PUBLISHED WORK
Selected publications
Molecular Metabolism, 2020 Nov 20, 101123
INHIBITION OF MITOCHONDRIAL FISSION AND INOS IN THE DORSAL VAGAL COMPLEX PROTECTS FROM OVEREATING AND WEIGHT GAIN.
Patel, B., New, L. E., Griffiths, J. C., Deuchars, J., & Filippi, B. M.
Frontiers in Endocrinology. Nov. 2020 1–17.
MITOCHONDRIAL DYNAMICS IN THE BRAIN ARE ASSOCIATED WITH FEEDING, GLUCOSE HOMEOSTASIS, AND WHOLE-BODY METABOLISM
Haigh, J. L., New, L. E., & Filippi, B. M.
Cell Reports. 2017 March 7; 18, 2301–2309
DYNAMIN-RELATED PROTEIN 1-DEPENDENT MITOCHONDRIAL FISSION CHANGES IN THE DORSAL VAGAL COMPLEX REGULATE INSULIN ACTION.
Filippi B.M., Abraham M. A., Silva P. A., Rasti M., LaPierre M. P., Bauer P. V., Rocheleau J. V., & Lam T. K. T.
Nat Commun. 2016 Nov 22; 7:13501
INHIBITION OF GLYCINE TRANSPORTER-1 IN THE DORSAL VAGAL COMPLEX IMPROVES METABOLIC HOMEOSTASIS IN DIABETES AND OBESITY.
Yue J.T. Y., Abraham M.A., Bauer P.V., LaPierre M.P., Wang P., Duca F.A., Filippi B.M., Chan O., Lam T.K.T.our piece.
Nature Medicine. 2015 Apr 6; 21, 498-505
ACTIVATION OF DUODENAL SIRT1 SENSITIZES INSULIN TO LOWER GLUCOSE PRODUCTION THROUGH A NEURONAL NETWORK.
Côté C.D., Rasmussen B.A., Duca F.A., Zadeh-Tahmasebi M., Daljeet D, Breen D.M., Baur J.A., Filippi B.M. & Lam T.K.T.
Nature Medicine. 2015 Apr 6; 21, 506-511
METFORMIN ACTIVATES DUODENAL AMPK AND A NEURONAL NETWORK TO LOWER GLUCOSE PRODUCTION.
Duca F.A., Côté C.D., Rasmussen B.A., Zadeh-Tahmasebi M., Rutter G.A., Filippi B.M., & Lam T.K.T.
Diabetes 2014 Mar; 63(3):892-9
INSULIN SIGNALS THROUGH THE DORSAL VAGAL COMPLEX TO LOWER FOOD INTAKE.
Filippi B.M., Bassiri A., Abraham M.A., Duca F.A., Yue J.T.Y and Lam T.K.T
Cell Metabolism. 2012 Oct 3; 16(4):500-10
INSULIN ACTIVATES ERK1/2 SIGNALING IN THE DORSAL VAGAL COMPLEX TO INHIBIT GLUCOSE PRODUCTION.
Filippi B.M., Yang C., Tang C. and Lam T.K.T.