a été réalisée sur les différents organes des deux espèces d'Eucalyptus après les traitements au stress. L'existence d'une copie de CBF supplémentaire dans le génome E. gunnii par rapport à E. grandis suggère que ce groupe est encore en évolution contrairement au groupe DREB2. Un nombre élevé de transcrits CBF chez E. gunnii, tolérant au froid, et forte une vitesse d'induction ce ces facteurs chez E. grandis, à croissance rapide, suggère que les facteurs CBF sont impliqués à la fois dans la protection au stress et la limitation de croissance. Des facteurs de transcription des familles MYB, NAC, KNOX et AP2/ERF impliqués dans le contrôle de la croissance et de la formation de la paroi cellulaire ont été identifiés comme étant des gènes putatifs cibles de CBF. Ces résultats sont en accord avec le phénotype modifié de surexpresseurs CBF. Les deux approches suggèrent un rôle central de la voie de DREB dans le compromis entre la croissance et la résistance au stress chez cette espèce ligneuse. / Eucalyptus, the most widely planted hardwood in the world, is highly exposed to the cold due to the lack of dormancy. DREB (Drought Responsive Element Binding) genes are known as master regulators of abiotic stress response. A high number of the DREB1/CBF (C-Repeat Factor) genes has been annotated in Eucalyptus grandis. The aim of the study was to better understand the role of DREB pathway in Eucalyptus for the control of stress tolerance, development and wood formation. The present study provides an annotation of the CBF and DREB2 genes from a partial draft of the E. gunnii genome sequence. A comprehensive transcriptional analysis through high-throughput qRT-PCR was carried out on different organs from the two Eucalyptus species after stress treatments. An additional CBF copy in the E. gunnii genome compared to E. grandis suggests that this group is still evolving unlike the DREB2 group. The higher CBF transcript amounts in the cold tolerant E. gunnii together with higher induction rates in the fast growing E. grandis suggest that CBF factors promote both stress protection and growth limitation. In addition, transcription factors from MYB, NAC, KNOX and AP2/ERF families involved in the control of growth and cell wall formation have been identified as putative CBF target genes. These results are in agreement with the modified phenotype of CBF overexpressors. Both approaches suggest a central role of DREB pathway in the trade-off between growth and stress resistance in this woody species.
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Investigating the Structural Dynamics and Topology of Human KCNQ1 Potassium Ion Channel using Solid-State NMR and EPR SpectroscopyDixit, Gunjan 17 July 2019 (has links)
No description available.
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Mitochondria-Dependent Cellular Toxicity of α-synuclein Modeled in YeastSanthanakrishnan, Rajalakshmi January 2019 (has links)
No description available.
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A Functional Genomics Analysis of Glycine Max Vesicle Membrane Fusion Genes in Relation to Infection by Heterodera GlycineSharma, Keshav 14 August 2015 (has links)
Soybean cyst nematode (SCN), a major pathogen of soybean worldwide, causes huge losses in soybean production. Various approaches including cloning of genes to combat this devastating disease help to better understand the cellular function and immune responses of plants. Membrane fusion genes are the important regulatory parts of vesicular transport system, which works through packaging of intracellular compounds and delivering them to apoplast or nematode feeding sites to induce an incompatible reaction. The incompatible nature of membrane fusion proteins such as SNAP25, Munc18, Syntaxin, Synaptobrevin, NSF, Synaptotagmin and alpha-SNAP are conserved in eukaryotes and regulate the intracellular function to combat abiotic and biotic stress in plants. Overexpression of these genes in G. max [Williams 82(PI518671)] which is a susceptible cultivar of soybean to nematodes resulted in a reduction of the SCN population providing further insights of molecular and genetic approaches to solve the SCN problems in agriculture.
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An estrogenically regulated potential tumor suppressor gene, protein tyrosine phosphatase γ (PTPγ), in human breastLiu, Suling January 2003 (has links)
No description available.
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OVEREXPRESSION/SILENCING OF SELECTED SOYBEAN GENES ALTERS RESISTANCE TO PATHOGENSEl-Habbak, Mohamed H. 01 January 2013 (has links)
Plant diseases remain a major obstruction to meeting the world’s increased demand for soybean oil and protein. Reducing the losses caused by diseases in order to improve crop production is a high priority for agricultural research. The need for novel strategies for plant disease control cannot be overstated. In the present study, selected defense-related genes were silenced and/or overexpressed in soybean using a virus-based vector and the resultant plants were tested for their responses to pathogens. The first part of the study focused on Rps1k (Resistance to Phytophthora sojae) gene. The two conserved domains encoding ‘P-Loop NTPase’ and ‘PLN03210’ of Rps1k were independently overexpressed. Stem inoculation assays for the overexpressing plants showed significant resistance to virulent races; 90% standing plants compared to 10% in controls. Lesion length was greatly restricted only in case of plants overexpressing ‘PLN03210’. Simultaneous silencing of Rps1k-1 and Rps1k-2 resulted in remarkable susceptibility to avirulent races when tested by a detached-leaf assay. The second part of the study entailed silencing/overexpression of the chlorophyllase genes GmCLH1 and GmCLH2 and testing the responses of the silenced/overexpressing plants to the sudden death pathogen Fusarium virguliforme. Four weeks post root inoculation, GmCLH2-silenced plants showed enhanced resistance while the GmCLH2-overexpressing plants exhibited markedly increased susceptibility when compared to empty vector control. RT-PCR assay of PR genes revealed elevated expression of PR2 and PR4 in GmCLH2-silenced plants. In the third part of the study, soybean plants silenced for a leucine-rich repeat receptor-like kinase (GmRLK3) gene were examined for their responses to different pathogens. Silencing of GmRLK3 enhanced susceptibility to infection with Alternaria tenuissima or Sclerotinia sclerotiorum as revealed by rapid disease progress on treated leaves. Surprisingly, silencing of GmRLK3 in known susceptible soybean cultivars rendered the silenced plants resistant to P. sojae. The ensuing partial resistance to P. sojae was consistent with results of RT-PCR assays that showed a significant increase in the transcript level of the osmotin-encoding gene (PR5a) in the GmRLK3-silenced plants. PR5a is considered a marker for systemic acquired resistance.
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Impact of ATP-dependent RNA Helicase DDX3X on Herpes Simplex Type 1 (HSV-1) ReplicationKhadivjam, Bita 08 1900 (has links)
Le criblage par siRNA de 49 protéines de l'hôte qui sont incorporées dans les particules
matures du virus herpès simplex de type 1 (VHS-1) a révélé l'importance d'au moins 15 d’entre
elle pour infectivité du virus (Stegen, C et al. 2013). Parmi celle-ci figure la protéine humaine
DDX3X, qui est une ARN hélicase ATP-dépendante. Cette protéine multifonctionnelle participe
à différents stages de l'expression génique, tels que la transcription, la maturation et le transport
d'ARNm ainsi que la traduction. DDX3X est impliquée dans la réplication de plusieurs virus
tels que le Virus de l’immunodéficience humaine de type 1 (VIH-1), l'hépatite B (VHB), le virus
de la vaccine (VACV) et le virus de l'hépatite C (VHC). Le rôle exact de DDX3X dans le cycle
de réplication du VHS-1 est toutefois inconnu. Ce mémoire consiste en l’étude détaillée de
l'interaction de DDX3X avec le virus. De manière surprenante, tant l’inhibition que la
surexpression de DDX3X réduit de manière significative l'infectivité du VHS-1. Fait
intéressant, lorsque nous avons restauré la déplétion de DDX3X par une construction résistante
aux ARNi utilisés, le virus pouvait de nouveau infecter les cellules efficacement, indiquant que
le virus est sensible aux quantités de cette protéine de son hôte. Nos résultats indiquent de plus
que le virus modifie la localisation de DDX3X et cause son agrégation tôt dès les premiers temps
de l'infection. Cependant, le virus ne modifie pas les niveaux cellulaires de DDX3X dans deux
des trois lignées cellulaires examinées. Nous avons également pu établir que cette protéine n'a
pas d'effet sur l'entrée du VHS-1, suggérant qu’elle agit à un stade ultérieure de l’infection. En
examinant cette relation plus en détail, nos résultats ont démontré que l’inhibition ou la
surexpression de DDX3X inhibent toutes deux la production de nouvelles particules virales en
réduisant l'expression des diverses classes cinétiques des protéines virales et ce au niveau de
leur transcription. Malgré le rôle connu DDX3X dans la stimulation de la réponse immunitaire
innée et la production d’interférons de type I, l’impact de DDX3X sur la réplication du VHS-1
est ici indépendante de cette fonction. Ces travaux démontrent donc une nouvelle voie d’action
de DDX3X sur les virus en agissant directement sur la transcription de gènes viraux et la
réplication du génome d’un virus à ADN. En comprenant mieux cette interactions hôtepathogène,
il est maintenant envisageable de concevoir des nouvelles approches thérapeutiques
contre ce virus. / siRNA screening of 49 host proteins that are known to be incorporated in the mature
virions of herpes simplex virus type 1 (HSV-1) revealed the importance of at least 15 cellular
proteins for viral infectivity (Stegen, C et al. 2013). Among these, was the human protein
DDX3X, a DEAD-box ATP-dependent RNA helicase. This multifunctional protein participates
in different stages of gene expression such as mRNA transcription, maturation, mRNA export
and translation. DDX3X has been shown to be involved in the replication of several viruses such
as human immunodeficiency virus type 1 (HIV-1), hepatitis B virus (HBV) vaccinia virus
(VACV) and hepatitis C virus (HCV). The exact role of DDX3X in HSV-1 replication cycle is
not known. Here we sought to find the detailed interaction between DDX3X with HSV-1.
Surprisingly, the down-regulation as well as overexpression of DDX3X, significantly reduced
the infectivity of HSV-1, indicating that the virus is sensitive to the precise levels of DDX3X.
Accordingly, when we rescued DDX3X back to its normal cellular levels by sequential
transfection of DDX3X siRNA and siRNA resistant DDX3X plasmid, the virus was able to
infect cells efficiently compare to wild-type conditions. Furthermore, the virus changes the
localization of DDX3X and causes its aggregation at early times in the infection. However, the
virus does not change the cellular levels of DDX3X in at least two of three different cell lines
tested. Using a luciferase assay we were able to establish that this protein has no effect on the
entry of HSV-1. In fact, depleting or overexpressing DDX3X impaired the production on newly
assembled viral particles by blocking the expression of all classes of viral proteins at the
transcription level. Despite the known role of DDX3X in the stimulation of innate immune
response and interferon type I production, DDX3X appears to act on HSV-1 replication
independently of this pathway. This highlights a novel route of action of DDX3X by acting at
the transcription level and the consequent genome replication of a DNA virus. By better
understanding such pathogen interactions, it might now be possible to design novel therapeutic
approaches.
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Caractérisation et surexpression des fimbriae de type chaperon-placier de Salmonella enterica sérovar TyphiHoude, Yoan 08 1900 (has links)
Salmonella enterica sérovar Typhi (S. Typhi) est l’agent responsable de la fièvre typhoïde et cause environ 200 000 morts et 27 millions de cas annuellement. C’est un pathogène entérique dont le réservoir est restreint à l’Homme. Les raisons de cette restriction d’hôte sont méconnues et pourraient dépendre de l’expression de facteurs d’adhésion à des étapes importantes au cours de la pathogenèse. L’annotation bioinformatique du génome de S. Typhi identifie 12 fimbriae de type chaperon-placier (FCP), un curli ainsi qu’un pilus de type IV. L’objectif de ce projet de recherche est d’étudier ces systèmes d’adhésion peu caractérisés.
D’abord, le niveau d’expression de ces gènes a été évalué dans différentes conditions de culture in vitro en utilisant une approche de gènes rapporteurs. L’expression des 14 systèmes d’adhésion a été détectée. Nos résultats indiquent qu’une carence en fer favorise l’expression des opérons bcf et csg. Indépendamment du fer, l’expression de bcf, csg, pil, sef, sta, stc, stg et sth est influencée par la richesse nutritive du milieu. L’incubation en milieu LB liquide favorise l’expression de la plupart des systèmes d’adhésion par rapport à un milieu LB liquide sans agitation ou un milieu LB solide. En somme, l’expression des systèmes d’adhésion de S. Typhi a été observée et est influencée par des conditions environnementales.
Dans un second volet, nous avons tent de surexprimer les différents systèmes d’adhésion chez une souche d’E. coli ou de S. Typhi afimbriaire. Avec cette approche, nous avons été en mesure de démontrer que l’opéron tcf encode pour un fimbria fonctionnel que l’on a pu observer en microscopie électronique. L’expression de tcf chez une souche afimbriaire d’E. coli et S. Typhi a également diminué leur capacité d’adhésion à des cellules épithéliales intestinales humaines lors d’essais in vitro.
Nos observations démontrent que l’expression des systèmes d’adhésion retrouvés chez S. Typhi est influencée par les conditions enviroi9onnementales. Au moins un de ces systèmes est fonctionnel. Ceci suggère une contribution des systèmes d’adhésion retrouvés chez S. Typhi lors de l’interaction de ce pathogène avec l’humain. / Salmonella enterica serovar Typhi (S. Typhi) is the etiological agent of typhoid fever which causes more than 200 000 deaths and 27 million cases worldwide, mostly in south Asia. This pathogen can only cause significant symptoms in humans, which are the only recognized animal reservoir. This host restriction is not clearly understood and could depend on the expression of adhesion systems during critical pathogenesis steps. Bioinformatic studies on S. Typhi predict 12 chaperone-usher fimbriae, one curli and one type IV secretion system. The aim of the project was to study those poorly described adhesion systems using two different methodologies.
First, transcription levels were evaluated in different in vitro growth conditions using both gfp and β-galactosidase reporter genes. The expression of the 14 adhesion systems was detected, even if some of them were poorly expressed. The expression of bcf and csg was higher during iron-deficiency. Also, the availability of nutrients had an impact on bcf, csg, pil, sef, sta, stc, stg and sth expression, independently of the presence of iron. Most of the adhesion systems showed higher expression levels in liquid LB media with aeration compared to the same media without aeration or supplemented with agar.
Secondly, several S. Typhi adhesion systems were cloned into an inducible expression plasmid introduced in both an afimbriated E. coli K-12 strain (ORN172) and an afimbriated S. Typhi strain (ISP1820). This approach enabled us to directly observe the presence of tcf by electron microscopy. Furthermore, the expression of tcf was correlated with a reduction of the capacity of bacteria to adhere to INT-407 human intestinal epithelial cells in an in vitro assay.
In summary, this work demonstrates that the putative adhesion systems found in S. Typhi can indeed be expressed and this expression can be regulated by environmental signals. Furthermore, tcf encodes for a functional fimbria which has never before been observed. Taken together, our results suggest a significant contribution of the putative adhesion systems during normal pathogenesis.
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Paracoccina: uma quitinase importante para a patobiologia e virulência de Paracoccidioides brasiliensis / Paracoccin: a major chitinase for the pathobiology and virulence of Paracoccidioides brasiliensisGonçales, Relber Aguiar 26 July 2018 (has links)
Espécies do gênero Paracoccidioides spp são fungos patogênicos, termodimórficos, agentes etiológicos de doença endêmica em diversas regiões da América Latina. O indivíduo infectado desenvolve uma resposta específica que, quando associada à alta produção de TNF-? e IFN-?, favorece a resistência ao fungo. Componentes de alguns fungos patogênicos foram caracterizados, por técnicas de knockdown gênico, como importantes para a virulência fúngica. Nosso grupo identificou paracoccina (PCN) como um componente de leveduras de P. brasiliensis; trata-se de uma proteína com um domínio enzimático, dotado de atividade quitinase e um domínio lectínico, ligante de GlcNAc. PCN é dotada das seguintes propriedades: (a) contribui para o crescimento do fungo; (b) promove a adesão da levedura à matriz extracelular, por ligar-se à laminina; (c) interage com N-glicanas de TLR2 e TLR4 e promove ativação celular; (d) estimula macrófagos a produzirem mediadores pró-inflamatórios como IL- 12, TNF-? e NO; (e) promove a polarização M1 de macrófagos; (f) induz atividade fungicida em neutrófilos, bem como formação de NETs e supressão da apoptose, eventos que se mostraram dependentes da síntese de novo de proteínas pelos neutrófilos estimulados. Dada a relevância das atividades biológicas de PCN, promovemos recentemente o silenciamento do gene que codifica essa proteína, através de metodologia que usa RNA anti-sense e transformação mediada por Agrobacterium tumefaciens (ATMT). Uma vez PCN silenciada, a levedura perdeu a capacidade de fazer a transição para micélio e diminuiu a resistência à atividade fungicida de macrófagos. A infecção de camundongos com as cepas silenciadas, em comparação com as WT, causou doença de menor gravidade, com carga fúngica reduzida e baixa taxa de mortalidade. Essas observações sugerem de que PCN funcione como um fator de virulência em P. brasiliensis, que afeta a patogênese da infecção. Neste trabalho, ampliamos as ferramentas moleculares de manipulação do fungo e viabilizamos a superexpressão de PCN em leveduras de P. brasiliensis, tendo como objetivos estudar seu papel na virulência e na patogênese da infecção, bem como determinar os mecanismos responsáveis por tais atividades. A inoculação de leveduras que superexpressam PCN (ov-PCN) em camundongos causou doença pulmonar muito grave, em comparação à doença leve e moderada causada por leveduras silenciadas em PCN e leveduras WT, respectivamente. Nesse sentido, nossos esforços se dedicaram à busca dos mecanismos dos mecanismos através dos quais PCN influencia o curso da infecção experimental. Na tentativa de identificar o papel exercido pelo domínio quitinase da PCN, coletamos o sobrenadante de culturas de leveduras ov-PCN e WT. Partículas de quitina presentes nesses sobrenadantes foram purificadas por afinidade à lectina WGA (wheat germ agglutinin). Através de medida da área das partículas capturadas, através de microscopia eletrônica e aplicação do programa ImageJ, verificamos que a superexpressão de PCN resultou em clivagem mais eficiente da quitina da parede de leveduras, uma vez que apenas partículas muito pequenas (mediana das medidas = 2 nm2) foram detectadas, enquanto as áreas das partículas de quitina obtidas de leveduras selvagens (WT) forneceram mediana 3 vezes maior (6 nm2). As partículas de quitina foram então utilizadas para estimular macrófagos a produzirem citocinas. As obtidas de ov-PCN estimularam preponderantemente a secreção da citocina antiinflamatória IL-10, enquanto os macrófagos estimulados com partículas de leveduras WT produziram mais TNF-? e IL-1?, ambas de efeito pró-inflamatório. Esses resultados permitiram a identificação de um mecanismo importante para que a superexpressão de PCN se associe à ocorrência de doença pulmonar muito grave: o microambiente anti-inflamatório criado pelo estímulo de macrófagos por PCN leva ao desenvolvimento de resposta imune não protetora do tipo Th2 e lesões mais graves. Um segundo mecanismo foi identificado ao compararmos a resistência de leveduras ov-PCN e WT às respostas efetoras de macrófagos. A superexpressão de PCN associou-se à maior internalização das leveduras e maior resistência à atividade fungicida exercida por macrófagos. O estudo demonstra que diferentes níveis da expressão de uma quitinase (como PCN) levam à resistência a atividades antifúngicas de macrófagos e a diferentes graus de clivagem de quitina. A clivagem, por sua vez, pode alterar a estrutura da parede celular fúngica e a geração de fragmentos de quitina, cujos tamanhos e concentrações influenciam a produção de citocinas pelos macrófagos. Sob a ação de citocinas pró- ou antiinflamatórias liberadas pelos macrófagos e, consequentemente, a montagem de respostas adaptativas pode ser decisiva para haver suscetibilidade ou resistência à infecção por P. brasiliensis. Este trabalho proporciona um importante avanço no conhecimento do papel de quitinases na resposta anti-fúngica do hospedeiro. / Species of the genus Paracoccidioides spp are thermodymorphic fungi that cause a systemic disease, which is endemic in several regions of the Latin America. The infected individual develops a specific response that, when associated with the high production of TNF-? and IFN- ?, favors resistance to the fungus. Components of some pathogenic fungi were characterized by gene knockdown techniques as important the for fungal virulence. Our group has identified a component of P. brasiliensis, named Paracoccin (PCN); it is a bifunctional protein with an enzymatic domain, endowed with chitinase activity and a lectin domain, which binds GlcNAc and chitin, a GlcNAc polymers. PCN has the following properties: (a) contributes to the fungus growth; (b) promotes the yeast adhesion to the extracellular matrix, by binding to laminina glycans; (c) interacts with TLR2 and TLR4 N-glycans, which triggers cell activation; (d) stimulates macrophages to produce proinflammatory mediators, such as IL-12, TNF-? and NO; (e) promotes the M1 polarization of macrophages; (f) induces the neutrophils fungicidal activity, NETs formation, and suppression of neutrophils apoptosis, which are depending events on the de novo protein synthesis by neutrophils. Given the relevant biological activities exerted by PCN, we have performed recently the silencing of the gene that codes for this protein through a system that uses RNA anti-sense and Agrobacterium tumefaciens mediated transformation (ATMT). Once having the PCN gene silenced, yeast lost the ability of doing the transition to mycelium and decreased its resistance to macrophages fungicidal activities. Mice infection with PCN-silenced yeasts, compared to the infected with WT yeasts, exhibited a milder pulmonary disease with reduced fungal burden and low mortality rate. These observations suggest that PCN acts as a P. brasiliensis virulence factor that affects the pathogenesis of the fungal infection. In the present study, we expanded the molecular tools for the fungus manipulation and enabled the overexpression of PCN in P. brasiliensis yeasts, aiming to elucidate the PCN role in the fungus virulence and the infection pathogenesis, as well as determining the responsible mechanisms for the PCN activities. Inoculation of the PCN overexpressing yeasts (ov-PCN) into mice caused a very severe lung disease, compared to the mild and moderate diseases caused by PCN-silenced and WT yeasts, respectively. Then our efforts became dedicated to the search of mechanisms through which PCN influences the course of the experimental fungal disease. In an attempt to identify the role of the PCN chitinase domain, we harvested the supernatant of the ov-PCN and WT yeasts cultures. Chitin particles contained in the supernatants have been captured by affinity to the immobilized WGA (wheat germ agglutinin) lectin. By measuring through electron microscopy and application of the ImageJ program the area of the isolated chitin particles, we verified that the overexpression of PCN resulted in a more efficient cleavage of whole chitin molecules contained in the yeast cell wall, since only very small particles (median of the measurements = 2 nm2) were detected, while the the chitin particles areas obtained from WT-yeasts provided a median 3 fold higher (6 nm2). Then, the preparations of chitin particles were taken to stimulate macrophages to produce cytokines. The particles obtained from ov-PCN have stimulated preponderantly the secretion of the anti-inflammatory cytokine IL-10, whereas the macrophages stimulated with WT yeast particles have produced higher concentrations of TNF-? and IL-1?, which are known proinflammatory cytokines. These results allowed the identification of an important mechanism for the association of PCN overexpression to the occurrence of very severe pulmonary disease: the anti-inflammatory microenvironment created by the macrophages stimulation with PCN leads to the development of a non-protective Th2-type immune response and the more severe pulmonary injury. A second mechanism was identified as implicated in the severity of the lung disease associated to PCN overexpression. We compared the sensitivity of ov-PCN and WT yeasts to macrophages effector functions. PCN overexpressing yeasts were better internalized by macrophages and more resistant to the fungicidal activity of these cells, events that contributes for the high pulmonary fungal load verified in mice infected with ov-PCN yeasts. The study demonstrates that different levels of a chitinase (PCN) expression and enzymatic activity lead yeasts to change their sensitivity to macrophages antifungal activities as well as to different grades of chitin cleavage. The cleavage, in its turn, leads to changes in the structure of the fungal cell wall and generation of chitin fragments, whose sizes and concentrations influence the cytokines production by macrophages. Under the influence of pro-inflammatory or anti-inflammatory cytokines released by macrophages, the mounted adaptative responses can be decisive in conferring susceptibility or resistance to the P. brasiliensis infection. This study provides an important advance in the knowledge on the role of a chitinase in the host antifungal response.
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