Sophie Dias scite author profile

In flies, the olfactory information is carried from the first relay in the brain, the antennal lobe, to the mushroom body (MB) and the lateral horn (LH). Olfactory associations are formed in the MB. The LH was ascribed a role in innate responses based on the stereotyped connectivity with the antennal lobe, stereotyped physiological responses to odors, and MB silencing experiments. Direct evidence for the functional role of the LH is still missing. Here, we investigate the behavioral role of the LH neurons (LHNs) directly, using the CO2 response as a paradigm. Our results show the involvement of the LH in innate responses. Specifically, we demonstrate that activity in two sets of neurons is required for the full behavioral response to CO2. Tests of the behavioral response to other odors indicate the neurons are selective to CO2 response. Using calcium imaging, we observe that the two sets of neurons respond to CO2 in a different manner. Using independent manipulation and recording of the two sets of neurons, we find that the one that projects to the superior intermediate protocerebrum (SIP) also outputs to the local neurons within the LH. The design of simultaneous output at the LH and the SIP, an output of the MB, allows for coordination between innate and learned responses.

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apterous Brain Neurons Control Receptivity to Male Courtship in Drosophila Melanogaster Females

Aranha

Herrmann

Cachitas

et al. 2017

Sci Rep

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Courtship behaviours allow animals to interact and display their qualities before committing to reproduction. In fly courtship, the female decides whether or not to mate and is thought to display receptivity by slowing down to accept the male. Very little is known on the neuronal brain circuitry controlling female receptivity. Here we use genetic manipulation and behavioural studies to identify a novel set of neurons in the brain that controls sexual receptivity in the female without triggering the postmating response. We show that these neurons, defined by the expression of the transcription factor apterous, affect the modulation of female walking speed during courtship. Interestingly, we found that the apterous neurons required for female receptivity are neither doublesex nor fruitless positive suggesting that apterous neurons are not specified by the sex-determination cascade. Overall, these findings identify a neuronal substrate underlying female response to courtship and highlight the central role of walking speed in the receptivity behaviour.

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Mating pair drives aggressive behavior in female Drosophila

2022

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Avoidance response to CO₂ in the lateral horn

Varela

Gaspar

Dias

et al. 2018

Preprint

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9In flies, the olfactory information is carried from the first relay in the brain, the 10 antennal lobe, to the mushroom body (MB) and the lateral horn (LH). Olfactory 11 associations are formed in the MB. The LH was ascribed a role in innate 12 responses based on the stereotyped connectivity with the antennal lobe, 13 stereotyped physiological responses to odors and MB silencing experiments. 14 Direct evidence for the functional role of the LH is still missing. Here we 15 investigate the behavioral role of the LH neurons directly, using the CO 2 16 response as a paradigm. Our results show the involvement of the LH in innate 17 responses. Specifically, we demonstrate that activity in two sets of neurons is 18 required for the full behavioral response to CO 2 . Using calcium imaging we 19 observe that the two sets of neurons respond to CO 2 in different manners. Using 20 independent manipulation and recording of the two sets of neurons we find that 21 the one that projects to the SIP also outputs to the local neurons within the LH. 22The design of simultaneous output at the LH and the SIP, an output of the MB, 23 allows for coordination between innate and learned responses.

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Male courtship song drives escape responses that are suppressed for successful mating

Arez

Mezzera

Neto-Silva

et al. 2021

Sci Rep

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Persuasion is a crucial component of the courtship ritual needed to overcome contact aversion. In fruit flies, it is well established that the male courtship song prompts receptivity in female flies, in part by causing sexually mature females to slow down and pause, allowing copulation. Whether the above receptivity behaviours require the suppression of contact avoidance or escape remains unknown. Here we show, through genetic manipulation of neurons we identified as required for female receptivity, that male song induces avoidance/escape responses that are suppressed in wild type flies. First, we show that silencing 70A09 neurons leads to an increase in escape, as females increase their walking speed during courtship together with an increase in jumping and a reduction in pausing. The increase in escape response is specific to courtship, as escape to a looming threat is not intensified. Activation of 70A09 neurons leads to pausing, confirming the role of these neurons in escape modulation. Finally, we show that the escape displays by the female result from the presence of a courting male and more specifically from the song produced by a courting male. Our results suggest that courtship song has a dual role, promoting both escape and pause in females and that escape is suppressed by the activity of 70A09 neurons, allowing mating to occur.

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Sophie Dias

Avoidance response to CO2 in the lateral horn

apterous Brain Neurons Control Receptivity to Male Courtship in Drosophila Melanogaster Females

Mating pair drives aggressive behavior in female Drosophila

Avoidance response to CO₂ in the lateral horn

Male courtship song drives escape responses that are suppressed for successful mating

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