Testando a hipótese do cérebro social: modelo Frieseomelitta varia

Santos, Gabriele David Dos

Testando a hipótese do cérebro social: modelo Frieseomelitta varia

Detalhes bibliográficos
Ano de defesa:	2019
Autor(a) principal:	Santos, Gabriele David Dos
Orientador(a):	Barchuk, Angel Roberto
Banca de defesa:	Lourenço, Anete Pedro, Zavan, Bruno
Tipo de documento:	Dissertação
Tipo de acesso:	Acesso aberto
Idioma:	por
Instituição de defesa:	Universidade Federal de Alfenas
Programa de Pós-Graduação:	Programa de Pós-Graduação em Biociências Aplicada à Saúde
Departamento:	Instituto de Ciências Biomédicas
País:	Brasil
Palavras-chave em Português:	Frieseomelitta varia Neurogênese Cérebro social Expressão gênica diferencial
Área do conhecimento CNPq:	CIENCIAS DA SAUDE::MEDICINA
Link de acesso:	https://repositorio.unifal-mg.edu.br/handle/123456789/1607
Resumo:	The social brain hypothesis states that the brain of social species would have evolved in response to environmental influences, such as competition, protection, and food demand, resulting in cooperation between individuals and increased social complexity. In this way, there are cognitive challenges that solitary species do not face. This hypothesis has been studied in vertebrates, particularly in humans and birds. Social insects have some commonalities in their biology, like the existence of division of reproductive labor, with one or a few females taking care of eggs production (queens) and the rest developing activities in maintenance of the colony (workers). In Apis mellifera bees, adult female workers have brains and brain regions proportionally larger than queens, suggesting that in this species the social brain hypothesis is valid, since the investment in brain development allows the members of this caste to perform well varied within the colony. In addition, studies from our laboratory have shown that a group of differentially expressed genes among the castes mediate the differential neurogenesis in these insects. In this work we evaluate the reach of the social brain hypothesis in bees, testing it on the native bee Frieseomelitta varia, another social species. We hypothesized that in this bee caste differences are promoted by morphological and developmental trade-off, as occurs in Africanized bees. Thus, our goal was to determine the morphogenetic and molecular patterns of post-embryonic brain development in F. varia, using histological inclusion techniques for morphometry, and molecular biology assays to determine the transcriptional profile of the selected genes. Our morphological results showed that the total brain volume in Ne workers is higher when compared to queens in the same phase. Mushroom bodies and peduncular bodies also showed interesting results, the volume of left hemisphere neurons being larger than those of workers. Some studies indicate that the left hemisphere would be related to long-term memory, an interesting fact because it is workers, who perform many functions within a colony. Three of the nine neurogenic genes that in A. mellifera are casta-specific (amci, amd and SPH41) are possible candidates for orthologous genes between F. varia and human. These genes can act in the maintenance and development nervous system already in the beginning of the embryogenesis, and in the synthesis of metabolites involved in nervous and cognitive processes of bees like dopamine and serotonina. Our molecular data showed that hex70b and hex70c are more transcribed in workers' brain at early pupal development (Pp), suggesting that these proteins in F. varia guide the development of workers even in the post-larva stages; the amci was also more expressed in workers Pp, thus remaining until Pbm. This result evidences the role of serine proteases during the formation of the nervous system, which may contribute to the greater development of the brain of workers and possibly participate as a regulator of the synaptic functions necessary for the development and improvement of cognition in workers. Our results allow us to conclude that the social brain hypothesis is applied to both A. mellifera and F. varia and the morphological differentiations of the brain are promoted by the differential expression of neurogenic genes, some of them functionally conserved in bees and vertebrates.

Metadados do item

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network_name_str	Repositório Institucional da Universidade Federal de Alfenas - RiUnifal
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spelling	Santos, Gabriele David Doshttp://lattes.cnpq.br/5211025235895756Lourenço, Anete PedroZavan, BrunoBarchuk, Angel Robertohttp://lattes.cnpq.br/92552164608530682020-05-21T19:35:20Z2020-08-242019-07-31SANTOS, Gabriele David dos. Testando a hipótese do cérebro social: modelo Frieseomelitta varia. 2019. 89 f. Dissertação (Mestrado em Biociências Aplicada à Saúde) - Universidade Federal de Alfenas, Alfenas, MG, 2019https://repositorio.unifal-mg.edu.br/handle/123456789/1607The social brain hypothesis states that the brain of social species would have evolved in response to environmental influences, such as competition, protection, and food demand, resulting in cooperation between individuals and increased social complexity. In this way, there are cognitive challenges that solitary species do not face. This hypothesis has been studied in vertebrates, particularly in humans and birds. Social insects have some commonalities in their biology, like the existence of division of reproductive labor, with one or a few females taking care of eggs production (queens) and the rest developing activities in maintenance of the colony (workers). In Apis mellifera bees, adult female workers have brains and brain regions proportionally larger than queens, suggesting that in this species the social brain hypothesis is valid, since the investment in brain development allows the members of this caste to perform well varied within the colony. In addition, studies from our laboratory have shown that a group of differentially expressed genes among the castes mediate the differential neurogenesis in these insects. In this work we evaluate the reach of the social brain hypothesis in bees, testing it on the native bee Frieseomelitta varia, another social species. We hypothesized that in this bee caste differences are promoted by morphological and developmental trade-off, as occurs in Africanized bees. Thus, our goal was to determine the morphogenetic and molecular patterns of post-embryonic brain development in F. varia, using histological inclusion techniques for morphometry, and molecular biology assays to determine the transcriptional profile of the selected genes. Our morphological results showed that the total brain volume in Ne workers is higher when compared to queens in the same phase. Mushroom bodies and peduncular bodies also showed interesting results, the volume of left hemisphere neurons being larger than those of workers. Some studies indicate that the left hemisphere would be related to long-term memory, an interesting fact because it is workers, who perform many functions within a colony. Three of the nine neurogenic genes that in A. mellifera are casta-specific (amci, amd and SPH41) are possible candidates for orthologous genes between F. varia and human. These genes can act in the maintenance and development nervous system already in the beginning of the embryogenesis, and in the synthesis of metabolites involved in nervous and cognitive processes of bees like dopamine and serotonina. Our molecular data showed that hex70b and hex70c are more transcribed in workers' brain at early pupal development (Pp), suggesting that these proteins in F. varia guide the development of workers even in the post-larva stages; the amci was also more expressed in workers Pp, thus remaining until Pbm. This result evidences the role of serine proteases during the formation of the nervous system, which may contribute to the greater development of the brain of workers and possibly participate as a regulator of the synaptic functions necessary for the development and improvement of cognition in workers. Our results allow us to conclude that the social brain hypothesis is applied to both A. mellifera and F. varia and the morphological differentiations of the brain are promoted by the differential expression of neurogenic genes, some of them functionally conserved in bees and vertebrates.A hipótese do cérebro social afirma que o cérebro de espécies sociais teria evoluído em resposta a influências ambientais, tais como competição, proteção e procura de alimento, resultando assim na cooperação entre os indivíduos e aumento da complexidade social. Desta forma, têm-se desafios cognitivos que espécies solitárias não enfrentam. Esta hipótese tem sido bem estudada em vertebrados, particularmente no ser humano e em aves. Os insetos sociais possuem algumas características em comum quanto à sua biologia. Uma delas é a existência de divisão do trabalho reprodutivo, com uma ou umas poucas fêmeas encarregando-se da produção de ovos (rainhas) e o resto desenvolvendo atividades de manutenção da colônia (operárias). Em abelhas Apis mellifera, as operárias adultas possuem cérebros e regiões cerebrais proporcionalmente maiores que as rainhas, o que sugere que nessa espécie a hipótese do cérebro social é válida, já que o investimento no desenvolvimento do cérebro permite que os membros desta casta desenvolvam funções bem variadas dentro da colônia. Além disso, estudos do nosso laboratório mostraram que um grupo de genes diferencialmente expressos entre as castas medeiam a neurogênese diferencial nestes insetos. Neste trabalho, avaliamos os alcances da hipótese do cérebro social em abelhas, testando-a na abelha nativa sem ferrão Frieseomelitta varia, outra espécie social. Hipotetizamos que nesta abelha as diferenças de castas sejam promovidas por trade-off morfofisiológicos do desenvolvimento, como ocorre em abelhas africanizadas. Assim, nosso objetivo foi determinar os padrões morfogenéticos e moleculares do desenvolvimento cerebral pós-embrionário em castas de F. varia, por meio de técnicas histológicas de inclusão em historesina para morfometria, e ensaios de biologia molecular para determinar o perfil transcricional dos genes selecionados. Nossos resultados morfológicos mostraram que o volume total do cérebro em operárias Re é maior quando comparado a rainhas na mesma fase. Os corpos cogumelares e os corpos pedunculares também mostraram resultados interessantes, sendo o volume das neurópilas do hemisfério esquerdo maiores que as do direito em operárias. Alguns estudos apontam que o hemisfério esquerdo estaria relacionado à memória a longo prazo, fato interessante por se tratar de operárias, que desempenham inúmeras funções dentro de uma colônia. Três dos nove genes neurogênicos que em A. mellifera são casta-específicos (amci, amd e SPH41) são possíveis candidatos à genes ortólogos entre F. varia e humanos. Estes genes podem atuar na manutenção e desenvolvimento sistema nervoso já no início da embriogênese, e na síntese de metabólitos envolvidos em processos nervosos e cognitivos de abelhas, como dopamina e serotonina. Nossos dados moleculares revelaram que hex70b e hex70c são mais transcritos no cérebro de operárias no início do desenvolvimento pupal (Pp), sugerindo que estas proteínas, em F. varia, guiam o desenvolvimento de operárias mesmo nas fases pós-larva; o amci também se mostrou mais expresso em operárias Pp, permanecendo assim até Pbm. Este resultado evidencia o papel das serina proteases durante a formação do sistema nervoso, podendo este gene contribuir para o maior desenvolvimento do cérebro de operárias e possivelmente participando como regulador das funções sinápticas necessárias para o desenvolvimento e melhoramento da cognição em operárias. Nossos resultados permitem concluir que a hipótese do cérebro social é aplicada tanto a abelhas A. mellifera quanto a F. varia e que as diferenciações morfológicas do cérebro são promovidas pela expressão diferencial de genes neurogênicos, alguns deles, funcionalmente conservados em abelhas e vertebrados.Conselho Nacional de Pesquisa e Desenvolvimento Científico e Tecnológico - CNPqapplication/pdfporUniversidade Federal de AlfenasPrograma de Pós-Graduação em Biociências Aplicada à SaúdeUNIFAL-MGBrasilInstituto de Ciências Biomédicasinfo:eu-repo/semantics/openAccesshttp://creativecommons.org/licenses/by-nc-nd/4.0/Frieseomelitta variaNeurogêneseCérebro socialExpressão gênica diferencialCIENCIAS DA SAUDE::MEDICINATestando a hipótese do cérebro social: modelo Frieseomelitta variainfo:eu-repo/semantics/masterThesisinfo:eu-repo/semantics/publishedVersion1196850848737529011600600600-969369452308786627-2555911436985713659reponame:Repositório Institucional da Universidade Federal de Alfenas - RiUnifalinstname:Universidade Federal de Alfenas (UNIFAL)instacron:UNIFALSantos, Gabriele David DosLICENSElicense.txtlicense.txttext/plain; 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dc.title.pt-BR.fl_str_mv	Testando a hipótese do cérebro social: modelo Frieseomelitta varia
title	Testando a hipótese do cérebro social: modelo Frieseomelitta varia
spellingShingle	Testando a hipótese do cérebro social: modelo Frieseomelitta varia Santos, Gabriele David Dos Frieseomelitta varia Neurogênese Cérebro social Expressão gênica diferencial CIENCIAS DA SAUDE::MEDICINA
title_short	Testando a hipótese do cérebro social: modelo Frieseomelitta varia
title_full	Testando a hipótese do cérebro social: modelo Frieseomelitta varia
title_fullStr	Testando a hipótese do cérebro social: modelo Frieseomelitta varia
title_full_unstemmed	Testando a hipótese do cérebro social: modelo Frieseomelitta varia
title_sort	Testando a hipótese do cérebro social: modelo Frieseomelitta varia
author	Santos, Gabriele David Dos
author_facet	Santos, Gabriele David Dos
author_role	author
dc.contributor.author.fl_str_mv	Santos, Gabriele David Dos
dc.contributor.advisor1Lattes.fl_str_mv	http://lattes.cnpq.br/5211025235895756
dc.contributor.referee1.fl_str_mv	Lourenço, Anete Pedro
dc.contributor.referee2.fl_str_mv	Zavan, Bruno
dc.contributor.advisor1.fl_str_mv	Barchuk, Angel Roberto
dc.contributor.authorLattes.fl_str_mv	http://lattes.cnpq.br/9255216460853068
contributor_str_mv	Lourenço, Anete Pedro Zavan, Bruno Barchuk, Angel Roberto
dc.subject.por.fl_str_mv	Frieseomelitta varia Neurogênese Cérebro social Expressão gênica diferencial
topic	Frieseomelitta varia Neurogênese Cérebro social Expressão gênica diferencial CIENCIAS DA SAUDE::MEDICINA
dc.subject.cnpq.fl_str_mv	CIENCIAS DA SAUDE::MEDICINA
description	The social brain hypothesis states that the brain of social species would have evolved in response to environmental influences, such as competition, protection, and food demand, resulting in cooperation between individuals and increased social complexity. In this way, there are cognitive challenges that solitary species do not face. This hypothesis has been studied in vertebrates, particularly in humans and birds. Social insects have some commonalities in their biology, like the existence of division of reproductive labor, with one or a few females taking care of eggs production (queens) and the rest developing activities in maintenance of the colony (workers). In Apis mellifera bees, adult female workers have brains and brain regions proportionally larger than queens, suggesting that in this species the social brain hypothesis is valid, since the investment in brain development allows the members of this caste to perform well varied within the colony. In addition, studies from our laboratory have shown that a group of differentially expressed genes among the castes mediate the differential neurogenesis in these insects. In this work we evaluate the reach of the social brain hypothesis in bees, testing it on the native bee Frieseomelitta varia, another social species. We hypothesized that in this bee caste differences are promoted by morphological and developmental trade-off, as occurs in Africanized bees. Thus, our goal was to determine the morphogenetic and molecular patterns of post-embryonic brain development in F. varia, using histological inclusion techniques for morphometry, and molecular biology assays to determine the transcriptional profile of the selected genes. Our morphological results showed that the total brain volume in Ne workers is higher when compared to queens in the same phase. Mushroom bodies and peduncular bodies also showed interesting results, the volume of left hemisphere neurons being larger than those of workers. Some studies indicate that the left hemisphere would be related to long-term memory, an interesting fact because it is workers, who perform many functions within a colony. Three of the nine neurogenic genes that in A. mellifera are casta-specific (amci, amd and SPH41) are possible candidates for orthologous genes between F. varia and human. These genes can act in the maintenance and development nervous system already in the beginning of the embryogenesis, and in the synthesis of metabolites involved in nervous and cognitive processes of bees like dopamine and serotonina. Our molecular data showed that hex70b and hex70c are more transcribed in workers' brain at early pupal development (Pp), suggesting that these proteins in F. varia guide the development of workers even in the post-larva stages; the amci was also more expressed in workers Pp, thus remaining until Pbm. This result evidences the role of serine proteases during the formation of the nervous system, which may contribute to the greater development of the brain of workers and possibly participate as a regulator of the synaptic functions necessary for the development and improvement of cognition in workers. Our results allow us to conclude that the social brain hypothesis is applied to both A. mellifera and F. varia and the morphological differentiations of the brain are promoted by the differential expression of neurogenic genes, some of them functionally conserved in bees and vertebrates.
publishDate	2019
dc.date.issued.fl_str_mv	2019-07-31
dc.date.accessioned.fl_str_mv	2020-05-21T19:35:20Z
dc.date.available.fl_str_mv	2020-08-24
dc.type.driver.fl_str_mv	info:eu-repo/semantics/masterThesis
dc.type.status.fl_str_mv	info:eu-repo/semantics/publishedVersion
format	masterThesis
status_str	publishedVersion
dc.identifier.citation.fl_str_mv	SANTOS, Gabriele David dos. Testando a hipótese do cérebro social: modelo Frieseomelitta varia. 2019. 89 f. Dissertação (Mestrado em Biociências Aplicada à Saúde) - Universidade Federal de Alfenas, Alfenas, MG, 2019
dc.identifier.uri.fl_str_mv	https://repositorio.unifal-mg.edu.br/handle/123456789/1607
identifier_str_mv	SANTOS, Gabriele David dos. Testando a hipótese do cérebro social: modelo Frieseomelitta varia. 2019. 89 f. Dissertação (Mestrado em Biociências Aplicada à Saúde) - Universidade Federal de Alfenas, Alfenas, MG, 2019
url	https://repositorio.unifal-mg.edu.br/handle/123456789/1607
dc.language.iso.fl_str_mv	por
language	por
dc.relation.department.fl_str_mv	1196850848737529011
dc.relation.confidence.fl_str_mv	600 600 600
dc.relation.cnpq.fl_str_mv	-969369452308786627
dc.relation.sponsorship.fl_str_mv	-2555911436985713659
dc.rights.driver.fl_str_mv	info:eu-repo/semantics/openAccess http://creativecommons.org/licenses/by-nc-nd/4.0/
eu_rights_str_mv	openAccess
rights_invalid_str_mv	http://creativecommons.org/licenses/by-nc-nd/4.0/
dc.format.none.fl_str_mv	application/pdf
dc.publisher.none.fl_str_mv	Universidade Federal de Alfenas
dc.publisher.program.fl_str_mv	Programa de Pós-Graduação em Biociências Aplicada à Saúde
dc.publisher.initials.fl_str_mv	UNIFAL-MG
dc.publisher.country.fl_str_mv	Brasil
dc.publisher.department.fl_str_mv	Instituto de Ciências Biomédicas
publisher.none.fl_str_mv	Universidade Federal de Alfenas
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