Project description:Drosophila melanogaster adult flies fed on food containing 16 mg/ml of pentylenetetrazole (PTZ) in the food show a hyperkinetic behavior within 24 hours. Half of that concentration, i.e., 8 mg/ml, of PTZ, if fed for seven days, though doesn’t cause seizure-like behavior, results in a decreased climbing speed in flies. This change in locomotor behavior is progressive and becomes significant only on seventh day of the treatment. We also examined flies’ locomotor behavior secondary to PTZ withdrawal. Interestingly, an increased climbing speed was found to develop seven days after withdrawal. Importantly, antiepileptic drugs showed effectiveness in the above fly model. Earlier, we submitted in GEO time series of fly head microarray gene expression profiling during chronic PTZ and PTZ withdrawal phase. We also submitted previously expression profiles associated with antiepileptic drug treatment. Here, we have undertaken a different line of work. Having developed a well characterized acquired model of behavioral and gene expression plasticity, we found an opportunity here to investigate if drug exposure to adult males could cause transgenerational effect. To probe this, we carried out a systematic study at both behavioral and microarray gene expression levels. In the latter, we asked the question that do F0 testis, F1 males’ head, F1 females’ head, F1 testis, F2 males’ head and F2 females’ head show gene expression changes if F0 male parents had a history of PTZ exposure? A total of 28 microarray slides were used in this study.
Project description:We have recently developed a Drosophila behavioral- and transcriptomic- based (systems) model of chronic pentylenetetrazole (PTZ) induced locomotor plasticity. Pharmacological validation using antiepileptic drugs (AEDs) shows that the model is predictive of antiepileptic, antiepileptogenic, disease-modifying and neuroprotective activities. This model is however developed using male flies. The present submission relates to microarray gene expression profiling of fly heads after treatment of female Drosophila adults with PTZ for seven days subsequent withdrawal of PTZ for next seven days. Expression profiles have been generated at three time points during chronic PTZ treatment, namely 12 hrs, 2nd day and 7th day and at the end of withdrawal period, i.e., 14th day from the beginning of the treatment. Keywords: Drug response