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Research Project
Unraveling the mechanisms underlying the androgen response to social interactions
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Interaction between vasotocin and gonadal hormones in the regulation of reproductive behavior in a cichlid fish
Publication . Almeida, Olinda; Félix, Ana Sofia; Oliveira, Rui F.
Vasotocin (VT) has been associated with the regulation of diferent aspects of social behavior (e.g., mating and aggression).
Given the fact that androgens are also known to regulate reproductive behavior, we hypothesized that VT and androgens
could be interacting, rather than acting independently, in the regulation of reproductive behavior. In the present study, we
aimed to understand the efect of VT and its interaction with gonadal hormones (putatively androgens) on diferent aspects
of reproductive behavior of a polygynous and territorial cichlid fsh, the Mozambique tilapia (Oreochromis mossambicus).
Using a within-subject design, we treated territorial males, that were previously castrated or sham-operated, with diferent
dosages of VT as well as with a V1A receptor antagonist (Manning compound) and subsequently analyzed their behavior
towards females and towards an intruder male. Our results showed that VT afected the behavior of territorial males towards
females but not towards males. Specifcally, VT-treated males interacted less with females (i.e., spent less time touching
the transparent partition that allowed visual contact with females) and were less aggressive towards females than salinetreated males. Moreover, in sham-operated males, blocking V1A receptors increased the frequency of bites towards females
in comparison to saline-treated males, but not in castrated males. This result suggests that VT down-regulates aggressiveness towards females through the action of V1A receptors in the gonads (putatively decreasing androgen secretion), and
that androgens up-regulate this behavior. In summary, our results suggest that VT may modulate social behavior, through
an interaction with gonadal hormones.
Neuroendocrine regulation of social Interactions in a cichlid fish
Publication . Félix, Ana Sofia Mendes da Silva Santos
O estudo do comportamento animal e em particular do comportamento social tem atraído investigadores desde há muito tempo. Todos os animais interagem com os outros, característica fundamental para a sua sobrevivência e reprodução. No entanto, para obter uma total compreensão do comportamento social, é necessária a integração de seus vários componentes. Com esta tese, pretendemos clarificar este tópico, estudando como o cérebro controla o comportamento através da ação conjunta de seus circuitos neurais, genes e moléculas, e também como o ambiente social de forma recíproca influencia o cérebro. Baseado neste objetivo e usando a tilápia de Moçambique (Oreochromis mossambicus) como espécie modelo, num primeiro estudo investigámos como o comportamento social é controlado por uma rede dinâmica de regiões cerebrais, a Social Decision Making Network (SDMN). Aqui, tentámos entender quais são as pistas específicas que desencadeiam mudanças no padrão de ativação dessa rede neural, usando lutas entre machos. Os nossos resultados sugerem que é a avaliação mútua do comportamento de combate que impulsiona mudanças temporárias no estado do SDMN, e não a avaliação do resultado da luta ou apenas a expressão de comportamento agressivo. Em seguida, explorámos a modulação hormonal do comportamento social, em particular pelo neuropeptídeo vasotocina. Para isso, manipulámos o sistema da vasotocina injetando vasotocina e um antagonista específico dos receptores de vasotocina V1A em machos. Para distinguir se a vasotocina afeta o comportamento isoladamente ou em combinação com andrógenios, conduzimos esta experiência em peixes castrados e peixes controlo. Curiosamente, descobrimos que a vasotocina afetou o comportamento dos machos em relação às fêmeas, mas não em relação aos machos, e que os andrógenios e a vasotocina modularam a agressividade dos machos em relação às fêmeas. Em seguida, procurámos compreender como as interações sociais afetam os sistemas neuroendócrinos. Nesse sentido, utilizámos um paradigma de intrusões territoriais para avaliar os padrões temporais dos níveis de andrógenios e tentámos relacioná-los ao fenótipo comportamental de cada indivíduo. Obtivemos padrões distintos de resposta androgénica às interações sociais devido a diferenças individuais subjacentes em sua extensão de resposta. Este estudo oferece uma importante contribuição para a área de investigação, fornecendo possíveis razões para as discrepâncias associadas à hipótese de desafio, o principal modelo em endocrinologia comportamental que descreve a relação entre andrógenios e interações sociais. Finalmente, pensa-se que os andrógenios respondem às interações sociais como forma de preparar os indivíduos para outras interações. Assim, tentámos descobrir como um aumento de andrógenios no sangue afeta o cérebro. Para esse efeito, injetámos peixes com andrógenios e estudámos as mudanças transcriptómicas que ocorrem no cérebro usando a técnica de RNAseq, permitindo uma compreensão mais detalhada do efeito dos andrógenios no cérebro. Em suma, o comportamento social é complexo e depende de vários fatores internos e externos. Os resultados desta tese fornecem um contributo significativo para pesquisas futuras.
Fighting assessment triggers rapid changes in activity of the brain social Decision-Making network of cichlid fish
Publication . Almeida, Olinda; Félix, Ana S.; Oliveira, Gonçalo A.; Lopes, Joao Sollari; Oliveira, Rui Filipe
Social living animals have to adjust their behavior to rapid changes in the social environment. It has been hypothesized that the expression of social behavior is better explained by the activity pattern of a diffuse social decision-making network (SDMN) in the brain than by the activity of a single brain region. In this study, we tested the hypothesis that it is the assessment that individuals make of the outcome of the fights, rather than the expression of aggressive behavior per se, that triggers changes in the pattern of activation of the SDMN which are reflected in socially driven behavioral profiles (e.g., dominant vs. subordinate specific behaviors). For this purpose, we manipulated the perception of the outcome of an agonistic interaction in an African cichlid fish (Oreochromis mossambicus) and assessed if either the perception of outcome or fighting by itself was sufficient to trigger rapid changes in the activity of the SDMN. We have used the expression of immediate early genes (c-fos and egr-1) as a proxy to measure the neuronal activity in the brain. Fish fought their own image on a mirror for 15 min after which they were allocated to one of three conditions for the two last minutes of the trial: (1) they remained fighting the mirror image (no outcome treatment); (2) the mirror was lifted and a dominant male that had just won a fight was presented behind a transparent partition (perception of defeat treatment); and (3) the mirror was lifted and a subordinate male that had just lost a fight was presented behind a transparent partition (perception of victory treatment). Results show that these short-term social interactions elicit distinct patterns in the SDMN and that the perception of the outcome was not a necessary condition to trigger a SDMN response as evidenced in the second treatment (perception of defeat treatment). We suggest that the mutual assessment of relative fighting behavior drives these acute changes in the state of the SDMN.
How to Improve the YLS/CMI? Exploring a Particularly Predictive Combination of Items
Publication . Villanueva, Lidón; Pereira, Miguel Basto; Cuervo, Keren
Recidivism risk assessment is central to addressing criminogenic needs among youth offenders. To accomplish this, the Youth Level of Service/Case Management Inventory (YLS/CMI) is worldwide used, but it is long and has limited predictive validity for minority populations. This study presents a particularly predictive combination of seven items that overcomes these limitations. A sample of 430 Spanish youth offenders participated in this study. The YLS/CMI long version was filled out and reconvictions were collected over a 2-year period. Results show that this combination of seven items reduced more than 80% of the inventory and improved the predictive validity, globally and for minorities. The items that were included were related to psychopathic traits and the lack of protective role models. Therefore, this specific combination of YLS/CMI items has considerable higher predictive validity across gender and culture, and may be useful to practitioners in this field.
Rising to the challenge? Inter-individual variation of the androgen response to social interactions in cichlid fish
Publication . Félix, Ana Sofia; Roleira, António; Oliveira, Rui Filipe
The Challenge Hypothesis (Wingfield et al. Am. Nat. 136, 829-846) aims to explain the complex relationship between androgens and social interactions. Despite its well acceptance in the behavioral endocrinology literature, several studies have failed to found an androgen response to staged social interactions. Possible reasons for these inconsistencies are the use of single sampling points that may miss the response peak, and the occurrence of inter-individual variability in the androgen response to social interactions. In this study we addressed these two possible confounding factors by characterizing the temporal pattern of the androgen response to social interactions in the African cichlid, Oreochromis mossambicus, and relating it to inter-individual variation in terms of the individual scope for androgen response (i.e. the difference between baseline and maximum physiological levels for each fish) and behavioral types. We found that the androgen response to territorial intrusions varies between individuals and is related to their scope for response. Individuals that have a lower scope for androgen response did not increase androgens after a territorial intrusion but were more aggressive and exploratory. In contrast males with a higher scope for response had fewer aggressive and exploratory behaviors and exhibited two peaks of KT, an early response 2-15 min after the interaction and a late response at 60-90 min post-interaction. Given that the pharmacological challenge of the Hypothalamic-Pituitary-Gonad axis only elicits the late response, we suggest that these two peaks may be regulated by different physiological mechanisms, with the early response being mediated by direct brain-gonad neural pathways. In summary, we suggest that determining the temporal pattern of the androgen response to social interactions and considering inter-individual variation may be the key to understanding the contradictory results of the Challenge Hypothesis.
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Fundação para a Ciência e a Tecnologia
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Funding Award Number
SFRH/BD/102892/2014