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A Novel Rapamycin Analog Is Highly Selective For Mtorc1 In Vivo., Katherine H. Schreiber, Sebastian I. Arriola Apelo, Deyang Yu, Jacqueline A Brinkman, Michael C Velarde, Faizan A Syed, Chen-Yu Liao, Emma L. Baar, Kathryn A. Carbajal, Dawn S. Sherman, Denise Ortiz, Regina Brunauer, Shany E. Yang, Stelios T Tzannis, Brian K Kennedy, Dudley W Lamming
A Novel Rapamycin Analog Is Highly Selective For Mtorc1 In Vivo., Katherine H. Schreiber, Sebastian I. Arriola Apelo, Deyang Yu, Jacqueline A Brinkman, Michael C Velarde, Faizan A Syed, Chen-Yu Liao, Emma L. Baar, Kathryn A. Carbajal, Dawn S. Sherman, Denise Ortiz, Regina Brunauer, Shany E. Yang, Stelios T Tzannis, Brian K Kennedy, Dudley W Lamming
Natural Sciences and Mathematics | Student Professional Publications
Rapamycin, an inhibitor of mechanistic Target Of Rapamycin Complex 1 (mTORC1), extends lifespan and shows strong potential for the treatment of age-related diseases. However, rapamycin exerts metabolic and immunological side effects mediated by off-target inhibition of a second mTOR-containing complex, mTOR complex 2. Here, we report the identification of DL001, a FKBP12-dependent rapamycin analog 40x more selective for mTORC1 than rapamycin. DL001 inhibits mTORC1 in cell culture lines and in vivo in C57BL/6J mice, in which DL001 inhibits mTORC1 signaling without impairing glucose homeostasis and with substantially reduced or no side effects on lipid metabolism and the immune system. In …