Identification of major histocompatibility complex haplotypes in goldfish, Carassius auratus

Maxey, Gail D.

04 August 2009

Development of techniques for observing variability at the major histocompatibility complex (MHC) of fishes could prove an important first step in understanding the genetic bases of disease resistance. In this study, using goldfish (Carassius auratus) as a model system, three approaches to generating antisera to putative MHC molecules and two methods for detecting antibody reactivities were evaluated. Seven full-sib families were produced, and red blood cells (RBCs) of goldfish family members were screened for reactivity with a panel of absorbed antisera. The antisera panel consisted of fish anti-fish, chicken anti-chicken, and chicken anti-fish antisera. The fish anti-fish antisera was produced by injecting RBCs from each parent into its mate, and the chicken anti-fish antisera was produced by injecting parental goldfish RBCs into chickens. The chicken anti-chicken antisera were obtained from a genetics laboratory where MHC-specific antisera had been prepared previously. The pattern of presence or absence of agglutination upon mixing with the respective reagents in this panel of antisera was regarded as the phenotype of the individual tested. Agglutinations observed macroscopically or microscopically were easily scored as positive or negative. Particular phenotypes were observed among individuals both within and between families. The large numbers of phenotypes observed may indicate: (1) the need for additional absorptions in the preparation of antisera, or (2) segregation of additional sets of phenotypic MHC haplotypes in the tetraploid goldfish. The utility of chicken anti-chicken reagents in serotyping of fish was demonstrated. Use of the traditional approach to conducting hemagglutination assays limited the number of assays executed because of the amount of blood required. In order to minimize the sample volumes required, antibody reactivities were evaluated by flow cytometry employing appropriate fluorescein labeled antibodies. Using this approach, scoring of positive and negative results was equivocal, and results did not always agree with those scored by hemagglutination assays. Results of this study strongly suggest that the development of immune allo- and xeno-antisera and use of hemagglutination assays can be used to characterize genetic variability of the MHC of fishes. Understanding of immunogenetic variability in fishes could be used to develop strains resistant to economically important fish pathogens. / Master of Science

LD5655.V855 1993.M294

Goldfish -- Immunology

Histocompatibility antisera

Histochemical Characterization of Lymphocytes in Preleukemic and Leukemic AKR Mice

Michnoff, Carolyn A.

05 1900

The AKR strain of mice have a genetic trait for spontaneous development of lymphocytic leukemia. In this study, leukemic mice were found to have significantly larger (p<0.01) thymuses and spleens than preleukemic mice. The enlarged leukemic tissues were densely packed with a light staining cell, with a hollow-appearing nucleus. Tissues from preleukemic mice were observed to be infiltrated with a smaller, darker-staining lymphocyte. Fluorescent antibody staining was done on preleukemic and leukemic tissues, using three antisera against murine lymphocyte theta antigen, and an antiserum against murine IgG. Significantly brighter fluorescence, (p <0.05) with theta-specific antisera, was found in leukemic thymuses,spleens, and kidneys than in the same preleukemic tissues. Leukemic tissues had significantly brighter fluorescence (p <0.05) than preleukemic tissues with IgG antiserum.

lymphocytic leukemia

AKR mice

flourescent antibody staining techniques

antisera

preleukemic tissues

Lymphocytes.

Mouse leukemia complex.

Leukemia -- Etiology.

Imidazoline receptor antisera-selected protein: a unique modulator of neuronal differentiation.

Dehle, Francis Christian

January 2008

The imidazoline I1 receptor (I1-R) is a novel receptor found primarily in the brain and nervous tissue where it modulates neurotransmission. It is named for its high affinity for compounds with an imidazoline structure such as the anti-hypertensive drugs, clonidine and moxonidine. The imidazoline receptor antisera-selected protein (IRAS) is the putative clone of the I1-R. IRAS has a unique structure, which does not resemble any other receptor protein. IRAS is present throughout the body with highest levels in the brain. There is a growing body of research examining the physiological roles of IRAS as an I1-R, in cell survival, migration and protein trafficking. However, there is little research into its neuronal functions. IRAS interacts with other membrane receptors: the mouse homologue of IRAS reorganises the actin cytoskeleton through interaction with the α5β1 fibronectin receptor. IRAS also binds insulin receptor substrate 4 and enhances insulin-induced extracellular signal-regulated kinase1/2 (ERK1/2) activation. Actin reorganisation and ERK1/2 activation are important for the development of neurites during neuronal differentiation. Therefore, the work described in this thesis aimed to investigate the effects of IRAS on neuronal differentiation. Studies reported in this thesis also aimed to investigate whether IRAS affected ERK1/2 signalling of other receptors involved in neuronal differentiation such as the NGF receptor, TrkA, and lysophospholipid receptors. The above aims were carried out in neuronal model PC12 cells transfected with either IRAS or a vector plasmid. Fluorescence microscopy and Western blotting techniques were used to examine the effect of IRAS on cell morphology and ERK1/2 signalling. The work described in this thesis found that IRAS reorganises the actin cytoskeleton and enhances growth cone development in PC12 cells. This study also shows that IRAS differentially enhances or inhibits NGF-induced PC12 cell differentiation depending on the presence or absence of serum in the media. In full-serum conditions, IRAS enhanced neurite outgrowth and this was accompanied by an increase in ERK1/2 activation. In serum-starved cells, IRAS inhibited neurite outgrowth with similar levels of ERK1/2 activation observed in vector- and IRAS-transfected cells. Finally, studies presented in this thesis found that IRAS enhances lysophosphatidic acid-induced ERK1/2 activation and that IRAS interacting with lysophospholipid receptor agonists present in serum is a potential mechanism by which it enhances NGF-induced ERK1/2 activation in full-serum conditions. / http://proxy.library.adelaide.edu.au/login?url= http://library.adelaide.edu.au/cgi-bin/Pwebrecon.cgi?BBID=1345359 / Thesis (Ph.D.) - University of Adelaide, School of Medical Sciences, 2008

Padronização da reação de Immuno-dot para detecção de Pet em sobrenadante de cultura de Escherichia coli enteroagregativa / Imuno-dot reaction standartization for pet detection in supernatant of enteroagregative Escherichia coli culture

Andréa Bernardes Vilhena Costa

07 December 2004

Escherichia coli enteroagregativa (EAEC), destaca-se como um importante patógeno emergente causador de diarréia persistente em países em desenvolvimento e de diarréia aguda em países desenvolvidos. A grande heterogeneidade dos fatores de virulência caracteriza esta categoria, porém não foi estabelecido um marcador genético comum a todas as amostras de EAEC. O padrão de adesão agregativa (AA) em células HEp-2 e HeLa é a forma de caracterização e diagnóstico mais precisos desta categoria. Uma das toxinas envolvidas na patogênese é Plasmid-encoded toxin (Pet) pertencente à classe das proteínas autotransportadoras com características de uma serino protease denominada SPATEs. Iniciou-se este estudo com a determinação do padrão de adesão de 164 amostras EAEC, previamente caracterizadas como sonda pCVD432 ou onda AA positiva. Assim, 141 (86%) amostras, que apresentaram padrão de adesão agregativo, foram caracterizadas como EAEC. Face aos resultados obtidos, confirmou-se a baixa especificidade da sonda AA. A pesquisa do gene pet, por meio de ensaio de PCR, resultou na positividade de 12 (8,5%) amostras. Prosseguiu-se esse estudo com a padronização da reação de immuno-dot. Utilizando-se 300 &#181;L do sobrenadante bacteriano, soro policlonal anti-Pet e o conjugado nas diluições 1/50 e 1/2.500, respectivamente, resultados bastante reprodutíveis foram obtidos. O método foi mais sensível que a detecção do gene por PCR. Por esse ensaio, detectou-se a toxina Pet em 16 (11,3%) das 141 amostras EAEC. Nenhuma das amostras controle negativo foi reconhecida pelo soro anti-Pet, assim como as amostras de E. coli produtoras das mais diversas toxinas. Apesar da baixa prevalência de amostras de EAEC produtoras da toxina Pet, neste estudo padronizou-se um método rápido, sensível, específico e de baixo custo para pesquisa desta toxina mostrando o potencial diagnóstico deste ensaio para uso em inquéritos epidemiológicos, o que poderá permitir determinar o papel da Pet no desenvolvimento de diarréia aquosa. / Enteroaggregative Escherichia coli (EAggEC) is an emerging diarrheal pathogen, whose pathogenesis is thought to comprise colonization of the intestinal mucosa with the release of secretogenic toxins. One of the toxin involved is the plasmid-encoded toxin (Pet), which is secreted by the autotransporter mechanism and belongs to a growing class of Enterobacteriaceae autotransporter proteins. Since the characteristic aggregative adherence pattern of EAggEC is associated with the presence of a large plasmid called pCVD432, DNA probes and PCR primers derived from this plasmid have been recommended as a screening method for EAggEC in the clinicai laboratory. In this study 164 E. coli isolates positive for the pCVD432 probe were tested for adherence to HEp-2 cells in which 141 isolates showed aggregative pattern, 12 isolates from them amplify a 1037-bp DNA fragment corresponding to pet gene by PCR. Using this samples we standardized an immuno-dot assay for EAggEC detection through Pet toxin as target antigen. 300 &#181;l of bacterial supernatant were applied in a PVDF membrane, and using a rabbit polyclonal sera anti-Pet the expression of the toxin by immuno-dot was in the same isolates in which the gene was detected. Besides no negative controls reacted with Pet antisera, in which we included 40 isolates with no virulence markers for diarrheagenic E. coli and E. coli expressing toxins other than Pet. This method proves to be rapid, sensitive, specific and low cost, demonstrating this potential as diagnosis for Pet expression and its association with diarrhea.

Escherichia coli enteroagregativa

Imuno-dot

Adesinas

Antissoro Pet

Biofilme

Citotoxinas

Diarréia aquosa

Diarréia persistente

Imunotoxinas

Soro policlonal

Técnicas e procedimento de laboratório

Testes imunológicos

Immuno-dot

Plasmid-encoded toxin

Diarrhea

EAEC

Rabbit polyclonal Pet antisera

Slot blot immunoassay

Padronização da reação de Immuno-dot para detecção de Pet em sobrenadante de cultura de Escherichia coli enteroagregativa / Imuno-dot reaction standartization for pet detection in supernatant of enteroagregative Escherichia coli culture

Costa, Andréa Bernardes Vilhena

07 December 2004

Escherichia coli enteroagregativa (EAEC), destaca-se como um importante patógeno emergente causador de diarréia persistente em países em desenvolvimento e de diarréia aguda em países desenvolvidos. A grande heterogeneidade dos fatores de virulência caracteriza esta categoria, porém não foi estabelecido um marcador genético comum a todas as amostras de EAEC. O padrão de adesão agregativa (AA) em células HEp-2 e HeLa é a forma de caracterização e diagnóstico mais precisos desta categoria. Uma das toxinas envolvidas na patogênese é Plasmid-encoded toxin (Pet) pertencente à classe das proteínas autotransportadoras com características de uma serino protease denominada SPATEs. Iniciou-se este estudo com a determinação do padrão de adesão de 164 amostras EAEC, previamente caracterizadas como sonda pCVD432 ou onda AA positiva. Assim, 141 (86%) amostras, que apresentaram padrão de adesão agregativo, foram caracterizadas como EAEC. Face aos resultados obtidos, confirmou-se a baixa especificidade da sonda AA. A pesquisa do gene pet, por meio de ensaio de PCR, resultou na positividade de 12 (8,5%) amostras. Prosseguiu-se esse estudo com a padronização da reação de immuno-dot. Utilizando-se 300 &#181;L do sobrenadante bacteriano, soro policlonal anti-Pet e o conjugado nas diluições 1/50 e 1/2.500, respectivamente, resultados bastante reprodutíveis foram obtidos. O método foi mais sensível que a detecção do gene por PCR. Por esse ensaio, detectou-se a toxina Pet em 16 (11,3%) das 141 amostras EAEC. Nenhuma das amostras controle negativo foi reconhecida pelo soro anti-Pet, assim como as amostras de E. coli produtoras das mais diversas toxinas. Apesar da baixa prevalência de amostras de EAEC produtoras da toxina Pet, neste estudo padronizou-se um método rápido, sensível, específico e de baixo custo para pesquisa desta toxina mostrando o potencial diagnóstico deste ensaio para uso em inquéritos epidemiológicos, o que poderá permitir determinar o papel da Pet no desenvolvimento de diarréia aquosa. / Enteroaggregative Escherichia coli (EAggEC) is an emerging diarrheal pathogen, whose pathogenesis is thought to comprise colonization of the intestinal mucosa with the release of secretogenic toxins. One of the toxin involved is the plasmid-encoded toxin (Pet), which is secreted by the autotransporter mechanism and belongs to a growing class of Enterobacteriaceae autotransporter proteins. Since the characteristic aggregative adherence pattern of EAggEC is associated with the presence of a large plasmid called pCVD432, DNA probes and PCR primers derived from this plasmid have been recommended as a screening method for EAggEC in the clinicai laboratory. In this study 164 E. coli isolates positive for the pCVD432 probe were tested for adherence to HEp-2 cells in which 141 isolates showed aggregative pattern, 12 isolates from them amplify a 1037-bp DNA fragment corresponding to pet gene by PCR. Using this samples we standardized an immuno-dot assay for EAggEC detection through Pet toxin as target antigen. 300 &#181;l of bacterial supernatant were applied in a PVDF membrane, and using a rabbit polyclonal sera anti-Pet the expression of the toxin by immuno-dot was in the same isolates in which the gene was detected. Besides no negative controls reacted with Pet antisera, in which we included 40 isolates with no virulence markers for diarrheagenic E. coli and E. coli expressing toxins other than Pet. This method proves to be rapid, sensitive, specific and low cost, demonstrating this potential as diagnosis for Pet expression and its association with diarrhea.

Escherichia coli enteroagregativa

Immuno-dot

Imuno-dot

Plasmid-encoded toxin

Adesinas

Antissoro Pet

Biofilme

Citotoxinas

Diarréia aquosa

Diarréia persistente

Diarrhea

EAEC

Imunotoxinas

Rabbit polyclonal Pet antisera

Slot blot immunoassay

Soro policlonal

Técnicas e procedimento de laboratório

Testes imunológicos