PESQUISA VETERINÁRIA BRASILEIRA

Abstract in English:

ABSTRACT.- Fonseca E.T., Galindo L.T., Porcionatto M.A. & Miglino M.A. 2016. Culture, characterization and differentiation of neural precursors from the central nervous system of guinea pigs (Cavia porcellus Linnaeus, 1758). Pesquisa Veterinária Brasileira 36(Supl.1):71-78. Escola de Medicina Veterinária e Zootecnia, Universidade Federal do Tocantins, BR-153 Km 112, Rural, Araguaína, Tocantins, TO 77804-970, Brazil. E-mail: erikafonseca@uft.edu.br Potentially neurogenic areas were initially identified by incorporation of bromodeoxyuridine (BrdU) in cells underlying the subventricular zone (SVZ) of the lateral ventricles wall, hippocampus and olfactory bulbs of newborn guinea pigs. Neural precursors from the SVZ were cultured in suspension, generating neurospheres (NSFs), which, upon dissociation were able to generate new NSFs. Upon culture in the absence of growth factors, cells dissociated from NSFs displayed evidence for neural differentiation, giving rise to cells from neural lineage. Flow cytometry analysis for of NSFs-derived cells after differentiation revealed approximately 13.3% nestin positive, 5.5% Beta-III-tubulin positive, 9% GFAP positive and 7.8% mGalC positive. Functional assays by measurement of calcium influx upon gamma butiric amino acid (GABA) and glutamate stimuli, revealed stimulation in differentiated cells, an indicator of neuronal differentiation. The ability of guinea pig SVZ cells to originate functional neurons in vitro is promising for research and towards a future use of neural stem cells in the therapy of neurological disorders.

• Central nervous system Cavia porcellus Guinea pigs stem cells sistema nervoso central guineas pig

Abstract in Portuguese:

RESUMO.- Fonseca E.T., Galindo L.T., Porcionatto M.A. & Miglino M.A. 2016. Culture, characterization and differentiation of neural precursors from the central nervous system of guinea pigs (Cavia porcellus Linnaeus, 1758). [Cultura, caracterização e diferenciação de precursores neurais do sistema nervoso central de guineas pig (Cavia porcellus Linnaeus, 1758).] Pesquisa Veterinária Brasileira 36(Supl.1):71-78. Escola de Medicina Veterinária e Zootecnia, Universidade Federal do Tocantins, BR-153 Km 112, Rural, Araguaína, Tocantins, TO 77804-970, Brazil. E-mail: erikafonseca@uft.edu.br Áreas potencialmente neurogênicas foram identificadas por incorporação de bromodeoxiuridina (BrdU) na zona subventricular (SVZ) dos ventrículos laterais, hipocampo e bulbos olfatórios de cobaias neonatos. Precursores neurais provenientes da SVZ foram cultivados em suspensão, resultando na geração de neuroesferas (NSFs), que quando dissociadas foram capazes de proliferar e gerar novas NSFs. Quando cultivadas na ausência de fatores de crescimento, as células provenientes de NSFs dissociadas apresentaram evidências de diferenciação neuronal, dando origem a células da linhagem neural. Citometria de fluxo em células das NSFs após a diferenciação revelou aproximadamente 13,3% positivas para nestina, 5,5% positivas para Beta-III-tubulina, 9% positivas para GFAP e 7,8% positivas para mGalC. Testes de funcionalidade pela mensuração de influxo de cálcio após estímulo com ácido gama amino butírico (GABA) e glutamato revelaram a estimulação de células diferenciadas, um indicador de função neuronal. A capacidade de células da SVZ de fetos de cobaias originarem células neurais funcionais in vitro é promissora para a pesquisa e eventual uso terapêutico de células tronco em disordens do sistema nervoso.

Abstract in English:

ABSTRACT.- Fonseca E.T., Oliveira C.M., Franciolli A.L.R. & Miglino M.A. 2011. [Characteristics of dorsal lingual papillae of the goat (Capra hircus): Light and scanning electron microscopy study.] Características das papilas do dorso da língua de cabras (Capra hircus): estudo por de microscopia eletrônica de varredura e luz. Pesquisa Veterinária Brasileira 31(Supl.1):67-73. Departamento de Cirurgia, Setor de Anatomia, Faculdade de Medicina Veterinária e Zootecnia, Universidade de São Paulo, Av. Prof. Orlando de Paiva 87, São Paulo, SP 05508-270, Brazil. E-mail: erikafonseca@usp.br The morphology of the lingual papillae of domestic goat (Capra hircus) was studied by scanning electron microscopy (SEM) and light microscopy (LM). Filiform, conical and lentiform papillae exert mechanical function whereas fungiform and valate papillae have gustative function. Filliform papillae were distributed all over the lateral and dorsal surfaces of the tongue. They present a conical shape with the thin ends pointed caudally; and possess several secondary processes, of different sizes, with the same orientation. Histological examination of these papillae revealed abundant queratinized tissue. Fungiform papillae were observed on the dorsal and lateral surface of the apical region and body of the tongue. Present a fungi-like shape, with a thick cornified epithelium and taste buds distributed on the surface. Lentiform papillae were distributed over the median line of the dorsal torus, presenting projections above the surface of the tongue. Some displayed pyramidal shapes; other were more flattened. Valate papillae were observed on the lateral surface of the posterior part of the torus and present a rounding shape delimited by a deep groove. These papillae possess taste buds on their lateral wall that open up on the groove. Conical papillae were observed on the lingual torus and present an extended shape, with a wide base and a blunt tip. Although the main morphological and structural characteristics of the lingual epithelium are species-specific, some features may be influenced by the type of food and alimentary habits. Therefore, the present study provides a histological and ultrastructural description of the tongue of the domestic goat fed with mixed food (grass and concentrate).

• Capra hircus tongue lingual papillae língua papila lingual

Abstract in Portuguese:

RESUMO.- Fonseca E.T., Oliveira C.M., Franciolli A.L.R. & Miglino M.A. 2011. [Characteristics of dorsal lingual papillae of the goat (Capra hircus): Light and scanning electron microscopy study.] Características das papilas do dorso da língua de cabras (Capra hircus): estudo por de microscopia eletrônica de varredura e luz. Pesquisa Veterinária Brasileira 31(Supl.1):67-73. Departamento de Cirurgia, Setor de Anatomia, Faculdade de Medicina Veterinária e Zootecnia, Universidade de São Paulo, Av. Prof. Orlando de Paiva 87, São Paulo, SP 05508-270, Brazil. E-mail: erikafonseca@usp.br A morfologia das papilas linguais da cabra doméstica (Capra hircus) foi estudada por Microscopia Eletrônica de Varredura (MEV) e Microscopia de luz. Papilas filiformes, cônicas e lentiformes possuem função mecânica, enquanto que as papilas fungiformes e as valadas possuem função gustativa. As papilas filiformes estavam distribuídas por toda a extensão da língua, nas superfícies dorsal e lateral. Possuem um formato cônico com a extremidade pontiaguda direcionada caudalmente. Possuem vários processos secundários, de tamanhos diferentes, com a mesma orientação. A histologia revelou abundante tecido queratinizado. As papilas fungiformes foram observadas nas superfícies dorsal e lateral do ápice e do corpo da língua. Possuem formato semelhante a cogumelos, com epitélio cornificado espesso e botões gustativos distribuídos na superfície. As papilas lentiformes se distribuíam na linha mediana da parte mais dorsal do toro, com projeções elevadas além da superfície da língua. Algumas apresentavam o formato de pirâmide e outras um formato mais achatado. As papilas valadas foram encontradas na superfície lateral da parte mais caudal do toro. Possuem formato arredondado, envolvido por um sulco pouco profundo. Possuem botões gustativos na parede lateral que se abrem no sulco. As papilas cônicas foram observadas no toro da língua e possuem formato alongado, com base larga e ponta romba. Embora as principais características morfológicas e estruturais do epitélio lingual sejam específicas da espécie, o tipo de alimentação e os hábitos alimentares podem influenciar na sua estrutura. Assim, o presente trabalho fornece uma descrição histológica e ultraestrutural da língua de cabras domésticas submetidas à alimentação baseada em gramíneas e ração.

Abstract in English:

Diel D.G., Fonseca E.T., Souza S.F., Mazzanti A., Bauermann F., Weiblen R. & Flores E.F. 2005. [Bovine herpesvirus 5 may use the olfactory and trigeminal pathways to invade the central nervous system of rabbits, depending upon the route of inoculation.] O Herpesvírus bovino tipo 5 (BoHV-5) pode utilizar as rotas olfatória ou trigeminal para invadir o sistema nervoso central de coelhos, dependendo da via de inoculação. Pesquisa Veterinária Brasileira 25(3):164-170. Departamento de Medicina Veterinária Preventiva, Universidade Federal de Santa Maria, 97105-900 Santa Maria, RS, Brazil. E-mail: flores@ccr.ufsm.br Bovine herpesvirus type 5 (BoHV-5) is a major etiological agent of meningoencephalitis in cattle. Following replication in the nasal mucosa, viral invasion of the brain is thought to occur mainly by the olfactory pathway. To address the role of this pathway in the pathogenesis of neurological infection in a laboratory model, 30 days old rabbits had the main olfactory bulbs (MOBs) surgically removed and were subsequently inoculated intranasally (IN) or conjunctivally (IC) with a highly neurovirulent BoHV-5 strain (SV-507). Following IN inoculation, 10 out of 10 (100 %) control rabbits developed neurological disease. The clinical onset ranged from day 5 to 10 post-inoculation (pi, average 7.5 days); nine being euthanized in extremis and one recovering after a mild clinical course. In contrast, only one rabbit (9.1 %) of the group lacking the MOBs (n=11) developed neurological disease (onset at day 17 pi). Dexamethasone administration to the survivors (n=10) at day 50pi was followed by virus shedding in nasal and/or ocular secretions by 8 animals, demonstrating that the virus was able to reach the trigeminal ganglia (TG) during acute infection. These results demonstrate that the olfactory route provides the main, yet not the sole access to the brain of rabbits following IN inoculation. To address the role of a second pathway, groups of control (n=12) or MOB-lacking rabbits (n=12) were inoculated into the conjunctival sac (IC), following which the virus would be expected to use the ophtalmic branch of the trigeminal nerve to reach the brain. Ten control rabbits (83.3 %) developed neurological disease upon IC inoculation (onset 15.3 days [11 to 20]). Previous ablation of the MOBs did not affect the frequency and course of neurological disease: ten out of 12 rabbits (83.3 %) lacking the MOBs developed neurological disease (onset 9 to 15 dpi, average: 12.7 days) upon IC inoculation. These results demonstrate that both IN and IC routes may operate in the transport of BoHV-5 to the brain of experimentally infected rabbits, depending on the route of inoculation. IN inoculation results in a fast and efficient transport by the olfactory pathway, the trigeminal route providing an alternative, much slower and less efficient transport; IC inoculation results in efficient viral transport by the trigeminal route, yet with a delayed kinetics comparing to the transport provided by the olfactory pathway.

• Bovine herpesvirus type 5 BoHV-5 neurological infection rabbits.

Abstract in Portuguese:

Diel D.G., Fonseca E.T., Souza S.F., Mazzanti A., Bauermann F., Weiblen R. & Flores E.F. 2005. [Bovine herpesvirus 5 may use the olfactory and trigeminal pathways to invade the central nervous system of rabbits, depending upon the route of inoculation.] O Herpesvírus bovino tipo 5 (BoHV-5) pode utilizar as rotas olfatória ou trigeminal para invadir o sistema nervoso central de coelhos, dependendo da via de inoculação. Pesquisa Veterinária Brasileira 25(3):164-170. Departamento de Medicina Veterinária Preventiva, Universidade Federal de Santa Maria, 97105-900 Santa Maria, RS, Brazil. E-mail: flores@ccr.ufsm.br Bovine herpesvirus type 5 (BoHV-5) is a major etiological agent of meningoencephalitis in cattle. Following replication in the nasal mucosa, viral invasion of the brain is thought to occur mainly by the olfactory pathway. To address the role of this pathway in the pathogenesis of neurological infection in a laboratory model, 30 days old rabbits had the main olfactory bulbs (MOBs) surgically removed and were subsequently inoculated intranasally (IN) or conjunctivally (IC) with a highly neurovirulent BoHV-5 strain (SV-507). Following IN inoculation, 10 out of 10 (100 %) control rabbits developed neurological disease. The clinical onset ranged from day 5 to 10 post-inoculation (pi, average 7.5 days); nine being euthanized in extremis and one recovering after a mild clinical course. In contrast, only one rabbit (9.1 %) of the group lacking the MOBs (n=11) developed neurological disease (onset at day 17 pi). Dexamethasone administration to the survivors (n=10) at day 50pi was followed by virus shedding in nasal and/or ocular secretions by 8 animals, demonstrating that the virus was able to reach the trigeminal ganglia (TG) during acute infection. These results demonstrate that the olfactory route provides the main, yet not the sole access to the brain of rabbits following IN inoculation. To address the role of a second pathway, groups of control (n=12) or MOB-lacking rabbits (n=12) were inoculated into the conjunctival sac (IC), following which the virus would be expected to use the ophtalmic branch of the trigeminal nerve to reach the brain. Ten control rabbits (83.3 %) developed neurological disease upon IC inoculation (onset 15.3 days [11 to 20]). Previous ablation of the MOBs did not affect the frequency and course of neurological disease: ten out of 12 rabbits (83.3 %) lacking the MOBs developed neurological disease (onset 9 to 15 dpi, average: 12.7 days) upon IC inoculation. These results demonstrate that both IN and IC routes may operate in the transport of BoHV-5 to the brain of experimentally infected rabbits, depending on the route of inoculation. IN inoculation results in a fast and efficient transport by the olfactory pathway, the trigeminal route providing an alternative, much slower and less efficient transport; IC inoculation results in efficient viral transport by the trigeminal route, yet with a delayed kinetics comparing to the transport provided by the olfactory pathway.