The secret in their MHC : variation and selection in a free living population of great tits

Sepil, Irem

January 2012

Understanding the genetic basis of fitness differences has been a major goal for evolutionary biologists over the last two decades. Although there are many studies investigating how natural selection can promote local adaptation, few have succeeded to find the link between genotype and fitness of the phenotype. Polymorphic genes of the major histocompatibility complex (Mhc) are excellent candidates for such associations as they are a central component of the vertebrate immune system, playing an important role in parasite resistance, and hence can have direct effects on survival of their bearers. Although associations between Mhc and disease resistance are frequently documented, the epidemiological basis of the host-parasite interaction is often lacking and few studies have investigated the role that Mhc genes play in individual variation in fitness; thus comparatively little is known about the fitness consequences of Mhc in wild populations. Furthermore, the majority of work to date has involved testing associations between Mhc genotypes and disease. However, the mechanism by which any direct selection on the Mhc acts, depends on how genotypes map to the functional properties of Mhc molecules. The aim of this thesis was to characterize Mhc alleles in terms of their predicted functional properties and to investigate whether and how selection operates on Mhc class I functional variation using the great tit (Parus major) population at Wytham Woods as a model host species. Through a comprehensive characterization effort and the use of 454 pyrosequencing platform, I performed a detailed analysis of genetic variation at Mhc class I exon 3 and grouped alleles with similar antigen-binding affinities into supertypes to classify functionally distinct Mhc types. There was extreme complexity at the Mhc class I of the great tit both in terms of allelic diversity and gene number. A total of 862 alleles were detected from 857 individuals; the highest number yet characterized in a wild bird species. The functional alleles were clustered into 17 supertypes; there was clear evidence that functional alleles were under strong balancing selection. To understand the role of Mhc in disease resistance, I examined the linkage between Mhc supertypes, Plasmodium infection and great tit survival, and showed that certain functional variants of Mhc confer resistance to two divergent Plasmodium parasite species that are common in the environment. I further investigated the fitness consequences of functional variation at Mhc, using mark-recapture methods and long-term breeding data; and tested the hypotheses that selection: (i) maximizes Mhc diversity; (ii) optimizes Mhc diversity, or (iii) favours specific functional variants. I found that the presence of three different supertypes was associated with three different components of individual fitness: adult survival, annual recruitment probabilities and lifetime reproductive success. In contrast, there was no evidence for a selective advantage of Mhc functional diversity, either in terms of maximal or optimal supertype diversity. Finally, I explored the role that Mhc plays in female mate choice decisions and examined the reproductive fitness consequences of Mhc-dependent mating patterns. There was little evidence to suggest that functional dissimilarity at Mhc has any influence on female mate choice decisions or that dissimilarity at Mhc affects the reproductive output of the social pair. Overall, this thesis provides strong support for the suggestion that selection favours specific functional variants of Mhc, possibly as a result of supertype-specific resistance or susceptibility to parasites that exert strong selective pressures on their hosts; whereas there is no support for selection favouring maximal or optimal Mhc diversity. More importantly it demonstrates that functional variants of Mhc class I loci are an important determinant of individual fitness in natural populations.

598.824

Interaction entre la bactérie endosymbiotique Wolbachia et le parasite responsable de la malaria aviaire, Plasmodium relictum, chez le moustique Culex pipiens / Interaction between the endosymbiotic bacteria Wolbachia and the avian malaria parasite, Plasmodium relictum, in Culex pipiens mosquitoes

Zélé, Flore

20 December 2012

Les interactions hôtes-parasites sont classiquement vues comme un équilibre dynamique entre seulement deux partenaires ; cependant, ce paradigme a progressivement changé ces dernières années avec la découverte de nombreux hôtes naturellement co-infectés par de multiples parasites. L'étude des co-infections s'avère particulièrement pertinente lorsque l'hôte est un vecteur de maladies, dans la mesure où les infections multiples peuvent avoir d'importantes conséquences sur la transmission d'un parasite, à la fois à des échelles écologiques et évolutives. Wolbachia pipientis est la bactérie endosymbiotique la plus commune chez les insectes, et de fait, suscite un intérêt particulier pour comprendre le rôle des co-infections sur l'issue des infections parasitaires. Afin de déterminer si l'infection naturelle par Wolbachia affecte la capacité des moustiques à transmettre la malaria, nous avons étudié une triade qui partage une histoire évolutive commune : le parasite de la malaria aviaire P. relictum SGS1, son vecteur naturel Cx. pipiens, et un ensemble de souches wPip de Wolbachia naturellement présentes chez ce moustique. Nous nous sommes tout d'abord intéressé à l'impact de différents types de wPip sur la prévalence et la diversité des parasites responsables de la malaria aviaires dans les populations naturelles de Cx. pipiens de la région de Montpellier. Puis, par l'utilisation de différentes lignées isogéniques de moustiques, infectés ou non par Wolbachia, nous avons étudiés l'impact de la présence du symbiote sur différents traits d'histoire de vie du moustique essentiels pour la transmission de Plasmodium. Nous montrons ainsi que Wolbachia profite à Cx. pipiens, mais également à Plasmodium: elle améliore plusieurs traits d'histoire de vie des moustiques, tels que leur longévité et leur fécondité, leur tolérance à l'infection par P. relictum, et facilite l'infection par ce parasite à la fois qualitativement et quantitativement (i.e. elle augmente à la fois la prévalence et l'intensité de l'infection). Bien que les mécanismes impliqués dans cette interaction tripartite restent encore inconnus, ces résultats suggèrent que Wolbachia peut avoir d'importantes implications sur la transmission de la malaria dans la nature. De plus, ces résultats suggèrent la nécessité de réévaluer l'utilisation de Wolbachia comme moyen de lutte contre les pathogènes et soulignent la nécessité de mieux comprendre les interactions multipartites. / In recent years, there has been a shift in the one host one parasite paradigm with the realization that, in the field, most hosts are co-infected with multiple parasites. Coinfections are particularly relevant when the host is a vector of diseases, because multiple infections can have drastic consequences for parasite transmission at both the ecological and evolutionary time scales. Wolbachia pipientis is the most common parasitic microorganism in insects and as such it is of special interest for understanding the role of coinfections in the outcome of parasite infections. This thesis investigates whether a natural Wolbachia infection can alter the quality of mosquitoes as vectors of malaria. To address this issue, we used a Wolbachia-mosquito-Plasmodium triad with a common evolutionary history. Our experimental system consists in the avian malaria parasite P. relictum SGS1 and its natural vector, the mosquito Cx. pipiens, which naturally harbours several wPip Wolbachia strains. First, we investigated the impact of different wPip groups on the prevalence and diversity on avian malaria in natural populations of Cx. pipiens mosquitoes in the Montpellier region. Second, using different isogenic laboratory mosquito strains harboring or not Wolbachia, we investigated the impact of the presence of Wolbachia on several mosquito and Plasmodium life history traits relevant for malaria transmission. We show that Wolbachia benefits both Cx. pipiens and Plasmodium: it enhances several mosquito life history traits, such as longevity and fecundity, increases their tolerance to P. relictum (i.e. compensates for a Plasmodium-induced mortality) and facilitates P. relictum infection both qualitatively (increases infection prevalence) and quantitatively (increases infection intensity). Although the mechanisms involved in the mosquito-Wolbachia-Plasmodium interaction remain elusive, these results suggest that Wolbachia may have important implications on the transmission of malaria in nature. This is consistent with the high prevalence and diversity of avian malaria parasites found in natural populations of Cx. pipiens. Further, these results suggest the need to reassess the use of Wolbachia as a way to fight pathogens and highlight the need to better understand parasite multipartite interactions.

Wolbachia

Malaria aviaire

Moustique

Interaction

Transmission

Adaptation

Wolbachia

Avian malaria

Mosquitoes

Interaction

Transmission

Adaptation

Morphometric evaluation of hepatic hemosiderosis and necrosis in Magellanic penguins (Spheniscus magellanicus) naturally infected by Plasmodium spp. / Avaliação morfométrica da hemossiderose e necrose hepática em pinguins-de-Magalhães (Spheniscus magellanicus) naturalmente infectados por Plasmodium spp.

Ewbank, Ana Carolina

30 June 2016

While foraging on the Brazilian continental shelf during winter migration, sick and/or debilitated Magellanic Penguins (Spheniscus magellanicus) found ashore are directed to rehabilitation centers along the coast. While under care, these birds may develop avian malaria, a mosquito-transmitted disease caused by protozoans of the genus Plasmodium. Hepatic hemosiderosis and necrosis have been previously described in avian malaria. We used morphometric techniques to evaluate hemosiderosis and necrosis in Perls- and reticulin-stained liver samples from 24 Magellanic penguins naturally infected by Plasmodium spp. and nine Plasmodium-negative Magellanic penguins (Plasmodium-negative group). All birds were kept under similar housing and husbandry regimens. Plasmodium lineages had been identified through blood smear morphology and/or phylogenetic analysis of the mitochondrial cyt-b gene. Our goal was to evaluate the significance of hepatic hemosiderosis and necrosis in Magellanic penguins infected with Plasmodium sp. and between Plasmodium lineages/species. Histological sections were analyzed under a microscope equipped with a digital system for image analysis. A high power-field of the center of each sample was captured, and eight additional images were captured 50 &micro;m from this point, at 45&deg;intervals, under the same lighting conditions. Areas of hemosiderin and reticulin fibers were semi-automatically outlined, under a maximum zoom of 50%. The percentage of the area occupied by hemosiderin and reticular fibers were respectively considered the index of hepatic hemosiderosis (IHH) and index of hepatic necrosis (IHN). IHN was significantly higher in the Plasmodium-negative group in comparison with the positive group (p<0.001), however, no difference was detected between the IHH of both groups. Significant differences were not detected between IHH and INH regarding institution, age, sex, oil contamination, and Plasmodium lineages/species (p>0.05). There were also no correlation between IHH and IHN regarding the total period of stay in the rehabilitation center or period of stay in the rehabilitation center during summer (period of highest mosquito/vector density) (p>0.05). Hepatic hemosiderosis was possibly related to other causes, such as seasonal physiological changes, anthropogenic disturbance and climatic changes leading to starvation, and husbandry and iron supplementation while under care. Hepatic necrosis was significant between both groups, suggesting a possible relationship between this pathology and Plasmodium spp. (e.g., hypoxia due to mechanic obstruction of the hepatic vasculature, parasitic vasculitis leading to hepatic necrosis, or presence of gastrointestinal nematodes) or the presence of hepatic autolysis, leading to histopathologic changes similar to hepatic necrosis whaen evaluated with reticulin staining. Avian malaria is one of the most important diseases of captive penguins, and may seriously compromise the rehabilitation of Magellanic penguins. Further studies are still needed to clarify the mechanisms of these hypotheses / Durante sua migração invernal, pinguins-de-Magalhães permanecem na plataforma continental brasileira. Neste este período, animal debilitados e/ou doentes são encaminhados a centros de reabilitação ao longo da costa do Brasil. Durante a estadia nesses centros, essas aves podem desenvolver malária aviária, doença causada por protozoários do gênero Plasmodium e transmitida por mosquitos vetores. Hemossiderose e necrose hepáticas já foram descritas em casos de malária aviária. Nesse estudo foram utilizadas técnicas morfométricas para avaliar a hemossiderose e necrose em lâminas de cortes histológicos de fígado de pinguins-de-Magalhães naturalmente infectados por Plasmodium spp. e nove pinguins-de-Magalhães comprovadamente negativos para Plasmodium spp. (grupo Plasmodium-negative), utilizando as colorações de Perls e reticulina. Todos os animais utilizados nesse estudo foram mantidos sob as mesmas condições de manejo. Linhagens de Plasmodium spp. haviam sido previamente identificadas por esfregaço sanguíneo e/ou análise filogenética do gene cyt-b mitocondrial.O objetivo desse estudo foi avaliar a significância dos quadros de hemossiderose e necrose em pinguins-de-Magalhães infectados por Plasmodium spp. e entre as linhagens/espécies de Plasmodium spp. Fragmentos histológicos foram analisados sob microscópio equipado com um sistema digital de análise de imagens. Foi realizada captura fotográfica do centro de cada fragmento hepático, seguido por 8 capturas adicionais a 50 &micro;m do centro da lâmina, a intervalos de 45&deg;, sob as mesmas condições de luminosidade. Áreas de hemossiderose e necrose foram semi-automaticamente delineadas, sob zoom máximo de 50%. A porcentagem das áreas ocupadas pela hemossiderina e fibras reticulares foram consideradas, respectivamente, como Índice de Hemossiderose Hepática (IHH) e Índice de Necrose Hepática (IHN). O IHN do grupo Plasmodium-negative foi significativamente maior que o IHN do grupo positivo (p>0.001). Entretanto, não foi observada diferença entre o IHH dos dois grupos. Diferenças significativas também não foram observadas no IHH e IHN em relação a instituição, idade, sexo, contaminação por óleo, ou linhagem/espécie de Plasmodium (p>0,05). Não foram observadas correlações significativas entre o IHH e o IHN quanto ao período total de estadia em centro de reabilitação ou período de estadia em centro de reabilitação durante o verão (período de maior densidade do mosquito/vetor) (p>0.05). Hemossiderose hepática possivelmente foi causada por outros fatores, tais como alterações fisiológicas sazonais, ações antropogênicas e alterações climáticas levando a anorexia/caquexia e técnicas de manejo e suplementação durante a reabilitação. Necrose hepática foi significativa entre ambos os grupos, o que pode ter ocorrido devido a uma possível relação entre esta patologia e Plasmodium spp. (por ex: hipóxia causada por obstrução mecânica da vascularização hepática, vasculite parasitária ou presença de nematódeos gastrointestinais) ou à presença de autólise hepática, levando a quadro histológico semelhante à necrose quando avaliada sob coloração de reticulina. A malária aviária é uma das mais importantes afecções de cativeiro em pinguins, podendo comprometer seriamente a reabilitação de pinguins-de-Magalhães. Estudos futuros são necessários para esclarecer os mecanismos dessas hipóteses.

Avian malaria

Ferro

Fígado

Hemosiderin

Hemossiderina

Iron

Liver

Malária aviária

Reabilitação

Rehabilitation

Genomic Context, Sequence Evolution, and Evolutionary Ecology of Major Histocompatibility Complex (MHC) Genes in the Red-billed Gull (Larus scopulinus)

Cloutier, Alison J.

26 March 2012

Genomic organization of the major histocompatibility complex (MHC) can profoundly influence gene function and multigene family evolution. Situated at the interface of individual genetic variation and the adaptive immune response, MHC class I and II loci are intensively studied for disease associations and used as markers of adaptive genetic variation in evolutionary ecology research. Genomic sequence of MHC-containing cosmid clones from the red-billed gull (Larus scopulinus, Charadriiformes: shorebirds, gulls, and allies) was obtained for comparative analysis of avian MHC evolution. MHCI polymorphism was further investigated using cDNA library screening and locus-specific genotyping protocols. This first information regarding MHC organization and MHCI variation in charadriiforms suggests a complex evolutionary history to MHC architecture in birds. Duplication of MHCIIα loci in tandem MHCIIα/β pairs and their proximity to MHC-region gene COL11A2 are similar to arrangements in nonavian vertebrates, and contrast with the “minimal essential” MHC of the chicken (Gallus gallus, Galliformes: gamebirds). MHCI–TAP2 organization is shared with Galloanserae (gamebirds + waterfowl), as is a proposed major classical function for this MHCI gene. In contrast, the placement of MHCI genes adjacent to sequence from chromosomes 3, 5, and 22 of the chicken and zebra finch (Taeniopygia guttata, Passeriformes: perching birds) indicates interchromosomal rearrangements in birds and the possible genomic dispersal of nonclassical MHCI genes in the red-billed gull. Screening for avian malaria, genetic parentage tests, and field data from red-billed gulls at Kaikoura Peninsula, New Zealand were combined with MHCI genotypes to investigate relationships with disease and reproduction. Plasmodium infection was confirmed in red-billed gulls, and breeding condition was negatively associated with malarial infection and positively related to variation at the putative major MHCI locus. A low rate of extrapair paternity was identified across thirteen breeding seasons. Partners without extrapair young (EPY) had greater MHCI dissimilarity than was expected by chance, whereas lower individual MHCI variation and elevated hatching failure existed for pairs with EPY. In addition to contributing to studies of MHC evolution, sexual selection, and disease dynamics in the New Zealand avifauna, this research will facilitate studies of MHC genes in related charadriiforms, many of which are of conservation concern.

molecular evolution

major histocompatibility complex

red-billed gull

Larus scopulinus

extrapair copulations

avian malaria

0306

Genomic Context, Sequence Evolution, and Evolutionary Ecology of Major Histocompatibility Complex (MHC) Genes in the Red-billed Gull (Larus scopulinus)

Cloutier, Alison J.

26 March 2012

Genomic organization of the major histocompatibility complex (MHC) can profoundly influence gene function and multigene family evolution. Situated at the interface of individual genetic variation and the adaptive immune response, MHC class I and II loci are intensively studied for disease associations and used as markers of adaptive genetic variation in evolutionary ecology research. Genomic sequence of MHC-containing cosmid clones from the red-billed gull (Larus scopulinus, Charadriiformes: shorebirds, gulls, and allies) was obtained for comparative analysis of avian MHC evolution. MHCI polymorphism was further investigated using cDNA library screening and locus-specific genotyping protocols. This first information regarding MHC organization and MHCI variation in charadriiforms suggests a complex evolutionary history to MHC architecture in birds. Duplication of MHCIIα loci in tandem MHCIIα/β pairs and their proximity to MHC-region gene COL11A2 are similar to arrangements in nonavian vertebrates, and contrast with the “minimal essential” MHC of the chicken (Gallus gallus, Galliformes: gamebirds). MHCI–TAP2 organization is shared with Galloanserae (gamebirds + waterfowl), as is a proposed major classical function for this MHCI gene. In contrast, the placement of MHCI genes adjacent to sequence from chromosomes 3, 5, and 22 of the chicken and zebra finch (Taeniopygia guttata, Passeriformes: perching birds) indicates interchromosomal rearrangements in birds and the possible genomic dispersal of nonclassical MHCI genes in the red-billed gull. Screening for avian malaria, genetic parentage tests, and field data from red-billed gulls at Kaikoura Peninsula, New Zealand were combined with MHCI genotypes to investigate relationships with disease and reproduction. Plasmodium infection was confirmed in red-billed gulls, and breeding condition was negatively associated with malarial infection and positively related to variation at the putative major MHCI locus. A low rate of extrapair paternity was identified across thirteen breeding seasons. Partners without extrapair young (EPY) had greater MHCI dissimilarity than was expected by chance, whereas lower individual MHCI variation and elevated hatching failure existed for pairs with EPY. In addition to contributing to studies of MHC evolution, sexual selection, and disease dynamics in the New Zealand avifauna, this research will facilitate studies of MHC genes in related charadriiforms, many of which are of conservation concern.

molecular evolution

major histocompatibility complex

red-billed gull

Larus scopulinus

extrapair copulations

avian malaria

0306

Paukščių maliarinių parazitų (plasmodium, haemosporida) eksperimentiniai tyrimai: tradicinių ir molekulinių duomenų saitai / Experimental investigation of avian malaria parasites (plasmodium, haemosporida): linkage of traditional and molecular data

Palinauskas, Vaidas

28 December 2009

Paukščių maliariniai parazitai sukelia pavojingas naminių ir laukinių paukščių ligas. Šie parazitai dažnai sutinkami įvairiose paukščių grupėse ir yra plačiai paplitę Europoje, tame tarpe ir Baltijos regione. Dabartinių maliarinių parazitų studijų ypatumas yra tas, kad informacija apie šių parazitų ekologiją, paplitimą, įvairovę ir kitus biologijos aspektus yra surenkama iš laisvai gyvenančių paukščių. Vertinant maliarinių parazitų įtaką paukščių fizinei būklei, elgsenai, lytinei atrankai ir parazitų-šeimininkų ko-evoliucijai yra būtina surinkti informaciją apie maliarinių parazitų specifiškumą, virulentiškumą ir parazitemijos vystymąsi skirtinguose paukščiuose. Tokie duomenys gali būti gaunami atliekant eksperimentinius tyrimus. Deja, tokių studijų kol kas yra nedaug. Disertacijos tikslas – lauko ir eksperimentinių tyrimų pagalba surinkti naują medžiagą apie paukščių maliarinių parazitų biologiją bei susieti PGR paremtais metodais gautą informaciją su tradicinės parazitologijos duomenimis. Šių tyrimų metu įrodyta, kad PGR paremtų ir tradicinės parazitologijos (mikroskopijos) metodų, naudojamų tiriant paukščių maliarinius parazitus ir kitas hemosporidijas, tikslumas nesiskiria. Abu metodai turi savų privalumų ir trūkumų, todėl rekomenduojame naudoti mikroskopijos ir PGR paremtų metodų kombinaciją. Taip pat išvystytas Plasmodium relictum (linija SGS1) ir P. circumflexum (TURDUS1) molekulinis identifikavimas, bei sukurti nauji paukščių maliarinių ir susijusių kraujo parazitų... [toliau žr. visą tekstą] / Avian malaria parasites are responsible for severe diseases in some domestic and wild birds. These parasites are cosmopolitan in distribution; they are widespread in Europe, including the Baltic region. A peculiarity of current studies of avian Plasmodium species is that information about ecology, distribution, prevalence and other aspects of their biology has been accumulated using free-living birds. To elucidate the significance of malaria infections and their impact on host fitness, behaviour, sexual selection and parasite-host co-evolution, experimental information about Plasmodium spp. virulence, specificity and dynamics of parasitemia in different avian hosts is crucial. Unfortunately such studies remain uncommon. The objective of this study was to obtain new field and laboratory experimental data about the biology of avian malaria parasites and to link PCR-based information with data from traditional parasitology. It was demonstrated that prevalence of avian malaria and other haemosporidian parasites is estimated equally well by microscopy and currently used nested PCR-based methods. Both methods have advantages and disadvantages. So we encourage using both these tools in parallel during studies of haemosporidians. Lineages for molecular identification of P. relictum (lineage SGS1) and P. circumflexum (TURDUS1) were determined, also new methods of single cell dissection, DNA extraction and PCR-based analysis of avian malaria and closely related blood parasites were... [to full text]

Zoology

Plasmodium

Paukščių maliarija

Eksperimentiniai krėtimai

PGR

Mikroskopija

Plasmodium

Avian malaria

Experimental infection

PCR

Microscopy

Experimental investigation of avian malaria parasites (Plasmodium, Haemosporida): linkage of traditional and molecular data / Paukščių maliarinių parazitų (Plasmodium, Haemosporida) eksperimentiniai tyrimai: tradicinių ir molekulinių duomenų saitai

Palinauskas, Vaidas

28 December 2009

Avian malaria parasites are responsible for severe diseases in some domestic and wild birds. These parasites are cosmopolitan in distribution; they are widespread in Europe, including the Baltic region. A peculiarity of current studies of avian Plasmodium species is that information about ecology, distribution, prevalence and other aspects of their biology has been accumulated using free-living birds. To elucidate the significance of malaria infections and their impact on host fitness, behaviour, sexual selection and parasite-host co-evolution, experimental information about Plasmodium spp. virulence, specificity and dynamics of parasitemia in different avian hosts is crucial. Unfortunately such studies remain uncommon. Theobjective of this study was to obtain new field and laboratory experimental data about the biology of avian malaria parasites and to link PCR-based information with data from traditional parasitology. It was demonstrated that prevalence of avian malaria and other haemosporidian parasites is estimated equally well by microscopy and currently used nested PCR-based methods. Both methods have advantages and disadvantages. So we encourage using both these tools in parallel during studies of haemosporidians. Lineages for molecular identification of P. relictum (lineage SGS1) and P. circumflexum (TURDUS1) were determined, also new methods of single cell dissection, DNA extraction and PCR-based analysis of avian malaria and closely related blood parasites were... [to full text] / Paukščių maliariniai parazitai sukelia pavojingas naminių ir laukinių paukščių ligas. Šie parazitai dažnai sutinkami įvairiose paukščių grupėse ir yra plačiai paplitę Europoje, tame tarpe ir Baltijos regione. Dabartinių maliarinių parazitų studijų ypatumas yra tas, kad informacija apie šių parazitų ekologiją, paplitimą, įvairovę ir kitus biologijos aspektus yra surenkama iš laisvai gyvenančių paukščių. Vertinant maliarinių parazitų įtaką paukščių fizinei būklei, elgsenai, lytinei atrankai ir parazitų-šeimininkų ko-evoliucijai yra būtina surinkti informaciją apie maliarinių parazitų specifiškumą, virulentiškumą ir parazitemijos vystymąsi skirtinguose paukščiuose. Tokie duomenys gali būti gaunami atliekant eksperimentinius tyrimus. Deja, tokių studijų kol kas yra nedaug. Disertacijos tikslas – lauko ir eksperimentinių tyrimų pagalba surinkti naują medžiagą apie paukščių maliarinių parazitų biologiją bei susieti PGR paremtais metodais gautą informaciją su tradicinės parazitologijos duomenimis. Šių tyrimų metu įrodyta, kad PGR paremtų ir tradicinės parazitologijos (mikroskopijos) metodų, naudojamų tiriant paukščių maliarinius parazitus ir kitas hemosporidijas, tikslumas nesiskiria. Abu metodai turi savų privalumų ir trūkumų, todėl rekomenduojame naudoti mikroskopijos ir PGR paremtų metodų kombinaciją. Taip pat išvystytas Plasmodium relictum (linija SGS1) ir P. circumflexum (TURDUS1) molekulinis identifikavimas, bei sukurti nauji paukščių maliarinių ir susijusių kraujo parazitų... [toliau žr. visą tekstą]

Zoology

Plasmodium

Avian malaria

Experimental infection

PCR

Microscopy

Plasmodium

Paukščių maliarija

Eksperimentinė infekcija

PGR

Mikroskopija

Aspectos biológicos da inoculação experimental e atividade malaricida da 4-(6-mercaptopurina)-7-cloroquinolina em Gallus gallus Linnaeus, 1758 experimentalmente infectados por Plasmodium (Novyella) juxtanucleare Versiani & Gomes, 1941 (Apicomplexa, Plasmodiidae)

Vashist, Usha

23 February 2007

Submitted by Renata Lopes (renatasil82@gmail.com) on 2016-10-21T10:51:58Z No. of bitstreams: 1 ushavashist.pdf: 630186 bytes, checksum: 745a558bec12dae7850947a507e2f344 (MD5) / Approved for entry into archive by Adriana Oliveira (adriana.oliveira@ufjf.edu.br) on 2016-10-25T12:31:34Z (GMT) No. of bitstreams: 1 ushavashist.pdf: 630186 bytes, checksum: 745a558bec12dae7850947a507e2f344 (MD5) / Made available in DSpace on 2016-10-25T12:31:34Z (GMT). No. of bitstreams: 1 ushavashist.pdf: 630186 bytes, checksum: 745a558bec12dae7850947a507e2f344 (MD5) Previous issue date: 2007-02-23 / Plasmodium juxtanucleare é o agente causador da malária aviária que ocorre em alguns estados do Brasil. Esta malária está relacionada a diversos sinais clínicos e pode causar danos em criações rústicas de aves. O modelo aviário já foi utilizado para a investigação de drogas no combate à malária e hoje em dia o modelo mais utilizado é o Plasmodium berghei em roedores. A busca por anti-maláricos e malaricidas é de extrema relevância. O objetivo deste trabalho foi verificar o efeito da 4-(6-MERCAPTOPURINA)-7-CLOROQUINOLINA, uma substância recém sintetizada a partir da cloroquina, sobre a malária aviária em Gallus gallus e aprimorar o modelo aviário para testes de potenciais malaricidas. Para o encontro de uma ave doadora, foram visitadas no município de Juiz de Fora duas granjas e feitos esfregaços sangüíneos de 30 aves. A prevalência foi de 100%. Dentre as 30 aves examinadas, as seis com os maiores valores de parasitemia foram adquiridas e levadas para o laboratório. Para verificar qual o melhor dia para a retirada de sangue de aves infectadas e imunossuprimidas pelo acetato de metilprednisolona, cinco das seis aves receberam em dose única este imunossupressor e uma serviu como controle. A parasitemia das aves foi acompanhada por 26 dias após o dia da imunossupressão, por meio de esfregaços sangüíneos preparados a cada dois dias. Também foram aferidos o peso e temperatura corporal e feitos microhematócritos sangüíneos. Verificou-se que ao 10º dia pós-imunossupressão ocorreu pico de parasitemia. Houve queda de peso corporal e correlação com a parasitemia. Ocorreu pouca variação na temperatura corporal e hematócrito e não houve correlação destes com a parasitemia. Em outras oito aves adquiridas em casa comercial com 15 dias de idade, foram realizadas infecções experimentais com sangue inoculado via intramuscular e via intraperitonial nas doses de 0,3mL e 0,5mL para as duas vias. Durante um mês as aves tiveram o valor médio de parasitos acompanhado para comparar qual a via mais efetiva e se havia diferença entre as doses testadas no estabelecimento da infecção. Não foi observada diferença entre as xv dosagens, mas foi possível verificar que a infecção via intraperitonial atinge mais rapidamente o pico de parasitemia, com médias de parasitos mais altas, entretanto ao fim do experimento o número total de parasitos quase não diferiu entre as doses e vias. Para testar o efeito malaricida da 4-(6-MERCAPTOPURINA)-7-CLOROQUINOLINA, uma droga derivada da cloroquina, recém sintetizada, foram infectados 45 pintos, Leghorn branco, via intramuscular. As aves foram separadas em quatro grupos experimentais com 15 aves por grupo (Grupo1- não infectado, Grupo 2- infectado e sem tratamento, Grupo 3- infectado e tratado com a cloroquina e grupo 4- infectado e tratado com o derivado da cloroquina). A droga foi administrada via gavagem por 4 dias consecutivos na dose de 100mg/Kg de peso vivo. Para a avaliação do efeito malaricida da droga, as aves tiveram o número médio de parasitos encontrados acompanhados por esfregaços sangüíneos feitos a cada dois dias após o décimo dia da inoculação. Também foram aferidos o peso e temperatura corporal a cada dois dias e hematócrito a cada quatro dias. O derivado da cloroquina teve atividade malaricida, mantendo a parasitemia mais baixa em relação ao grupo controle não tratado e ao grupo controle tratado com a cloroquina. Entretanto em todos os grupos a parasitemia se manteve baixa. Sugere-se a investigação da ação malaricida desta droga em modelos com P. berghei ou culturas com P. falciparum. / Plasmodium juxtanucleare is the agent of the avian malaria that occurs in some states of Brazil. This malaria is related to several clinical signs and it can cause damages in the poultry section. The aviary model was already used for the investigation of drugs in the combat to the malaria and nowadays the model more used is the Plasmodium berghei in rodents. The search for anti-malarial drugs is of extreme importance. The aim of this study was to accomplish experimental infections of Plasmodium juxtanucleare in Gallus gallus and to test a substance recently synthesized, the 4-(9H-purin-6-ylthio)-7-cloroquinoline, derived of the cloroquine, to verify their effects on the avian malaria and to improve the aviary model for these types of tests. For a bird donor's encounter, two chicken farms were visited in the Juiz de Fora city and blood smears made in 30 hens. The prevalence was 100%. Among the 30 examined hens, six with the largest parasitemia values had been acquired and taken to the laboratory. To verify which the best day to retreat the blood to infected hens, five of the six hens received only dose of the imunossupressor substance (metilprednisolon acetate) and one served as control. The parasitaemia of the hens was accompanied by 26 days after the day of the imunossupression, through blood smears prepared each two days. The weight and corporal temperature were checked and made blood hematocrits. It was verified that to the 10th day powder-imunossupression it happened parasitaemia pick. There were fall of body weight and correlation with the parasitaemia. There was a little variation in the body temperature and hematocrite and there was not correlation of these with the parasitaemia. In other eight acquired hens in commercial house with 15 days old, experimental infections were accomplished with blood inoculated through intramuscle and intraperitoneally in the 0,3mL and 0,5mL for the two routes. During one month the hens had the value of parasites accompanied to compare which the most effective route and difference among the doses tested in the establishment of the infection. Significant difference was not observed among the xvii doses but it was possible to verify that the infection through intraperitonial reaches the parasitemia pick more quickly, with higher averages of parasites, however to the end of the experiment the total number of parasites differed hardly between the doses and routes. To test the effect a derived drug of the cloroquine, 45 chicks were infected, white Leghorn, through intramuscle route . The hens were separate in four experimental groups, 15 chicks for group (Group1 - no infected, Group 2 - infected and without treatment, Group 3 - infected and treated with the cloroquine and Group 4 - infected and treated with derived of the cloroquine) The drug was administered four consecutive days in the 100mg/Kg of alive weight dose. For the evaluation of the antimalarial effect of the drug, the hens had the number of parasites accompanied by blood smears done each two days after the tenth day of the inoculation. Also the weight and corporal temperature were checked each two days and hematocrit four days. Derived of the cloroquine had antimalarial activity, reducing the number of parasites and maintaining the lowest parasitaemia in relation to the group not treated and to the group treated with cloroquine.

Malaricida

Cloroquina

Malária aviária

Antimalarial

Cloroquine

Avian malaria

Ecologie évolutive des interactions Hôte / Moustique / Plasmodium : sources d’hétérogénéité de l’infection des vecteurs / Evolutionary ecology of the host / mosquito / Plasmodium interaction : sources of heterogeneity of vectors' infection

Pigeault, Romain

17 December 2015

Les moustiques jouent un rôle essentiel dans la dynamique de transmission du paludisme. Plusieurs traits d’histoire de vie de ces insectes hématophages vont, en effet, intervenir dans le calcul du taux reproductif de base du parasite. Parmi eux, la probabilité et l’intensité d’infection des vecteurs, suite à la prise d’un repas de sang infectieux, sont des facteurs primordiaux pour la transmission de Plasmodium. Pourtant, au sein d'une même population, une réelle hétérogénéité d’infection des moustiques a été observée: alors que certain ne sont pas infectés, que d'autres le sont faiblement, une partie des vecteurs vont présenter des taux d'infection extrêmement forts. Identifier les sources de variations responsables de cette hétérogénéité est indispensable pour comprendre la dynamique de transmission de Plasmodium. Certains paramètres d’origine génétique et environnementale, tel que la température et la nutrition, ont déjà clairement été identifiés comme ayant un impact sur le taux d’infection des moustiques. Néanmoins, de nombreux facteurs restent encore à explorer. En utilisant un système expérimental composé du parasite de la malaria aviaire Plasmodium relictum, de son vecteur naturel le moustique Culex pipiens et de l’un de ses hôtes vertébrés Serinus canaria, nous nous sommes intéressés aux effets de certains de ces paramètres, peu pris en compte jusqu’à présent, sur l’infection des moustiques. Nous avons notamment pu mettre en évidence des conséquences importante de l’infection parentale, de l’âge des vecteurs, ainsi que de leur fond génétique. Parallèlement, nous nous sommes intéressés à un facteur souvent laissé de côté, l’effet « hôte vertébré » sur l’infection des moustiques. Dans cette dernière partie, on a pu observer que la dynamique d’infection du parasite au sein de l’hôte influence de manière importante le taux de transmission de Plasmodium. Les sources d’hétérogénéité d’infections des moustiques sont donc multiples et l’ensemble des membres de cette association tripartite hôte/parasite/vecteur vont pouvoir influencer de manière importante la dynamique de transmission du parasite. / Mosquitoes play a key role in the dynamics of malaria transmission. Indeed, several life history traits of these bloodsucking insects are closely associated with the basic reproductive rate of the malaria parasite. One of the most important parameters for the transmission of Plasmodium is the rate and intensity of the mosquito infection. However, within a single population, a great heterogeneity of mosquito infection levels is often observed: some mosquitoes are not infected, others are only weakly infected, and yet others have extremely high infection rates. Identifying the sources of variation responsible for this heterogeneity is essential in order to understand the transmission dynamics of Plasmodium. Certain genetic and environmental (temperature, nutrition) parameters have already been identified as having an impact on mosquito infection rates. Nevertheless, many factors remain to be explored. Using an experimental system composed of the avian malaria parasite Plasmodium relictum, its natural vector Culex pipiens and one of its vertebrate host Serinus canaria, we have investigated the effect of several seldom investigated parameters on the infection of mosquitoes. We observed surprising effects of the effect of parental infection, mosquito age and genetic background. In parallel, we also studied a rarely investigated parameter: the impact of the vertebrate host on the mosquito infection rate. We showed that parasite infection dynamics within the host, at short but also long time scales, significantly influence the transmission of Plasmodium to the vector. The sources of heterogeneity of mosquito infection are therefore multiple and all members of this tripartite partnership (i.e. host / parasite / vector) are able to significantly influence the transmission dynamics of the parasite.

Malaria aviaire

Moustique

Rythmicité

Âge

Effet maternel

Héritabilité

Avian malaria

Mosquito

Rhythm

Age

Maternal effect

Heritability

Genetic Characterization of Avian Malaria Parasites Across the Breeding Range of the Migratory Lark Sparrow (Chondestes grammacus)

Swanson, Bethany L.

19 December 2012

No description available.

Biology

avian malaria

genetic structure

Haemoproteus

Plasmodium

wildlife disease

lark sparrow