Long-term mildronate treatment increased Proteobacteria level in gut microbiome, and caused behavioral deviations and transcriptome change in liver, heart and brain of healthy mice

Mildronate is a cardiac and neuroprotective drug that is widely used in some countries. By inhibiting carnitine biosynthesis, mildronate impairs the fatty acids transport into mitochondria, thereby decreasing the β-oxidation intensity. Since 2016, it has been prohibited by the World Anti-Doping Agency (WADA). However, the information on its safety and its influence on the athletes' health is scarce. There are no published studies on whether mildronate-induced long-term metabolism “rearrangement” may cause negative effects on high-metabolic-rate organs and on the whole organism. Here, we demonstrate that long-term mildronate treatment of healthy mice induced global metabolism change at the transcriptome level in liver, heart, and brain. Mildronate treatment also induced some behavioral changes such as anxiety-related behavior and diminished explorative behavior. We also found that mildronate induced a dysbiosis, as manifested by an increase in Proteobacteria level in gut microbiome. At the same time, the absence of a statistically significant increase in mouse strength and endurance procedures suggests that mildronate effect on productivity is negligible. The sum of our data suggests that long-term treatment of healthy mice with mildronate induces dysbiosis and behavioral deviations despite the effectiveness of mildronate for cardiac and neurological diseases. Thus, we suggest that long-term mildronate treatment is undesirable or at the very least should be accompanied by prebiotics treatments, but this issue should be studied further. •Mildronate treatment induced metabolism changing at the transcriptome level.•Mildronate treatment induced some behavioral occlusions.•Mildronate induced dysbiosis and increase Proteobacteria level in gut microbiome.•Mildronate does not induced improvement of performance or endurance in mice.