Frentizole derivatives with mTOR inhibiting and senomorphic properties.

Frentizole is immunosuppressive drug with low acute toxicity and lifespan-prolonging effect. Recently, frentizole´s potential to disrupt toxic amyloid β (A β) - A β -binding alcohol dehydrogenase (ABAD) interaction in mitochondria in Alzheimer´s brains has been revealed. Another broadly studied drug with anti-aging and immunosuppressive properties is an mTOR inhibitor – rapamycin. Since we do not yet precisely know what is behind the lifespan-prolonging effect of rapamycin and frentizole, whether it is the ability to inhibit the mTOR signaling pathway, reduction in mitochondrial toxicity, immunosuppressive effect, or a combination of all of them, we have decided within our previous work to dock the entire in-house library of almost 240 A β -ABAD modulators into the FKBP-rapamycin-binding (FRB) domain of mTOR in order to interlink mTOR-centric and mitochondrial free radical-centric theories of aging and thus to increase the chances of success. Based on the results of the docking study, molecular dynamic simulation and MM-PBSA calculations, we have selected nine frentizole-like compounds (1 – 9). Subsequently, we have determined their real physical-chemical properties (logP, logD, pKa and solubility in water and buffer), cytotoxic/cytostatic, mTOR inhibitory, and in vitro anti-senescence (senolytic and senomorphic) effects. Finally, the three best candidates (4 , 8 , and 9) have been forwarded for in vivo safety studies to assess their acute toxicity and pharmacokinetic properties. Based on obtained results, only compound 4 demonstrated the best results within in vitro testing, the ability to cross the blood-brain barrier and the lowest acute toxicity (LD 50 in male mice 559 mg/kg; LD 50 in female mice 575 mg/kg). [Display omitted] • The most studied anti-aging drug is mTOR inhibitor – rapamycin. • Another theory explaining aging is based on excessive free radical production in mitochondria. • Presented compounds (1 – 9) combine both theories (mTOR- and free radical-centric theories). • 1 – 9 showed cytotoxic/cytostatic, mTOR inhibitory, and in vitro anti-senescence effects. • 4 proved to be relatively safe within the test of acute toxicity with the ability to cross the BBB. [ABSTRACT FROM AUTHOR]