Parkinson’s Disease-Induced Zebrafish Models: Focussing on Oxidative Stress Implications and Sleep Processes

الملخص EN

The complex yet not fully understood pathophysiology of Parkinson’s disease includes an important molecular component consisting of oxidative status changes, thus leading to oxidative stress occurrence.

While no particular evidence has been reported that describes the relationship between oxidative stress and the molecular mechanisms behind Parkinson’s disease development, animal model studies has shown that oxidative stress induction could modulate Parkinson’s disease symptomatology.

Despite the inability to perfectly replicate human disease in animals and despite that Parkinson’s disease has not been reported in any animal species, animal modeling is one of the most important tools in understanding the complex mechanisms of human disorders.

In this way, this study is aimed at detailing this particular relationship and describing the molecular mechanisms underlying Parkinson’s disease in animal models, focusing on the potential advantages and disadvantages of zebrafish in this context.

The information relevant to this topic was gathered using major scientific database research (PubMed, Google Scholar, Web of Science, and Scopus) based on related keywords and inclusion criteria.

Thus, it was observed that oxidative stress possesses an important role in Parkinson’s disease as shown by numerous animal model studies, many of which are based on rodent experimental models.

However, an emerging impact of the zebrafish model was observed in the research of Parkinson’s disease pathological mechanisms with regard to disease development factors and the cause-effect relationship between oxidative stress and comorbidities (such as depression, hyposmia, fatigue, sleep disturbances, and cognitive deficits) and also with regard to the pharmacological potential of antioxidant molecules in Parkinson’s disease treatment.