OBJECTIVE: Investigation was conducted to understand the mechanism of action of diacylglycerol acyltransferase 1 (DGAT1) using small molecules DGAT1 inhibitors, compounds K and L. DESIGN AND METHODS: Biochemical and stable-label tracer approaches were applied to interrogate the functional activities of compounds K and L on TG synthesis and changes of carbon flow. Energy homeostasis and gut peptide release upon DGAT1 inhibition was conducted in mouse and dog models. RESULTS: Compounds K and L, dose-dependently inhibits post-prandial TG excursion in mouse and dog models. Weight loss studies in WT and Dgat1(-/-) mice, confirmed that the effects of compound K on body weight loss is mechanism-based. Compounds K and L altered incretin peptide release following oral fat challenge. Immunohistochemical studies with intestinal tissues demonstrate lack of detectable DGAT1 immunoreactivity in enteroendocrine cells. Furthermore, (13) C-fatty acid tracing studies indicate that compound K inhibition of DGAT1 increased the production of phosphatidyl choline (PC). CONCLUSION: Treatment with DGAT1 inhibitors improves lipid metabolism and body weight. DGAT1 inhibition leads to enhanced PC production via alternative carbon channeling. Immunohistological studies suggest that DGAT1 inhibitor's effects on plasma gut peptide levels are likely via an indirect mechanism. Overall these data indicate a translational potential towards the clinic.
OBJECTIVE: Investigation was conducted to understand the mechanism of action of diacylglycerol acyltransferase 1 (DGAT1) using small molecules DGAT1 inhibitors, compounds K and L. DESIGN AND METHODS: Biochemical and stable-label tracer approaches were applied to interrogate the functional activities of compounds K and L on TG synthesis and changes of carbon flow. Energy homeostasis and gut peptide release upon DGAT1 inhibition was conducted in mouse and dog models. RESULTS: Compounds K and L, dose-dependently inhibits post-prandial TG excursion in mouse and dog models. Weight loss studies in WT and Dgat1(-/-) mice, confirmed that the effects of compound K on body weight loss is mechanism-based. Compounds K and L altered incretin peptide release following oral fat challenge. Immunohistochemical studies with intestinal tissues demonstrate lack of detectable DGAT1 immunoreactivity in enteroendocrine cells. Furthermore, (13) C-fatty acid tracing studies indicate that compound K inhibition of DGAT1 increased the production of phosphatidyl choline (PC). CONCLUSION: Treatment with DGAT1 inhibitors improves lipid metabolism and body weight. DGAT1 inhibition leads to enhanced PC production via alternative carbon channeling. Immunohistological studies suggest that DGAT1 inhibitor's effects on plasma gut peptide levels are likely via an indirect mechanism. Overall these data indicate a translational potential towards the clinic.
Authors: Niklas Mejhert; Leena Kuruvilla; Katlyn R Gabriel; Shane D Elliott; Marie-Aude Guie; Huajin Wang; Zon Weng Lai; Elizabeth A Lane; Romain Christiano; Nika N Danial; Robert V Farese; Tobias C Walther Journal: Mol Cell Date: 2020-02-04 Impact factor: 17.970
Authors: Shuwen He; Qingmei Hong; Zhong Lai; David X Yang; Pauline C Ting; Jeffrey T Kuethe; Timothy A Cernak; Kevin D Dykstra; Donald M Sperbeck; Zhicai Wu; Yang Yu; Ginger X Yang; Tianying Jian; Jian Liu; Deodial Guiadeen; Arto D Krikorian; Lisa M Sonatore; Judyann Wiltsie; Jinqi Liu; Judith N Gorski; Christine C Chung; Jack T Gibson; JeanMarie Lisnock; Jianying Xiao; Michael Wolff; Sharon X Tong; Maria Madeira; Bindhu V Karanam; Dong-Ming Shen; James M Balkovec; Shirly Pinto; Ravi P Nargund; Robert J DeVita Journal: ACS Med Chem Lett Date: 2014-09-08 Impact factor: 4.345
Authors: Shuwen He; Qingmei Hong; Zhong Lai; Zhicai Wu; Yang Yu; David W Kim; Pauline C Ting; Jeffrey T Kuethe; Ginger X Yang; Tianying Jian; Jian Liu; Deodial Guiadeen; Arto D Krikorian; Donald M Sperbeck; Lisa M Sonatore; Judyann Wiltsie; Christine C Chung; Jack T Gibson; JeanMarie Lisnock; Beth A Murphy; Judith N Gorski; Jinqi Liu; Dunlu Chen; Xiaoli Chen; Michael Wolff; Sharon X Tong; Maria Madeira; Bindhu V Karanam; Dong-Ming Shen; James M Balkovec; Shirly Pinto; Ravi P Nargund; Robert J DeVita Journal: ACS Med Chem Lett Date: 2013-06-06 Impact factor: 4.345
Authors: Nina L Gluchowski; Katlyn R Gabriel; Chandramohan Chitraju; Roderick T Bronson; Niklas Mejhert; Sebastian Boland; Kun Wang; Zon Weng Lai; Robert V Farese; Tobias C Walther Journal: Hepatology Date: 2019-06-26 Impact factor: 17.425
Authors: Irani Khatun; Ronald W Clark; Nicholas B Vera; Kou Kou; Derek M Erion; Timothy Coskran; Walter F Bobrowski; Carlin Okerberg; Bryan Goodwin Journal: J Biol Chem Date: 2015-12-07 Impact factor: 5.157
Authors: Chandramohan Chitraju; Niklas Mejhert; Joel T Haas; L Grisell Diaz-Ramirez; Carrie A Grueter; Jason E Imbriglio; Shirly Pinto; Suneil K Koliwad; Tobias C Walther; Robert V Farese Journal: Cell Metab Date: 2017-08-01 Impact factor: 27.287
Authors: Eric S Muise; Yonghua Zhu; Andreas Verras; Bindhu V Karanam; Judith Gorski; Drew Weingarth; Hua V Lin; Joyce Hwa; John R Thompson; Guanghui Hu; Jian Liu; Shuwen He; Robert J DeVita; Dong-Ming Shen; Shirly Pinto Journal: PLoS One Date: 2014-02-18 Impact factor: 3.240