1 IntroductionGreen tea, derived fr

1 Introduction
Green tea, derived from the plant Camellia sinensis, is not only a popular drink worldwide, but it is also considered a nutraceutical (Mak, 2012), as a neuroprotective (Weinreb, Mandel, Amit, & Youdim, 2004), cardioprotective (Basu, Lucas, 2007 and Zhong et al, 2015) and anti-carcinogenic agent (Fujiki, Sueoka, Watanabe, & Suganuma, 2015). In spite of reported health benefits with green tea, there are some reports on possible adverse effects with its excessive consumption. In 2008, the US Pharmacopeia identified 34 cases of cytolytic and cholestatic liver damage associated with long-term use or high usage of green tea products (Sarma et al, 2008 and Schonthal, 2011). Furthermore, green tea components, particularly its primary active flavonoid, epigallocatechin gallate (EGCG), has been shown to interact with and influence metabolism of a number of drugs (Andersen et al, 2013 and Cuzzolin et al, 2006) and cytochrome P450 substrates (Schonthal, 2011 and Yang, Pan, 2012), which could result in therapeutic failure or toxic drug levels. During investigations of green tea's actions on different organ systems, unwarranted effects have been cited at high doses, suggesting limitations to its use and questioning its safety. Such effects include liver (Mazzanti, Di Sotto, & Vitalone, 2015), gastrointestinal (Schonthal, 2011), haematological and renal toxicities (Wu, Yao, & Boring, 2011), as well as decreased hormonal levels (Chandra et al, 2011 and Kao et al, 2000), sperm counts (Chandra et al, 2011 and De Amicis et al, 2012) and atrophy of reproductive organs (Kapetanovic et al, 2009 and Wu et al, 2011). While such toxicities have been cited in a number of reports, they are often over-looked and their mechanisms are not fully understood. In line with some of these observations, we have previously reported that while green tea polyphenols (GTP) increased the lifespan of Drosophila melanogaster, it resulted in a reduction in male fertility (Lopez et al., 2014).

The fruit fly, Drosophila melanogaster, with its evolutionary conserved biological pathways, is a commonly used model organism in biomedical research (Jafari, Long, Mueller, & Rose, 2006) and an emerging model to screen for adverse drug reactions (Avanesian, Semnani, & Jafari, 2009). Evaluation of drug-induced developmental and reproductive effects is commonly used to assess adverse drug reactions (Siddique et al, 2009 and Weisbrot et al, 2003).

The Drosophila life cycle consists of distinct developmental stages that include embryogenesis, 1st, 2nd and 3rd larval instars, pupae and adults (Kozlova & Thummel, 2000). Each stage is highly regulated by transcriptional control in response to nutritional, environmental and hormonal cues (Kozlova & Thummel, 2000). Considering the highly conserved pathways between fruit fly and mammalian reproductive systems, the fruit fly is considered an excellent model system for the evaluation of drug toxicities (Avanesian, Semnani, & Jafari, 2009). Reproductive phenotypes, including egg production, mating behaviour and fertility, are notable measurable characteristics. Female fecundity, defined as egg production, is a complex yet established phenotype to evaluate toxicity and has been used to evaluate the reproductive adverse effects of chemotherapeutic agents such as methotrexate (Affleck et al, 2006 and Kislukhin et al, 2013). In addition, Drosophila male fertility, defined as production of viable offspring, is also considered a phenotype to evaluate drug-induced toxicity since it has been shown to be influenced by a number of factors, such as mating behaviour, hormones, testes development, reproductive morphology, and spermatogenesis (Tiwari, Pragya, Ram, & Chowdhuri, 2011).

In this study, we observed that GTP at a high dose of 10 mg/mL resulted in delayed emergence, smaller offspring, morphological abnormalities in reproductive organs and reduced reproductive output. Collectively, our findings indicate that green tea at high doses can negatively impact development and reproductive physiology.