Ross River Virus Infection: Disease Mechanisms and Potential Treatment

Rulli, Nestor Ezequiel, na

January 2007

Ross River virus (RRV) is a mosquito-borne alphavirus and the aetiological agent of epidemic polyarthritis (EPA). Arthropod borne-Alphaviruses that are related to RRV, such as Chikungunya virus, Sindbis virus and Barmah Forest virus, are usually associated with epidemics of infectious arthritides in different parts of the world. In humans, RRV-induced disease symptoms include fever, rash, myalgia and pain and stiffness of the joints. Muscle and joint pain are the most debilitating symptoms in RRV patients and the best treatment available is non-steroidal anti-inflammatory drugs (NSAID). Previous studies in mice have demonstrated that RRV infection results in inflammation of skeletal muscle and joints and that macrophages play a primary role in disease. The present study was carried out to further elucidate the underlying mechanisms mediating RRV-induced muscle and joint pathology. Previous studies have reported that encephalitic alphaviruses trigger apoptosis of brain cells in mice and that blocking apoptosis reduces mortality rates. In the present study, the ability of RRV to induce muscle apoptosis was investigated in vitro, using a murine myoblast cell line (C1C12), and in vivo, using a mouse model of RRV disease. RRV-infected C1C12 myofibres displayed an array of morphological and biochemical makers of apoptosis. Apoptosis was also observed in the skeletal muscle of RRV-infected C57BL/6J mice. Blocking apoptosis by general caspase inhibition resulted in milder disease symptoms, reduced myofibre damage and decreased inflammation of muscle and joint tissues. The total number of cell infiltrates as well as the number of macrophages infiltrating muscle was significantly reduced by the treatment with a caspase inhibitor. The effects of RRV infection on the skeletal system were also investigated. Primary human osteoblast cells were infected with RRV and monitored for viral-induced cytopathic effect. Osteoblasts supported rapid virus growth and, by 48 hours after infection, succumbed to viral-induced necrosis. In addition, histological examination of bone tissue from RRV-infected C57BL/6J mice showed clear evidence of bone resorption. Tibias from infected mice showed an increased number of activated osteoclasts, a reduction in bone density and thinning of cortical bone. The expression of host factors involved in inflammatory responses and bone remodelling was studied in RRV-infected myofibres and osteoblast cell cultures and in the muscle and joint tissues from infected mice. RRV-infected muscle cells and tissue showed elevated mRNA levels for the chemokines CCL-2, CCL3, CCL5 and CXCL1, all of which are known to mediate the migration of monocytic cells. With the exception of CXCL1, these chemokines were also found to be up-regulated in RRV-infected osteoblast cultures and in joint tissues from infected mice. Muscle and joint tissue from infected mice also showed elevated mRNA levels for type I and type II interferons, TNF- and NOS2. In addition, joint tissues from infected animals contained high levels of IL-6 and IL-1, two cytokines known to mediate bone remodelling. Finally, the therapeutic potential of the drug bindarit was investigated using the mouse model of RRV disease. Bindarit is a known inhibitor of CCL-2 and TNF- and has been found to prevent protein denaturation. Treatment with bindarit resulted in mice developing milder disease symptoms, reduced muscle damage and decreased inflammation of muscle and joint tissues. In particular, bindarit significantly reduced macrophage infiltration into skeletal muscle tissue. This thesis has contributed to the understanding of RRV pathogenesis. It has identified novel mechanisms of RRV-induced muscle and bone pathology and provided further evidence that associate pro-inflammatory host factors to RRV disease. This work has also demonstrated that bindarit should be considered as a candidate for treating RRV disease in humans.

Ross River Virus

Infectious disease

mosquito

alphavirus

polyarthriris

Australia

Identification of bacteria associated with malaria mosquitoes - Their characterisation and potential use

Lindh, Jenny

January 2007

<p>The use of transformed bacteria to stop or kill disease-causing agents in the gut of vector insects is called paratransgenics. Two of the major steps in creating a paratransgenic <i>Anopheles</i> mosquito, unable to spread the<i> Plasmodium</i> parasites that cause malaria, are to find a bacterium suitable for the purpose and a way to introduce the transformed bacterium into mosquitoes in the field. In this project, bacteria associated with malaria mosquitoes have been identified by phylogenetic analysis of their 16S rRNA genes. First, the midgut flora of field-caught <i>Anopheles</i> mosquitoes was examined using two pathways, one culture dependent and one culture independent. Second, six bacterial species from an<i> An. gambiae </i>laboratory colony, and third, ten isolates from <i>Anopheles</i> oviposition sites have been identified. Altogether, 32 bacterial species, representing 16 families, seven classes and four phyla were identified. Interestingly, several of them are related to bacteria known to be symbionts in other insects. Two possible ways of introducing bacteria into mosquitoes in the field in a paratransgenic approach were investigated in a laboratory setting. It was shown that sugar solutions with or without bacteria are equally attractive to <i>An. gambiae</i> mosquitoes and that the mosquitoes were able to take up bacteria from the water they emerged from. These results show that it may be possible to use sugar-baits and oviposition sites for distribution of genetically modified bacteria in the field. To facilitate the distribution of the modified bacteria mosquito attractants should be used. We investigated whether the bacterial isolates identified in this project produce attractants affecting mosquito sugar-feeding or oviposition site selection. While no responses were observed from the mosquitoes towards bacteria-containing sugar solutions, seven of the 19 isolates examined mediated positive oviposition responses. In total, 13 putative oviposition attractants were identified among the volatiles emitted by the attractive bacteria.</p>

Malaria

mosquito

Anopheles

bacteria

paratransgenics

semiochemicals

Molecular biology

Molekylärbiologi

Identification of bacteria associated with malaria mosquitoes - Their characterisation and potential use

Lindh, Jenny

January 2007

The use of transformed bacteria to stop or kill disease-causing agents in the gut of vector insects is called paratransgenics. Two of the major steps in creating a paratransgenic Anopheles mosquito, unable to spread the Plasmodium parasites that cause malaria, are to find a bacterium suitable for the purpose and a way to introduce the transformed bacterium into mosquitoes in the field. In this project, bacteria associated with malaria mosquitoes have been identified by phylogenetic analysis of their 16S rRNA genes. First, the midgut flora of field-caught Anopheles mosquitoes was examined using two pathways, one culture dependent and one culture independent. Second, six bacterial species from an An. gambiae laboratory colony, and third, ten isolates from Anopheles oviposition sites have been identified. Altogether, 32 bacterial species, representing 16 families, seven classes and four phyla were identified. Interestingly, several of them are related to bacteria known to be symbionts in other insects. Two possible ways of introducing bacteria into mosquitoes in the field in a paratransgenic approach were investigated in a laboratory setting. It was shown that sugar solutions with or without bacteria are equally attractive to An. gambiae mosquitoes and that the mosquitoes were able to take up bacteria from the water they emerged from. These results show that it may be possible to use sugar-baits and oviposition sites for distribution of genetically modified bacteria in the field. To facilitate the distribution of the modified bacteria mosquito attractants should be used. We investigated whether the bacterial isolates identified in this project produce attractants affecting mosquito sugar-feeding or oviposition site selection. While no responses were observed from the mosquitoes towards bacteria-containing sugar solutions, seven of the 19 isolates examined mediated positive oviposition responses. In total, 13 putative oviposition attractants were identified among the volatiles emitted by the attractive bacteria.

Malaria

mosquito

Anopheles

bacteria

paratransgenics

semiochemicals

Molecular biology

Molekylärbiologi

Characterization of Unidentified Viruses from Florida

Dyer, Jessie L.

12 July 2010

Public Health and clinical laboratories occasionally obtain viral isolates that cannot be typed by routine methods. Therefore, the sequence-independent, single primer amplification (SISPA) technique was adapted to rapidly identify and characterize viral isolates of unknown etiology. A panel of known (West Nile virus and St. Louis encephalitis virus) and unknown viral isolates (environmental samples collected in Florida) were used to develop and refine the SISPA technique. Selectivity for viral genomic sequences was obtained through enriching viral particles by centrifugation, removal of cellular debris by filtration and removal of host genomic material by benzonase application. The SISPA method successfully amplified the panel of known viruses and a previously unknown environmental viral isolate. The previously unknown environmental viral isolate was determined to be closely related, if not identical, to Flanders virus, a member of Rhabdoviradae. A Flanders virus specific RT-PCR assay identified a total of five previously unknown environmental viral isolates as Flanders virus. Unidentified viral isolates were obtained during arbovirus surveillance efforts in Florida, either from the Florida Department of Health program (BOL-Tampa) during 2005 – 2009, or collected during an ongoing project at the University of South Florida studying the ecology of arthropod-borne encephalitis viruses at sites located in Florida. In a concurrent study, SISPA was successfully used to characterize an unidentifiable virus isolate related to members of the Bunyaviradae family which was designated as Infirmatus virus. Natural mosquito population (10,557 mosquitoes) collected in Florida was screened for Flanders virus and members of Bunyaviradae to determine infection prevalence. Although Flanders virus was not detected in this population, Infirmatus virus was identified in 14 mosquito pools with the highest infection prevalence in Cx. quinquefasciatus mosquitoes. The SISPA technique was successful for the genetic identification of unknown viral isolates and application of this method to samples with suspected or unidentified viral etiologies may be used to enhance public health surveillance of emerging or re-emerging viruses in Florida.

Arbovirus

SISPA

Flanders virus

mosquito surveillance

American Studies

Arts and Humanities

Molecular identification of mosquito species : Evaluation of a rapid DNA extraction method together with DNA barcoding as a tool for identification of species

Helmersson, Erik

January 2013

The current method to determine a mosquito specimen to a certain species is by morphological keys basically following the taxonomy developed by Carl Linnaeus in the 1700. Since Watson and Crick presented their model of the double-helix DNA in 1953, a new era of molecular based taxonomic studies have revolutionized the field. The revolution is not in terms of how the classification of species is done but how the biological diversity is seen. However, morphological, ecological and behavioral characteristics are still important and are used together with the information a gene or whole genome can give. DNA barcoding is one of the promising methods for molecular identification. A small segment of a gene, approximately 400-1000 base pairs (bp), are examined by a Polymerase chain reaction (PCR) and sequencing. Like the barcodes in the grocery store these sequences work like unique ID: s for every species. This thesis shows how a fast DNA extraction method could be combined with DNA barcoding to get a 658-bp segment of the mitochondrial gene cytochrome c oxidase subunit 1 (COI) from different species of the mosquito family Culicidae. A total of 15 thoraxes or wings, from individual specimen of mosquitoes, were examined and 11 different barcode sequences could be retrieved. Six correspond to already published COI sequences and could therefore be determined to the species level, including a sequence from a new species for Sweden, Aedes (Ochlerotatus) nigrinus. All mosquitoes were collected during the national inventory of species in summer of 2012 in Sweden, ”Myggjakten”, and have been morphological examined by experts at the National Veterinary Institute (SVA) prior to molecular determination. This thesis also highlights the importance of building a reference library of barcode sequences, so DNA barcoding could become an effective diagnostic tool. Inventory projects like “Myggjakten” may, if repeated, provide excellent material for such a library collection of barcode data. / När en stickmyggsart skall artbestämmas är den vanligaste metoden att använda morfologiska nycklar. I princip görs det här efter den taxonomi som Carl von Linne utvecklade på 1700-talet. Men sedan Watson och Crick presenterade sin DNA modell 1953 så har dock en ny era av molykylärt baserade metoder revolutionerat taxonomin. Förändringen består egentligen inte i hur vi klassificerar och använder taxonomin utan mer hur vi ser på den biologiska mångfalden. Morfologiska och ekologiska studier, samt studier av arters beteende, är fortfarande viktiga och komplementerar den molekylära informationen från ett genom eller från en enstaka gen. DNA barcoding är en av de lovande nya molekylära metoderna för artbestämning. Ett litet segment av en gen, på ungefär 400-1000 baspar (bp), undersöks med hjälp av polymeras-kedjereaktion (PCR) och sekvensering. Likt streckkoder i livsmedelsbutiken ger metoden ett unikt ID för varje art. Den här studien visar hur en snabb DNA-extraktionsmetod kan kombineras med DNA barcoding, för att ge en 658-bp lång DNA-sekvens, från den mitokondriella genen cytokrom c oxidas subunit 1 (COI) från olika arter av myggfamiljen Culicidae. I undersökningen ingick 15 mellankroppar eller vingar från individuella stickmyggor och av dessa kunde 11 olika barcode sekvenser utläsas. Sex av dessa stämde överrens med redan publicerade COI-sekvenser och kunde bestämmas till artnivå, varav en av sekvenserna kommer från den nyligen i Sverige funna morfologiskt artbestämda Aedes (Ochlerotatus) nigrinus. Stickmyggorna i detta arbete insamlades av privatpersoner på olika ställen i Sverige under sommaren 2012 i det nationella mygginsamlingsprojektet ”Myggjakten”. Dessa artbestämdes morfologiskt av personal på Statens veterinärmedicinska anstalt (SVA) innan de artbestämdes molekylärt. Det här arbetet belyser även vikten av att bygga upp ett referensbibliotek av barcode sekvenser för att DNA-barcoding ska kunna bli ett effektivt diagnostiskt verktyg vid studier av vektorburna zoonoser. Nationella projekt som Myggjakten kan vara mycket användbara för insamling av sådana data.

Mosquito

DNA barcoding

PCR

sequencing

DNA

sequence

barcode

COI

The Population Genetic Structure of the Malaria Mosquito Anopheles melas Throughout Its West-African Range

Deitz, Kevin

2011 December 1900

Anopheles melas is a brackish water mosquito found along the coast of West-Africa where it can be the dominant malaria vector locally. In order to facilitate genetic studies of this species and to examine the usefulness of microsatellite markers when used in a sibling species, 45 microsatellite loci originally developed for Anopheles gambiae were sequenced in An. melas. These loci were evaluated on their suitability as polymorphic markers based on repeat structure, length, and polymorphism in wild An. melas populations. Of the 45 loci, 18 were not considered promising markers in An. melas. A total of 48 out of 90 An. gambiae primers contained at least one mismatch with the An. melas annealing site. An. melas-specific primers were designed for 27 loci, and their variability was examined in two wild populations from Equatorial Guinea. Based on a low level of polymorphism, Hardy-Weinberg disequilibrium, or poor amplification, a further 12 loci were excluded. The remaining fifteen loci were screened in four additional wild populations from a wider geographic region including Equatorial Guinea, Cameroon, The Gambia, and Guinea Bissau. These loci showed an average heterozygosity ranging from 0.18 to 0.79, with 2.5 to 15 average alleles per locus, yielding 13 highly polymorphic markers and two loci with more limited variability in a wide geographic region. To examine the effects of cross species amplification, five of the original An. gambiae markers were also amplified in the An. melas populations. Null alleles were found for one of these An. gambiae markers. We discuss the pitfalls of using microsatellite loci even in a very closely related species, and conclude that in addition to the well-known problem of null alleles associated with this practice, many loci may prove to be of very limited use as polymorphic markers even when used in a sibling species. Fifteen An. melas-specific markers were subsequently amplified and analyzed in 11 wild An. melas populations from throughout the range of this species, including Bioko Island, Equatorial Guinea. We analyzed pair-wise population differentiation between all populations, and found that all but two comparisons were significant (p-val.<0.05), and populations clustered into three distinct groups representing Bioko Island, Central Africa, and West Africa populations. A Bayesian clustering analysis found little, if any, evidence for migration from mainland to Bioko Island populations, although there was evidence of migration from Bioko Island to the West population cluster, and from the Central to the West population cluster. Simulations of historical gene followed these same patterns and further support our predictions of unidirectional gene flow. Comparison of 1161 nucleotides amplified and sequenced from the ND4 and ND5 regions of the mtDNA showed that differentiation between An. melas population clusters is on par with levels of differentiation between member species of the An. gambiae complex, with low support for internal nodes in a maximum likelihood tree, which suggests that observed An. melas clusters are not monophyletic. From this we hypothesize that Bioko Island An. melas populations are derived from Tiko, Cameroon, and that these populations became isolated from one another when sea levels rose after the last glaciation period (?10,000-11,000 years ago), cutting off Bioko Island populations from the mainland and significantly reducing migration. Our conclusions have implications for vector control within the region, as Bioko Island is the subject of an intensive malaria control campaign, and the lack of migration from mainland West Africa to Bioko Island make it unlikely that eradicated populations of this malaria vector will be repopulated by mainland immigrants.

Anopheles gambiae complex

malaria mosquito

population genetics

gene flow

Factors Influencing Evolution to Antimalarial Drug Resistance in Plasmodium falciparum in Sudan and The Gambia

Kheir, Amany

January 2011

Drug resistance is a major obstacle to management and control of malaria and currently progressing at a rapid rate across Africa. This thesis has examined factors influencing evolution of resistant P. falciparum at two sites in Africa, including parasite migration, cross mating and fitness cost of resistance. In Asar village, eastern Sudan, the frequencies of drug sensitive and resistant parasites were monitored throughout the dry season in the absence of anti-malarial drug usage to examine whether persistence of resistant parasites is reduced in the absence of drug pressure. Two cohorts of P. falciparum infected patients were treated with chloroquine in the transmission season (Oct-Dec), and followed monthly in the dry season into the next transmission season. A large proportion of the cohort maintained sub-patent asymptomatic P. falciparum infections throughout the entire study period. Alleles of the chloroquine resistance transporter (Pfcrt) and multi-drug resistance protein (Pfmdr1) were examined. Mutant alleles of Pfcrt reached fixation following CQ treatment and remained high in the transmission season. However, at the start of the dry season, wild type alleles of both genes started to emerge and increased significantly in frequency as the season progressed. The mutant Pfcrt haplotype was invariably CVIET, indicating migration of CQ resistant parasites into an area; otherwise the CVMNK haplotype is normal. In addition, microsatellite haplotypes of dihydrofolate reductase (dhfr) gene and dihydropteroate synthase (dhps) genes, which control the parasite response to pyrimethamine and sulfadoxine respectively, were characterized. One major dhfr haplotype with double dhfr mutations and two major mutant dhps haplotypes were seen in eastern Sudan. These haplotypes are distinct from those prevailing in other African countries, suggesting the likely local origin of dhfr and dhps haplotypes conferring drug resistance. Transmission capacities of different P. falciparum clones within a single infection in The Gambia have a high ability to produce gametocytes and infect Anopheles mosquitoes even when they exist at levels not detectable by microscopy and PCR. These findings emphasize the crucial role of gametocyte complexity and infectivity in generating the remarkable diversity of P. falciparum genotypes seen in infected people. Parasites with different resistant dihydrofolate reductase (dhfr) haplotypes have the ability to infect Anopheles mosquitoes following drug treatment, and cross-mating between parasites with different dhfr haplotypes was detected. Our results showed that the major dhfr haplotype in the Gambia is similar to the common one seen in other African countries, suggesting that parasite migration plays a major role in spread of resistance. Indeed, the dominant resistant haplotype seen in infected patients was readily transmitted to infect mosquitoes.

cross-mating

fitness

microsatellite haplotypes

mosquito infectivity

Infectious diseases

Infektionssjukdomar

IMMUNE EVASION AND DISEASE MECHANISMS IN ROSS RIVER VIRUS INFECTION

Zaid, Ali, n/a

January 2008

Ross River virus (RRV) is an Alphavirus distributed throughout Australia. It is transmitted by mosquitoes and is known to cause moderate to severe disease symptoms in humans. Along with other alphaviruses such as Sindbis virus and Chikungunya virus, RRV is known to cause arthritic symptoms, characterised by muscle and joint inflammation. Several investigations have established the role of macrophage cells and pro-inflammatory host factors in the development of RRV-induced disease. In this study, we attempted to determine differences between RRV passaged in mammalian and mosquito cells. There is strong evidence that arthropod-borne viruses are able to display enhanced infectivity when passaged into arthropod cell line. We showed that mosquito cell-derived RRV (mos-RRV) was able to replicate to higher titres than mammalian cell-derived RRV. We also showed that mos-RRV failed to induce Type I IFN-associated antiviral responses. The second aim of this study was to investigate the role of TNF-ᬠa pro-inflammatory cytokine implicated in arthritic diseases, in the development of RRV disease. We treated RRV-infected C57BL/6J mice with a commercially available TNF-ᠩnhibitor drug and monitored disease signs. We found that the TNF-ᠩnhibitor does not ameliorate RRV disease (RRVD) symptoms, and that it does not prevent muscle and joint inflammation. We analysed histological sections of muscle and joint tissue of Enbrel-treated and untreated, RRV-infected cells. We also determined and compared host cytokine expression profiles. Finally, we sought to determine the requirement for natural killer (NK) cells in RRV disease. NK cells have been detected in the synovium of RRV-infected patients since early studies, but their role in disease pathogenesis remains unclear. Using a NK-dysfunctional mouse (C57BL/6J-Lystbg), we showed that mice lacking a functional NK system are more susceptible to RRV disease than wildtype, C57BL/6J mice. We monitored disease symptoms following RRV infection and assessed muscle and joint inflammation in Lystbg and C57BL/6J mice. This thesis examines mechanisms of viral infection and immune evasion employed by RRV, as well as into the role of host cells and cytokines in RRVD pathogenesis disease mechanisms. We showed that a functional NK cell system is required for the regulation of RRV-induced muscle and joint inflammation. Our characterisation of the use of a commercial TNF-ᠩnhibitor in RRV-induced disease in mice may provide information on the role of TNF-ᠩn viral arthritis, and may help towards developing safe and effective treatment.

Australia

mosquito borne disease

RRV

tropical viral diseases

Behavioral interactions between predator and prey and their influence on an invasive species in container habitats

Kesavaraju, Banugopan. Juliano, Steven A.

January 2007

Thesis (Ph. D.)--Illinois State University, 2007. / Title from title page screen, viewed on February 11, 2008. Dissertation Committee: Steven A. Juliano (chair), Diane L. Byers, L. Philip Lounibos, Charles F. Thompson, William L. Perry. Includes bibliographical references (leaves 152-163) and abstract. Also available in print.

Salt marsh bird community responses to open marsh water management

Pepper, Margaret A.

January 2008

Thesis (M.S.)--University of Delaware, 2008. / Principal faculty advisor: W. G. Shriver, Dept. of Entomology & Wildlife Ecology. Includes bibliographical references.