No measurable adverse effects of Lassa, Morogoro and Gairo arenaviruses on their rodent reservoir host in natural conditions

Marien, Joachim, Borremans, Benny, Gryseels, Sophie, Soropogui, Barre, De Bruyn, Luc, Bongo, Gedeon Ngiala, Becker-Ziaja, Beate, de Bellocq, Joelle Gouy, Guenther, Stephan, Magassouba, N'Faly, Leirs, Herwig, Fichet-Calvet, Elisabeth

27 April 2017

Background: In order to optimize net transmission success, parasites are hypothesized to evolve towards causing minimal damage to their reservoir host while obtaining high shedding rates. For many parasite species however this paradigm has not been tested, and conflicting results have been found regarding the effect of arenaviruses on their rodent host species. The rodent Mastomys natalensis is the natural reservoir host of several arenaviruses, including Lassa virus that is known to cause Lassa haemorrhagic fever in humans. Here, we examined the effect of three arenaviruses (Gairo, Morogoro and Lassa virus) on four parameters of wild-caught Mastomys natalensis: body mass, head-body length, sexual maturity and fertility. After correcting for the effect of age, we compared these parameters between arenavirus-positive (arenavirus RNA or antibody) and negative animals using data from different field studies in Guinea (Lassa virus) and Tanzania (Morogoro and Gairo viruses). Results: Although the sample sizes of our studies (1297, 749 and 259 animals respectively) were large enough to statistically detect small differences in body conditions, we did not observe any adverse effects of these viruses on Mastomys natalensis. We did find that sexual maturity was significantly positively related with Lassa virus antibody presence until a certain age, and with Gairo virus antibody presence in general. Gairo virus antibody-positive animals were also significantly heavier and larger than antibody-free animals. Conclusion: Together, these results suggest that the pathogenicity of arenaviruses is not severe in M. natalensis, which is likely to be an adaptation of these viruses to optimize transmission success. They also suggest that sexual behaviour might increase the probability of M. natalensis to become infected with arenaviruses.

Arenavirus

Lassa virus

Morogoro virus

Gairo virus

Mastomys natalensis

Rodent-borne disease

Host-pathogen interaction

Reservoir host

Evaluation of Strategies to Improve In Vitro Mutagenicity Assessment: Alternative Sources of S9 Exogenous Metabolic Activation and the Development of an In Vitro Assay Based on MutaMouse Primary Hepatocytes

Cox, Julie

25 June 2019

In vitro genetic toxicity tests using cultured bacterial or mammalian cells provide a cost- and time-effective alternative to animal tests. Unfortunately, existing in vitro assays are not always reliable. This is in part due to the limited metabolic capacity of the cells used, which is often critical to accurately assess chemical genotoxicity. This limited metabolic capacity necessitates the use of exogenous sources of mammalian metabolic enzymes that can simulate in vivo mammalian metabolic activation reactions. In response to this, and other limitations, alongside the worldwide trend to reduce animal testing, there is an acute need to consider various strategies to improve in vitro mutagenicity assessment. This thesis first examined the utility of exogenous metabolic activation systems based on human hepatic S9, relative to conventional induced rat liver S9, for routine genetic toxicity assessment. This was accomplished by critically evaluating existing literature, as well as new experimental data. The results revealed the limitations of human liver S9 for assessment of chemical mutagenicity. More specifically, the analyses concluded that, due to the increased risk of false negative results, human liver S9 should not be used as a replacement for induced rat liver S9. To address the limitations of conventional mammalian cell genetic toxicity assays that require exogenous hepatic S9, the thesis next evaluated the utility of an in vitro mutagenicity assay based on metabolically-competent primary hepatocytes (PHs) derived from the transgenic MutaMouse. Cultured MutaMouse PHs were thoroughly characterized, and found to temporarily retain the phenotypic attributes of hepatocytes in vivo; they express hepatocyte-specific proteins, exhibit the karyotype of typical hepatocytes, and maintain metabolic activity for at least the first 24 hours after isolation. Preliminary validation of the in vitro MutaMouse PH gene mutation assay, using a panel of thirteen mutagenic and non-mutagenic chemicals, demonstrated excellent sensitivity and specificity. Moreover, inclusion of substances requiring a diverse array of metabolic activation pathways revealed comprehensive metabolic competence. Finally, the thesis further investigated the applicability domain of the in vitro MutaMouse PH assay by challenging the assay with selected azo compounds. Comparison of these results with those obtained using the in vivo MutaMouse TGR (transgenic rodent) assay revealed that MutaMouse PHs can carry out some forms of reductive metabolism. Overall, this thesis demonstrated that a gene mutation assay based on MutaMouse PHs holds great promise for routine assessments of chemical mutagenicity.

Human hepatic metabolism

Ames

Micronucleus

Genetic toxicology

Transgenic rodent

Liver

Primary culture

Metabolic enzymes

Regulatory toxicology

Chemical mutagens

Células progenitoras CD34+ durante a ampliação esplênica na malária experimental de roedores. / CD34+ progenitor cells during spleen amplification in experimental rodent malaria.

Hermida, Felipe Pessoa de Melo

24 September 2007

A malária é uma infecção causada por plasmódios, cujo controle depende do baço, o responsável pelo clareamento dos eritrócitos parasitos. O aumento da parasitemia induz uma ampliação do baço para resolver a infecção, onde participam células precursoras que apresentam CCD34+ na sua superfície. Estudamos a distribuição e a quantidade de células CD34+ em baços de roedores durante malárias de roedores, para compreender sua participação na ampliação do baço e no controle da infecção. Camundongos C57Bl/6j infectados com as cepas AJ e CR de Plasmodium chabaudi, e com a cepa ANKA de Plasmodium berghei, tiveram seus baços removidos e encaminhados para histologia e citometria de fluxo. A distribuição das células CD34+ mostrou-se mais intensa no 4º dia p.i. e menos intensa no 8º dia p.i.. As células CD34+ livres, por citometria de fluxo, surgem com uma onda no 4º dia p.i.. Sua quantidade é similar entre os modelos de P. chabaudi, mas diferente no P. berghei. Neste trabalho, o influxo de células CD34+ no baço não se relaciona com o controle da infecção. / Malaria is caused by Plasmodium sp., which control depends on the spleen, responsible for parasite clearing. The increase of parasitemia implies in spleen amplification to control the infection, with participation of CD34+ cells. We studied the distribution and amount of CD34+ cells in spleen during rodent malaria, to define the role of those cells in spleen amplification and infection control. C57Bl/6j mice were infected with strains CR and AJ of Plasmodium chabaudi, and ANKA strain of Plasmodium berghei. The spleen was removed and processed for histology and flow cytometry. Spleen CD34+ cells was increased in 4th day, p.i., and decreases in 8th day p.i. in all models. By flow cytometry, free CD34+ cells appears as a wave in the 4th day p.i.. P. chabaudi models presented the same level of those cells, which was larger in the P. berghei mice. In this work, increase of spleen CD34+ cells do not correlate with infection control.

Baço

CD34+

CD34+

Células tronco

Hematopoiese

Hematopoiesis

Hematopoietic progenitor

Malária de roedores

Progenitoras hematopoiéticas

Rodent malaria

Spleen

Stem cell

Morfologia dos órgãos genitais masculinos de pacas (Agouti paca Linnaeus, 1766) / Morphology of the masculine genital organs of paca (Agouti paca Linnaeus, 1766)

Borges, Edson Moreira

31 March 2004

Estudou-se a posição e morfologia dos órgãos genitais masculinos de dez pacas-machos adultas; cinco espécimes fixados em solução aquosa de formol a 10% foram estudados macroscopicamente; de cinco espécimes foram coletados fragmentos dessas estruturas, que após procedimento usual para a inclusão em paraplast e historesina, foram analisados microscopicamente. Externamente identificou-se o escroto na época da migração dos testículos que apresentavam parênquima estruturado em túbulos seminíferos em cuja membrana basal repousava o epitélio germinativo; estes órgãos também podiam estar na cavidade abdominal ou no trajeto inguinal. O pênis fibroelástico localizava-se na região púbica, em direção caudal, sua glande, revestida por epitélio queratinizado, era recoberta pelo prepúcio, abaixo deste verificou-se uma estrutura delgada cartilagínea com bordas serreadas; um par de espículas ósseas estavam em um saco ventral à uretra, cuja mucosa era revestida por epitélio de transição. O ducto epididimário, revestido por epitélio pseudo-estratificado e cúbico simples, apresentava-se enovelado na cabeça, continuava-se em corpo e cauda, da qual se originava o ducto deferente, revestido por epitélio estratificado colunar. As glândulas genitais acessórias pares: vesiculares, prostáticas, coaguladoras e bulbo uretrais, estruturavam-se como glândulas mucosas desembocando na uretra pélvica. / The position and morphology of the male genitals of ten adult male pacas were studied; five especimens were fixed in aqueous solution of 10% formol and studied microscopically. From five especimens were collected fragments of these structures that after this usual proceeding to the inclusion in paraplaster and historesin they were analysed microscopically. Externally, we could identify the scrotum in the age of migration of testicle that presented structured parenchyma in seminiferous tubules which the basal menbrane reposed the germinative epithelium; these organs could be in the abdominal cavity or in the inguinal course. The fibroelastic male organ is located in the pubic region, in direction to tail, its gland, covered by keratinous epithelium was recovered by prepuce, under this we can find one thin cartilaginous structure with serried boards; one pair of osseous espícules were in the ventral sack until urethra which mucous was covered by epithelium of transition. The epidermal duct was covered by a pseudo- stratified epithelium and cubic simple, and it was coiled in the head, it was kept the body and the tail which one the referent duct originated, covered by pseudo- stratified epithelium columnar. The genital glandulas accessories: Vesicular, prostate, coagulative and urethral bulb, estructured like mucous glandulas emerging to pelvic urethra.

Agouti paca

Animal male genital organs

Morfologia (anatomia)

Morphology (anatomy)

Órgãos genitais do macho animal

Pacas

Rodent

Roedores

Rodent Density and Species Composition in the Snake River Birds of Prey Natural Area, Idaho

Montan, Jon R., Jr.

01 May 1977

Rodent densities were estimated in the major vegetation types of the Snake River Birds of Prey Natural Area in 1975 and 1976 by a combination of live-trapping and kill-trapping. Only deer mice (Peromyscus maniculatus) were numerous enough to permit reliable density estimates. Relative densities of other rodent species were indicated by kill-trap capture rates. Densities of deer mice correlated well (r = 0.99) with kill-trap capture rates. The use of kill -trapping in place of live-trapping in 1976 permitted extensive sampling throughout the 1930 km2 study area. Differences were found among the major vegetation and land-use types in their ability to support the rodent species representing potential prey for feeding raptors.

rodent density

species composition

Snake River

birds of prey

Idaho

Animal Sciences

Ecology and Evolutionary Biology

Environmental Sciences

Plant Sciences

The Biological and Behavioural Effects of Electroconvulsive Stimulus in Rodents: Investigation and Translational Implications of a Genetic Animal Model of Depression

Kyeremanteng, Catherine

15 February 2012

Electroconvulsive therapy (ECT) is one of the oldest and most effective treatments for depression; however, its biological underpinnings are poorly understood. Brain-derived neurotrophic factor (BDNF) and the hypothalamic-pituitary-adrenal (HPA) axis are two chemical messenger systems implicated in the antidepressant action and cognitive side effects of ECT. The Wistar-Kyoto (WKY) strain is a genetic model of depression that shows biological, cognitive, behavioural, and treatment-response abnormalities, making it potentially a useful model in which to investigate the underpinnings of the action of electroconvulsive stimulus (ECS: the amimal model of ECT). In addition, the WKY presents a potentially useful model for translational research on depression. The WKY strain is particularly valuable for the measurement of serum BDNF protein, for which the association with antidepressant treatments is much less clear (mostly stemming from investigations in humans) than that between brain BDNF and antidepressant treatments in rodent studies. The three studies presented add insight into the biological and behavioural effects of ECS. The first study (chapter 2) found no evidence of increased (R)-[11C]rolipram binding (an indirect marker of cyclic-adenosine monophosphate, cAMP) in the brain, despite significant increases of brain BDNF protein expression after repeated ECS. The second study (chapter 3) demonstrated the validity of the WKY strain in the investigation of ECS. Relative to Wistar controls, WKY showed similar antidepressant and cognitive effects (despite some abnormal behavioural responses), immediate but not sustained increases in brain BDNF protein, and a novel finding of increased extra-hypothalamic CRF after 5 daily ECS. The final study (chapter 4) demonstrated baseline strain differences in serum (WKY < Wistar) but not brain BDNF and, in both strains, no change in serum BDNF despite significant changes in brain BDNF after repeated ECS treatment. Preliminary results from a human pilot study investigating similar measures in a small group of people receiving ECT for depression are also presented. The results of this body of work advance our understanding of the activation and role of brain and serum measures of BDNF and the HPA axis in ECS/ECT, and raise important issues in the translation of research from basic science to the human condition of depression.

Depression

Rodent models

Electroconvulsive Therapy

Electroconvulsive Stimulation

Brain-Derived Neurotrophic Factor

Corticotropin Releasing Factor

Wistar Kyoto

Memory

The Biological and Behavioural Effects of Electroconvulsive Stimulus in Rodents: Investigation and Translational Implications of a Genetic Animal Model of Depression

Kyeremanteng, Catherine

15 February 2012

Electroconvulsive therapy (ECT) is one of the oldest and most effective treatments for depression; however, its biological underpinnings are poorly understood. Brain-derived neurotrophic factor (BDNF) and the hypothalamic-pituitary-adrenal (HPA) axis are two chemical messenger systems implicated in the antidepressant action and cognitive side effects of ECT. The Wistar-Kyoto (WKY) strain is a genetic model of depression that shows biological, cognitive, behavioural, and treatment-response abnormalities, making it potentially a useful model in which to investigate the underpinnings of the action of electroconvulsive stimulus (ECS: the amimal model of ECT). In addition, the WKY presents a potentially useful model for translational research on depression. The WKY strain is particularly valuable for the measurement of serum BDNF protein, for which the association with antidepressant treatments is much less clear (mostly stemming from investigations in humans) than that between brain BDNF and antidepressant treatments in rodent studies. The three studies presented add insight into the biological and behavioural effects of ECS. The first study (chapter 2) found no evidence of increased (R)-[11C]rolipram binding (an indirect marker of cyclic-adenosine monophosphate, cAMP) in the brain, despite significant increases of brain BDNF protein expression after repeated ECS. The second study (chapter 3) demonstrated the validity of the WKY strain in the investigation of ECS. Relative to Wistar controls, WKY showed similar antidepressant and cognitive effects (despite some abnormal behavioural responses), immediate but not sustained increases in brain BDNF protein, and a novel finding of increased extra-hypothalamic CRF after 5 daily ECS. The final study (chapter 4) demonstrated baseline strain differences in serum (WKY < Wistar) but not brain BDNF and, in both strains, no change in serum BDNF despite significant changes in brain BDNF after repeated ECS treatment. Preliminary results from a human pilot study investigating similar measures in a small group of people receiving ECT for depression are also presented. The results of this body of work advance our understanding of the activation and role of brain and serum measures of BDNF and the HPA axis in ECS/ECT, and raise important issues in the translation of research from basic science to the human condition of depression.

Depression

Rodent models

Electroconvulsive Therapy

Electroconvulsive Stimulation

Brain-Derived Neurotrophic Factor

Corticotropin Releasing Factor

Wistar Kyoto

Memory

High Resolution X-ray Microscopy Using Digital Subtraction Angiography for Small Animal Functional Imaging

Lin, Ming De

04 August 2008

<p>Research using mice and rats has gained interest because they are robust test beds for clinical drug development and are used to elucidate disease etiologies. Blood vessel visualization and blood flow measurements are important anatomic and physiologic indicators to drug/disease stimuli or genetic modification. Cardio-pulmonary blood flow is an important indicator of heart and lung performance. Small animal functional imaging provides a way to measure physiologic changes minimally-invasively while the animal is alive, thereby allowing for multiple measurements in the same animal with little physiologic perturbation. Current methods of measuring cardio-pulmonary blood flow suffer from some or all of these limitations-they produce relative measurements, are limited to global or whole animal or organ regions, do not provide vasculature visualization, limited to a few or singular samples per animal, are not able to measure acute changes, or are very invasive or requires animal sacrifice. The focus of this work was the development of a small animal x-ray imaging system capable of minimally invasive real-time, high resolution vascular visualization, and cardio-pulmonary blood flow measurements in the live animal. The x-ray technique used was digital subtraction angiography (DSA). This technique is a particularly appealing approach because it is easy to use, can capture rapid physiological changes on a heart beat-to-beat basis, and provides anatomical and functional vasculature information. This DSA system is special because it was designed and implemented from the ground up to be optimized for small animal imaging and functional measurements. This system can perform: 1) minimally invasive in vivo blood flow measurements, 2) multiple measurements in the same animal in a rapid succession (every 30 seconds-a substantial improvement over singular measurements that require minutes to acquire by the Fick method), 3) very high resolution (up to 46 micron) vascular visualization, 4) quantitative blood flow measurements in absolute metrics (mL/min instead of arbitrary units or velocity) and relative blood volume dynamics from discrete ROIs, and 5) relative mean transit time dynamics on a pixel-by-pixel basis (100 µm x 100 µm). The end results are 1) anatomical vessel time course images showing the contrast agent flowing through the vasculature, 2) blood flow information of the live rat cardio-pulmonary system in absolute units and relative blood volume information at discrete ROIs of enhanced blood vessels, and 3) colormaps of relative transit time dynamics. This small animal optimized imaging system can be a useful tool in future studies to measure drug or disease modulated blood flow dynamics in the small animal.</p> / Dissertation

Engineering, Biomedical

Physics, Radiation

Biology, Physiology

X-ray Imaging

Digital Subtraction Angiography

Rodent

Blood Flow

Cardio-pulmonary

Imaging

The Biological and Behavioural Effects of Electroconvulsive Stimulus in Rodents: Investigation and Translational Implications of a Genetic Animal Model of Depression

Kyeremanteng, Catherine

15 February 2012

Electroconvulsive therapy (ECT) is one of the oldest and most effective treatments for depression; however, its biological underpinnings are poorly understood. Brain-derived neurotrophic factor (BDNF) and the hypothalamic-pituitary-adrenal (HPA) axis are two chemical messenger systems implicated in the antidepressant action and cognitive side effects of ECT. The Wistar-Kyoto (WKY) strain is a genetic model of depression that shows biological, cognitive, behavioural, and treatment-response abnormalities, making it potentially a useful model in which to investigate the underpinnings of the action of electroconvulsive stimulus (ECS: the amimal model of ECT). In addition, the WKY presents a potentially useful model for translational research on depression. The WKY strain is particularly valuable for the measurement of serum BDNF protein, for which the association with antidepressant treatments is much less clear (mostly stemming from investigations in humans) than that between brain BDNF and antidepressant treatments in rodent studies. The three studies presented add insight into the biological and behavioural effects of ECS. The first study (chapter 2) found no evidence of increased (R)-[11C]rolipram binding (an indirect marker of cyclic-adenosine monophosphate, cAMP) in the brain, despite significant increases of brain BDNF protein expression after repeated ECS. The second study (chapter 3) demonstrated the validity of the WKY strain in the investigation of ECS. Relative to Wistar controls, WKY showed similar antidepressant and cognitive effects (despite some abnormal behavioural responses), immediate but not sustained increases in brain BDNF protein, and a novel finding of increased extra-hypothalamic CRF after 5 daily ECS. The final study (chapter 4) demonstrated baseline strain differences in serum (WKY < Wistar) but not brain BDNF and, in both strains, no change in serum BDNF despite significant changes in brain BDNF after repeated ECS treatment. Preliminary results from a human pilot study investigating similar measures in a small group of people receiving ECT for depression are also presented. The results of this body of work advance our understanding of the activation and role of brain and serum measures of BDNF and the HPA axis in ECS/ECT, and raise important issues in the translation of research from basic science to the human condition of depression.

Depression

Rodent models

Electroconvulsive Therapy

Electroconvulsive Stimulation

Brain-Derived Neurotrophic Factor

Corticotropin Releasing Factor

Wistar Kyoto

Memory

Morfologia das glândulas salivares maiores de cutias (Dasyprocta aguti Linnaeus, 1766) / Morphology of the major salivary glands agouti (Dasyprocta agouti Linnaeus, 1766)

Oliveira Júnior, Carlos Magno

28 February 2014

Made available in DSpace on 2016-08-15T20:31:22Z (GMT). No. of bitstreams: 1 CarlosMOJ_DISSERT.pdf: 8750562 bytes, checksum: c01db92c52429e80de70f7b4ee39c9bb (MD5) Previous issue date: 2014-02-28 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / Studies on wild animal morphology serve as the theoretical basis for the management and conservation of different species, because they provide the necessary information for the implementation of measures which help in the keeping of these animals in captivity, in their natural habitat or even in the reintroduction to the original habitat. Studies about the morphology of cutias approach the various systems, but not a single study makes reference to both topography and structure arrangement of their salivary glands. Thus, this work sought to macro and microscopically describe the larger salivary glands of cutias. Ten adult animals were utilized to develop the methods related to the macroscopic aspect of the glands itself, as well as light microscopy, electronic transmission microscopy and electronic scanning microscopy. Four larger salivary glands were identified in the studied animals: parotid glands, submandibular glands, zygomatic glands and sublingual glands. The glands presented themselves as being tubulo-acinar, containing ducts of extremely varied sizes in their parenchyma. With the exception of the parotid glands, which were strictly serous, the others were mixed. In the same manner, only the submandibular glands bore grainy ducts. The cutias exposed four pairs of larger salivary glands; these animals may fulfill the needs of a model for studies concerning the undergone anatomical changes made by rodents to adapt to the various habitats of the planet / Estudos acerca da morfologia de animais silvestres servem de subsídio para trabalhos de manejo e preservação de diferentes espécies, pois fornecem informações para a tomada de medidas que auxiliem na manutenção destes em cativeiro, na preservação em habitat natural ou mesmo para ações voltadas a reintrodução ao habitat de origem. Estudos referentes à morfologia de cutias abordam os diversos sistemas, mas nenhum faz referência à arquitetura ou estrutura de suas glândulas salivares. Assim este trabalho objetivou descrever macro e microscopicamente as glândulas salivares maiores de cutias. Foram utilizados dez animais adultos, para o desenvolvimento de metodologias relativas à macroscopia propriamente dita das glândulas, microscopia de luz, microscopia eletrônica de transmissão e microscopia eletrônica de varredura. Foram identificadas quatro glândulas salivares maiores nos animais estudados, denominadas parótida, mandibular, zigomática e sublingual. As glândulas apresentaram-se como sendo do tipo tubuloacinares e contendo em seu parênquima ductos dos mais variados tamanhos. Com exceção da glândula parótida, que era estritamente serosa, as demais eram mistas. Da mesma forma, apenas a glândula mandibular foi identificada a presença de ducto do tipo granuloso. Apresentando as cutias os quatro pares de glândulas salivares maiores, estes animais podem servir de modelo para os estudos acerca das mudanças anatômicas sofridas pelos roedores para se adaptar aos diversos habitat do planeta

Dasyprocta aguti Linnaeus

Glândulas salivares

Roedor

Mandibular

Dasyprocta aguti Linnaeus

Salivary glands

rodent

mandibular