@article {Bhat2020.07.14.202325, author = {Shreyas Bhat and Daryl A. Guthrie and Ameya Kasture and Ali El-Kasaby and Jianjing Cao and Alessandro Bonifazi and Therese Ku and JoLynn B. Giancola and Thomas Hummel and Michael Freissmuth and Amy Hauck Newman}, title = {A tropane-based ibogaine analog rescues folding-deficient SERT and DAT}, elocation-id = {2020.07.14.202325}, year = {2020}, doi = {10.1101/2020.07.14.202325}, publisher = {Cold Spring Harbor Laboratory}, abstract = {Missense mutations that give rise to protein misfolding are rare, but collectively, defective protein folding diseases are consequential. Folding deficiencies are amenable to pharmacological correction (pharmacochaperoning), but the underlying mechanisms remain enigmatic. Ibogaine and its active metabolite noribogaine correct folding defects in the dopamine transporter (DAT), but they rescue only a very limited number of folding-deficient DAT mutants, which give rise to infantile Parkinsonism and dystonia. Herein, a series of analogs was generated by reconfiguring the complex ibogaine ring system and exploring the structural requirements for binding to wild type transporters, and for rescuing two equivalent synthetic folding-deficient mutants, SERT-PG601,602AA and DAT-PG584,585AA. The most active tropane-based analog (9b) was also an effective pharmacochaperone in vivo, in Drosophila harboring DAT-PG584,585AA and rescued six out of 13 disease-associated human DAT mutants in vitro. Hence, a novel lead pharmacochaperone has been identified that demonstrates medication development potential for patients harboring DAT mutants.Competing Interest StatementThe authors have declared no competing interest.}, URL = {https://www.biorxiv.org/content/early/2020/07/14/2020.07.14.202325}, eprint = {https://www.biorxiv.org/content/early/2020/07/14/2020.07.14.202325.full.pdf}, journal = {bioRxiv} }