Natalia Iliadi scite author profile

The strong microscale interslope environmental di¡erences in`Evolution Canyon' provide an excellent natural model for sympatric speciation. Our previous studies revealed signi¢cant slope-speci¢c di¡er-ences for a ¢tness complex of Drosophila. This complex involved either adaptation traits (tolerance to high temperature, di¡erent viability and longevity pattern) or behavioural di¡erentiation, manifested in habitat choice and non-random mating. This remarkable di¡erentiation has evolved despite a very small interslope distance (a few hundred metres only). Our hypothesis is that strong interslope microclimatic contrast caused di¡erential selection for ¢tness-related traits accompanied by behavioural di¡erentiation and reinforced by some sexual isolation, which started incipient speciation. Here we describe the results of a systematic analysis of sexual behaviour in a non-choice situation and several reproductive parameters of D. melanogaster populations from the opposite slopes of`Evolution Canyon'. The evidence indicates that: (i) mate choice derives from di¡erences in mating propensity and discrimination; (ii) females from the milder north-facing slope discriminate strongly against males of the opposite slope; (iii) both sexes of the south-facing slope display distinct reproductive and behavioural patterns with females showing increased fecundity, shorter time before remating and relatively higher receptivity, and males showing higher mating propensity. These patterns represent adaptive life strategies contributing to higher ¢tness.

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Regulation of Drosophila life-span: Effect of genetic background, sex, mating and social status

Iliadi

Boulianne

2009

Experimental Gerontology

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Equilibrative Nucleoside Transporter 2 Regulates Associative Learning and Synaptic Function inDrosophila

Knight

Harvey²,

Iliadi³

et al. 2010

J. Neurosci.

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Nucleoside transporters are evolutionarily conserved proteins that are essential for normal cellular function. In the present study, we examined the role of equilibrative nucleoside transporter 2 (ent2) in Drosophila. Null mutants of ent2 are lethal during late larval/early pupal stages, indicating that ent2 is essential for normal development. Hypomorphic mutant alleles of ent2, however, are viable and exhibit reduced associative learning. We additionally used RNA interference to knock down ent2 expression in specific regions of the CNS and show that ent2 is required in the ␣/␤ lobes of the mushroom bodies and the antennal lobes. To determine whether the observed behavioral defects are attributable to defects in synaptic transmission, we examined transmitter release at the larval neuromuscular junction (NMJ). Excitatory junction potentials were significantly elevated in ent2 mutants, whereas paired-pulse plasticity was reduced. We also observed an increase in stimulus dependent calcium influx in the presynaptic terminal. The defects observed in calcium influx and transmitter release probability at the NMJ were rescued by introducing an adenosine receptor mutant allele (AdoR 1 ) into the ent2 mutant background. The results of the present study provide the first evidence of a role for ent2 function in Drosophila and suggest that the observed defects in associative learning and synaptic function may be attributable to changes in adenosine receptor activation.

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Drosophila mutants lacking octopamine exhibit impairment in aversive olfactory associative learning

Iliadi

Boulianne

2017

Eur J of Neuroscience

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Octopamine is a biogenic amine in invertebrates that is considered a functional homolog of vertebrate norepinephrine, acting as a neurotransmitter, neuromodulator and neurohormone. Octopamine regulates many physiological processes such as metabolism, reproduction and different types of behaviour including learning and memory. Previous studies in insects led to the notion that acquisition of an olfactory memory depends on the octopaminergic system during appetitive (reward-based) learning, but not in the case of aversive (punishment-based) learning. Here, we provide several lines of evidence demonstrating that aversive associative olfactory learning in Drosophila is also dependent on octopamine signalling. Specifically, we used Drosophila Tbh (tyramine-b-hydroxylase) mutants, which lack octopamine and are female sterile, to determine whether octopamine plays a role in aversive learning. We show that Tbh mutant flies exhibit a significant reduction in learning compared to control lines that is independent of either genetic background or the methods used to induce aversive olfactory memory. We also show that the learning deficits observed in Tbh mutants are not due to defects in sensorimotor behaviours. Finally, to unambiguously demonstrate that octopamine synthesis plays a role in aversive olfactory learning, we performed rescue experiments using the Gal4/UAS system. We show that expression of UAS-Tbh in octopamine/tyraminergic neurons using Tdc2-Gal4 in Tbh null mutant flies fully rescued both the aversive learning defects and female sterility observed in Tbh mutants.

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nemy encodes a cytochrome b561 that is required for Drosophila learning and memory

Iliadi

Avivi

Iliadi

et al. 2008

Proc. Natl. Acad. Sci. U.S.A.

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Although many genes have been shown to play essential roles in learning and memory, the precise molecular and cellular mechanisms underlying these processes remain to be fully elucidated. Here, we present the molecular and behavioral characterization of the Drosophila memory mutant nemy. We provide multiple lines of evidence to show that nemy arises from a mutation in a Drosophila homologue of cytochrome B561. nemy is predominantly expressed in neuroendocrine neurons in the larval brain, and in mushroom bodies and antennal lobes in the adult brain, where it is partially coexpressed with peptidyl ␣-hydroxylating monooxygenase (PHM), an enzyme required for peptide amidation. Cytochrome b561 was found to be a requisite cofactor for PHM activity and we found that the levels of amidated peptides were reduced in nemy mutants. Moreover, we found that knockdown of PHM gave rise to defects in memory retention. Altogether, the data are consistent with a model whereby cytochrome B561-mediated electron transport plays a role in memory formation by regulating intravesicular PHM activity and the formation of amidated neuropeptides.

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Mutations in the Drosophila homolog of human PLA2G6 give rise to age-dependent loss of psychomotor activity and neurodegeneration

Iliadi

Gluscencova

Iliadi

et al. 2018

Sci Rep

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Infantile neuroaxonal dystrophy (INAD) is a fatal neurodegenerative disorder that typically begins within the first few years of life and leads to progressive impairment of movement and cognition. Several years ago, it was shown that >80% of patients with INAD have mutations in the phospholipase gene, PLA2G6. Interestingly, mutations in PLA2G6 are also causative in two other related neurodegenerative diseases, atypical neuroaxonal dystrophy and Dystonia-parkinsonism. While all three disorders give rise to similar defects in movement and cognition, some defects are unique to a specific disorder. At present, the cellular mechanisms underlying PLA2G6-associated neuropathology are poorly understood and there is no cure or treatment that can delay disease progression. Here, we show that loss of iPLA2-VIA, the Drosophila homolog of PLA2G6, gives rise to age-dependent defects in climbing and spontaneous locomotion. Moreover, using a newly developed assay, we show that iPLA2-VIA mutants also display impairments in fine-tune motor movements, motor coordination and psychomotor learning, which are distinct features of PLA2G6-associated disease in humans. Finally, we show that iPLA2-VIA mutants exhibit increased sensitivity to oxidative stress, progressive neurodegeneration and a severely reduced lifespan. Altogether, these data demonstrate that Drosophila iPLA2-VIA mutants provide a useful model to study human PLA2G6-associated neurodegeneration.

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Peculiarities of the courtship song in the Drosophila melanogaster populations adapted to gradient of microecological conditions

Iliadi

Kamyshev

Попов

et al. 2009

J Evol Biochem Phys

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Iliadi

Rashkovetsky

et al. 2002

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Evolutionary biology considers migration behavior as central in genetic structure of populations and speciation. Here we report on emigration patterns in Drosophila melanogaster behavior under laboratory conditions. For this study, a special apparatus was employed that includes a few important changes in its design and size compared with other known systems. The results presented in this paper were obtained on flies derived from natural populations of two contrasting climatic and geographical regions, from mesic northern and xeric southern parts of Israel. Highly significant difference between sexes in emigration activity was found for both localities. Emigration activity of females appeared to be higher than that of males. We also found that the flies' geographic origin affects emigration behavior (flies from a relatively closed natural system seem to display lower emigration ability than those from an open habitat), although broader sampling from various habitats is needed to confirm these results.

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Natalia Iliadi

Sexual and reproductive behaviour ofDrosophila melanogasterfrom a microclimatically interslope differentiated population of ‘Evolution Canyon’ (Mount Carmel, Israel)

Regulation of Drosophila life-span: Effect of genetic background, sex, mating and social status

Equilibrative Nucleoside Transporter 2 Regulates Associative Learning and Synaptic Function inDrosophila

Drosophila mutants lacking octopamine exhibit impairment in aversive olfactory associative learning

nemy encodes a cytochrome b561 that is required for Drosophila learning and memory

Mutations in the Drosophila homolog of human PLA2G6 give rise to age-dependent loss of psychomotor activity and neurodegeneration

Peculiarities of the courtship song in the Drosophila melanogaster populations adapted to gradient of microecological conditions

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