Steffen Sinning scite author profile

Molecular modeling and structure-activity relationship studies were performed to propose a model for binding of the neurotransmitter serotonin (5-HT) to the human serotonin transporter (hSERT). Homology models were constructed using the crystal structure of a bacterial homologue, the leucine transporter from Aquifex aeolicus, as the template and three slightly different sequence alignments. Induced fit docking of 5-HT into hSERT homology models resulted in two different binding modes. Both show a salt bridge between Asp98 and the charged primary amine of 5-HT, and both have the 5-HT C6 position of the indole ring pointing toward Ala173. The difference between the two orientations of 5-HT is an enantiofacial discrimination of the indole ring, resulting in the 5-hydroxyl group of 5-HT being vicinal to either Ser438/Thr439 or Ala169/Ile172/Ala173. To assess the binding experimentally, binding affinities for 5-HT and 17 analogues toward wild type and 13 single point mutants of hSERT were measured using an approach termed paired mutant-ligand analogue complementation (PaMLAC). The proposed ligand-protein interaction was systematically examined by disrupting it through site-directed mutagenesis and re-establishing another interaction via a ligand analogue matching the mutated residue, thereby minimizing the risk of identifying indirect effects. The interactions between Asp98 and the primary amine of 5-HT and the interaction between the C6-position of 5-HT and hSERT position 173 was confirmed using PaMLAC. The measured binding affinities of various mutants and 5-HT analogues allowed for a distinction between the two proposed binding modes of 5-HT and biochemically support the model for 5-HT binding in hSERT where the 5-hydroxyl group is in close proximity to Thr439.

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Binding and Orientation of Tricyclic Antidepressants within the Central Substrate Site of the Human Serotonin Transporter

Sinning

Musgaard

Jensen

et al. 2010

Journal of Biological Chemistry

129

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The serotonergic system plays an important role in many psychiatric disorders. Its role in depression is well established (1). The majority of antidepressants, including TCAs, 6 cause increased synaptic serotonin (5-HT) levels via blockade of 5-HT reuptake into the presynaptic neuron (2-4) by competitive inhibition of hSERT. TCAs have been in clinical use since the 1950s, with imipramine being the first and most prominent compound (5). In severely depressed hospitalized patients, TCAs appear to be more efficacious than selective serotonin reuptake inhibitors (6). TCAs remain in widespread clinical use, especially for treatment-resistant depression (7).hSERT belongs to the neurotransmitter sodium symporter family (2, 8). These transporters utilize the electrochemical gradient of sodium and chloride ions to accumulate 5-HT against its own gradient (9 -11). No experimentally solved structures of the monoamine transporters exist, including hSERT and the dopamine and norepinephrine transporters. However, the structure of LeuT, a bacterial homolog of the neurotransmitter sodium symporters, in a substrate-occluded conformation, was reported in 2005 (12). Two sodium ions (12) and a chloride ion bind near the central substrate site (13-14) structurally and functionally coupling sodium and chloride binding to substrate binding. Recently, different transport mechanisms have been suggested (15,16).Subsequently, a low affinity noncompetitive binding site for TCAs in the extracellular vestibule of the LeuT 11 Å above the central binding site was identified (17,18). The relevance of the LeuT vestibular site for TCA binding to the physiologically relevant target, hSERT, is a matter of debate. This study identifies the central binding site, not the putative vestibular site, as relevant for TCA binding to hSERT and furthermore describes and validates the orientation of TCAs within this site.In this paper, we present induced fit docking studies of imipramine and selected analogs in the previously described homology models of hSERT (19). We present binding affinity studies of 10 imipramine analogs (Fig. 1 Copenhagen Ø, Denmark. 4 To whom correspondence may be addressed. E-mail: birgit@chem.au.dk. 5 To whom correspondence may be addressed. E-mail: owiborg@post.tele.dk. 6 The abbreviations used are: TCA, tricyclic antidepressant; 5-HT, serotonin; hSERT, human SERT; WT, wild type; PaMLAC, paired mutation ligand analog complementation; MD, molecular dynamics; r.m.s., root mean square.

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A direct interaction of cholesterol with the dopamine transporter prevents its out-to-inward transition

et al. 2018

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Monoamine transporters (MATs) carry out neurotransmitter reuptake from the synaptic cleft, a key step in neurotransmission, which is targeted in the treatment of neurological disorders. Cholesterol (CHOL), a major component of the synaptic plasma membrane, has been shown to exhibit a modulatory effect on MATs. Recent crystal structures of the dopamine transporter (DAT) revealed the presence of two conserved CHOL-like molecules, suggesting a functional protein-CHOL direct interaction. Here, we present extensive atomistic molecular dynamics (MD) simulations of DAT in an outward-facing conformation. In the absence of bound CHOL, DAT undergoes structural changes reflecting early events of dopamine transport: transition to an inward-facing conformation. In contrast, in the presence of bound CHOL, these conformational changes are inhibited, seemingly by an immobilization of the intracellular interface of transmembrane helix 1a and 5 by CHOL. We also provide evidence, from coarse grain MD simulations that the CHOL sites observed in the DAT crystal structures are preserved in all human monoamine transporters (dopamine, serotonin and norepinephrine), suggesting that our findings might extend to the entire family.

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Directed Evolution of a Selective and Sensitive Serotonin Sensor via Machine Learning

Unger

Keller

Altermatt

et al. 2020

Cell

149

116

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Cholesterol binding to a conserved site modulates the conformation, pharmacology, and transport kinetics of the human serotonin transporter

Laursen

Severinsen

Kristensen

et al. 2018

Journal of Biological Chemistry

107

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The serotonin transporter (SERT) is important for reuptake of the neurotransmitter serotonin from the synaptic cleft and is also the target of most antidepressants. It has previously been shown that cholesterol in the membrane bilayer affects the conformation of the serotonin transporter. Although recent crystal structures have identified several potential cholesterol binding sites it is unclear whether any of these potential cholesterol sites are occupieed by cholesterol and functionally relevant. In the present study we focus on the conserved Cholesterol Site 1 (CHOL1) located in a hydrophobic groove between TM1a, TM5 and TM7. By molecular dynamics simulations we demonstrate a strong binding of cholesterol to CHOL1 in a membrane bilayer environment. In biochemical experiments we find that cholesterol depletion induces a more inward-facing conformation favoring substrate analog binding. Consistent with this, we find that mutations in CHOL1 with a negative impact on cholesterol binding induce a more inward-facing conformation and vice versa mutations with a positive impact on cholesterol binding induce a more outward-facing conformation. This shift in transporter conformation dictated by the ability to bind cholesterol in CHOL1 affects the apparent substrate affinity, maximum transport velocity and turn-over rates. Taken together we show that occupation of CHOL1 by cholesterol is of major importance in the transporter conformational equilibrium which in turn dictates ligand potency and serotonin transport activity. Based on our findings, we propose a mechanistic model that incorporates the role of cholesterol binding to CHOL1 in the function of SERT.

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Steffen Sinning

Binding of Serotonin to the Human Serotonin Transporter. Molecular Modeling and Experimental Validation

Binding and Orientation of Tricyclic Antidepressants within the Central Substrate Site of the Human Serotonin Transporter

A direct interaction of cholesterol with the dopamine transporter prevents its out-to-inward transition

Directed Evolution of a Selective and Sensitive Serotonin Sensor via Machine Learning

Cholesterol binding to a conserved site modulates the conformation, pharmacology, and transport kinetics of the human serotonin transporter

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