Reports

LeuT-Desipramine Structure Reveals How Antidepressants Block Neurotransmitter Reuptake

Zheng Zhou,¹ Juan Zhen,² Nathan K. Karpowich,¹ Regina M. Goetz,^1* Christopher J. Law,¹ Maarten E. A. Reith,² Da-Neng Wang¹

Tricyclic antidepressants exert their pharmacological effect—inhibiting the reuptake of serotonin, norepinephrine, and dopamine—by directly blocking neurotransmitter transporters (SERT, NET, and DAT, respectively) in the presynaptic membrane. The drug-binding site and the mechanism of this inhibition are poorly understood. We determined the crystal structure at 2.9 angstroms of the bacterial leucine transporter (LeuT), a homolog of SERT, NET, and DAT, in complex with leucine and the antidepressant desipramine. Desipramine binds at the inner end of the extracellular cavity of the transporter and is held in place by a hairpin loop and by a salt bridge. This binding site is separated from the leucine-binding site by the extracellular gate of the transporter. By directly locking the gate, desipramine prevents conformational changes and blocks substrate transport. Mutagenesis experiments on human SERT and DAT indicate that both the desipramine-binding site and its inhibition mechanism are probably conserved in the human neurotransmitter transporters.

¹ Kimmel Center for Biology and Medicine at the Skirball Institute of Biomolecular Medicine and Department of Cell Biology, New York University School of Medicine, 540 First Avenue, New York, NY 10016, USA.
² Departments of Psychiatry and Pharmacology, New York University School of Medicine, 540 First Avenue, New York, NY 10016, USA.

^* Present address: Department of Pharmacology, New York University School of Medicine, 540 First Avenue, New York, NY 10016, USA.

To whom correspondence should be addressed. E-mail: maarten.reith{at}med.nyu.edu; wang{at}saturn.med.nyu.edu

Read the Full Text

Location of the Antidepressant Binding Site in the Serotonin Transporter: IMPORTANCE OF SER-438 IN RECOGNITION OF CITALOPRAM AND TRICYCLIC ANTIDEPRESSANTS.

J. Andersen, O. Taboureau, K. B. Hansen, L. Olsen, J. Egebjerg, K. Stromgaard, and A. S. Kristensen (2009)
J. Biol. Chem. 284, 10276-10284
 |  Abstract »  |  Full Text »  |  PDF »

Binding of an octylglucoside detergent molecule in the second substrate (S2) site of LeuT establishes an inhibitor-bound conformation.

M. Quick, A.-M. L. Winther, L. Shi, P. Nissen, H. Weinstein, and J. A. Javitch (2009)
PNAS 106, 5563-5568
 |  Abstract »  |  Full Text »  |  PDF »

Amino acid transceptors: gate keepers of nutrient exchange and regulators of nutrient signaling.

H. S. Hundal and P. M. Taylor (2009)
Am J Physiol Endocrinol Metab 296, E603-E613
 |  Abstract »  |  Full Text »  |  PDF »

The molecular logic of sodium-coupled neurotransmitter transporters.

E. Gouaux (2009)
Phil Trans R Soc B 364, 149-154
 |  Abstract »  |  Full Text »  |  PDF »

Amitriptyline Activates Cardiac Ryanodine Channels and Causes Spontaneous Sarcoplasmic Reticulum Calcium Release.

N. Chopra, D. Laver, S. S. Davies, and B. C. Knollmann (2009)
Mol. Pharmacol. 75, 183-195
 |  Abstract »  |  Full Text »  |  PDF »

A Competitive Inhibitor Traps LeuT in an Open-to-Out Conformation.

S. K. Singh, C. L. Piscitelli, A. Yamashita, and E. Gouaux (2008)
Science 322, 1655-1661
 |  Abstract »  |  Full Text »  |  PDF »

Kinetic and Thermodynamic Assessment of Binding of Serotonin Transporter Inhibitors.

R. S. Martin, R. A. Henningsen, A. Suen, S. Apparsundaram, B. Leung, Z. Jia, R. K. Kondru, and M. E. Milla (2008)
J. Pharmacol. Exp. Ther. 327, 991-1000
 |  Abstract »  |  Full Text »  |  PDF »

Antidepressants Targeting the Serotonin Reuptake Transporter Act via a Competitive Mechanism.

S. Apparsundaram, D. J. Stockdale, R. A. Henningsen, M. E. Milla, and R. S. Martin (2008)
J. Pharmacol. Exp. Ther. 327, 982-990
 |  Abstract »  |  Full Text »  |  PDF »

Structure and Molecular Mechanism of a Nucleobase-Cation-Symport-1 Family Transporter.

S. Weyand, T. Shimamura, S. Yajima, S. Suzuki, O. Mirza, K. Krusong, E. P. Carpenter, N. G. Rutherford, J. M. Hadden, J. O'Reilly, et al. (2008)
Science 322, 709-713
 |  Abstract »  |  Full Text »  |  PDF »

Mechanism for alternating access in neurotransmitter transporters.

L. R. Forrest, Y.-W. Zhang, M. T. Jacobs, J. Gesmonde, L. Xie, B. H. Honig, and G. Rudnick (2008)
PNAS 105, 10338-10343
 |  Abstract »  |  Full Text »  |  PDF »

An Intracellular Interaction Network Regulates Conformational Transitions in the Dopamine Transporter.

J. Kniazeff, L. Shi, C. J. Loland, J. A. Javitch, H. Weinstein, and U. Gether (2008)
J. Biol. Chem. 283, 17691-17701
 |  Abstract »  |  Full Text »  |  PDF »

Comparative Molecular Field Analysis Using Selectivity Fields Reveals Residues in the Third Transmembrane Helix of the Serotonin Transporter Associated with Substrate and Antagonist Recognition.

C. C. Walline, D. E. Nichols, F. I. Carroll, and E. L. Barker (2008)
J. Pharmacol. Exp. Ther. 325, 791-800
 |  Abstract »  |  Full Text »  |  PDF »

The Substrates of the {gamma}-Aminobutyric Acid Transporter GAT-1 Induce Structural Rearrangements around the Interface of Transmembrane Domains 1 and 6.

A. Rosenberg and B. I. Kanner (2008)
J. Biol. Chem. 283, 14376-14383
 |  Abstract »  |  Full Text »  |  PDF »

Labeling of Dopamine Transporter Transmembrane Domain 1 with the Tropane Ligand N-[4-(4-Azido-3-[125I]iodophenyl)butyl]-2{beta}-carbomethoxy-3{beta}-(4-chlorophenyl)tropane Implicates Proximity of Cocaine and Substrate Active Sites.

M. L. Parnas, J. D. Gaffaney, M. F. Zou, J. R. Lever, A. H. Newman, and R. A. Vaughan (2008)
Mol. Pharmacol. 73, 1141-1150
 |  Abstract »  |  Full Text »  |  PDF »

Bound to Be Different: Neurotransmitter Transporters Meet Their Bacterial Cousins.

L. K. Henry, J. Meiler, and R. D. Blakely (2007)
Mol. Interv. 7, 306-309
 |  Abstract »  |  Full Text »  |  PDF »

To Advertise   |   Find Products