Studies of the Biogenic Amine Transporters 15. Identification of Novel Allosteric Dopamine Transporter Ligands with Nanomolar Potency

Rothman, Richard B.; Ananthan, Subramaniam; Partilla, John S.; Saini, Surendra Kumar; Moukha-Chafiq, Omar; Pathak, Vibha; Baumann, Michael H.

doi:10.1124/jpet.114.222299

Cited by 26 publications

(37 citation statements)

References 26 publications

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“…Further studies are needed to elucidate the specific contribution from the two binding sites to the measured affinity of compound 3. Due to the lack of consensus for quantitative determination of the allosteric potency, it is difficult to directly relate our findings to previous reports on SERT binding compounds possessing allosteric properties (Nandi et al, 2004;Nightingale et al, 2005;Kortagere et al, 2013;Rothman et al, 2015). We have previously attempted to produce high-affinity allosteric ligands for SERT (Banala et al, 2013), but none of them showed a notable loss in S1 affinity and, thus, did not show an S2: S1 affinity ratio comparable with the compounds reported herein.…”

Section: Figurementioning

confidence: 54%

“…Indeed, it has been suggested that the faster onset of action and higher efficacy of S-CIT compared with the racemic mixture is due to its allosteric action at the transporter (Mørk et al, 2003;Sanchez et al, 2004;Storustovu et al, 2004;Sanchez, 2006;Mansari et al, 2007). Other compounds with no apparent similarity to citalopram also possess allosteric properties for SERT (Rothman et al, 2015;Nightingale et al,…”

Section: Discussionmentioning

confidence: 99%

See 1 more Smart Citation

Structure–activity relationship studies of citalopram derivatives: examining substituents conferring selectivity for the allosteric site in the 5‐HT transporter

Larsen

Plenge

Andersen

et al. 2016

British J Pharmacology

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BACKGROUND AND PURPOSEThe 5-HT transporter (SERT) is a target for antidepressant drugs. SERT possesses two binding sites: the orthosteric (S1) binding site, which is the presumed target for current SERT inhibitors, and an allosteric (S2) site for which potential therapeutic effects are unknown. The antidepressant drug citalopram displays high-affinity S1 binding and low-affinity S2 binding. To elucidate a possible therapeutic role of allosteric inhibition of SERT, a drug that specifically targets the allosteric site is required. The purpose of this study was to find a compound having higher selectivity towards the S2 site. EXPERIMENTAL APPROACHWe performed a systematic structure-activity relationship study based on the scaffold of citalopram and the structurally closely related congener, talopram, which shows low-affinity S1 binding in SERT. The role of the four chemical substituents, which distinguish citalopram from talopram in conferring selectivity towards the S1 and S2 site, respectively, was assessed by determining the binding of 14 citalopram/talopram analogous to the S1 and S2 binding sites in SERT using membranes of COS7 cells transiently expressing SERT. KEY RESULTSThe structure-activity relationship study revealed that dimethyl citalopram possesses the highest affinity for the allosteric site relative to the S1 site in SERT and has approximately twofold selectivity for the allosteric site relative to the S1 site in SERT. CONCLUSIONS AND IMPLICATIONSThe compound could be a useful lead for future synthesis of drugs with high affinity and high selectivity towards the allosteric binding site.

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Section: Figurementioning

confidence: 54%

Section: Discussionmentioning

confidence: 99%

Structure–activity relationship studies of citalopram derivatives: examining substituents conferring selectivity for the allosteric site in the 5‐HT transporter

Larsen

Plenge

Andersen

et al. 2016

British J Pharmacology

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“…This pharmacological class includes therapeutic agents, abused drugs, and experimental compounds, and these drugs can function either as selective DAT inhibitors [e.g., GBR-12935 (1-[2-(diphenylmethoxy)ethyl]-4-(3-phenylpropyl)piperazine)] or as nonselective inhibitors of multiple monoamine transporters (e.g., cocaine) (Matecka et al, 1996). Recently, a new type of DAT inhibitor was identified that differs from prototype DAT inhibitors in three ways (Pariser et al, 2008;Rothman et al, 2015). Specifically, prototype DAT inhibitors like cocaine and GBR-12935 have similar potencies and high efficacies to block 1) extracellular-to-intracellular monoamine transport (i.e., monoamine uptake), 2) intracellular-toextracellular monoamine transport (i.e., amphetamine-induced monoamine efflux), and 3) binding to the DAT orthosteric binding-site labelled by radioligands such as [ 3 H]WIN35428.…”

Section: Introductionmentioning

confidence: 99%

“…The goal of this study was to evaluate the abuse-related behavioral and neurochemical effects produced in rats by SRI-31142 [2-(7-methylimidazo[1,2-a]pyridin-6-yl)-N-(2-phenyl-2-(pyridin-4-yl)ethyl)quinazolin-4-amine] (Fig. 1), one compound from this new class of putative allosteric DAT inhibitors (Rothman et al, 2015). Similar to other compounds in this series, SRI-31142 has nanomolar potency but only partial efficacy to block monoamine uptake via all three transporters [i.e., DAT; serotonin (5-HT) transporter (SERT); norepinephrine transporter (NET)] in rat brain synaptosomes, 1000-fold weaker potency to block [ 3 H]WIN35428 DAT binding, and no efficacy to block amphetamine-induced DAT-mediated monoamine efflux.…”

Section: Introductionmentioning

confidence: 99%

Interactions between Cocaine and the Putative Allosteric Dopamine Transporter Ligand SRI-31142

Moerke¹,

Ananthan²,

Banks³

et al. 2018

J Pharmacol Exp Ther

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Drugs that inhibit the dopamine (DA) transporter (DAT) include both therapeutic agents and abused drugs. Recent studies identified a novel series of putative allosteric DAT inhibitors, but the in vivo effects of these compounds are unknown. This study examined the abuse-related behavioral and neurochemical effects produced in rats by SRI-31142 [2-(7-methylimidazo[1,2-a]pyridin-6-yl)-N-(2-phenyl-2-(pyridin-4-yl)ethyl)quinazolin-4-amine], one compound from this series. In behavioral studies, intracranial self-stimulation (ICSS) was used to compare the effects produced by SRI-31142, the abused and nonselective DAT inhibitor cocaine, and the selective DAT inhibitor GBR-12935 [1-[2-(diphenylmethoxy)ethyl]-4-(3-phenylpropyl)piperazine]. In neurochemical studies, in vivo microdialysis was used to compare the effects of SRI-31142 and cocaine on levels of DA and serotonin in nucleus accumbens (NAc). The effects of SRI-31142 in combination with cocaine were also examined in both procedures. In contrast to cocaine and GBR-12935, SRI-31142 failed to produce abuse-related increases in ICSS or NAc DA; instead, SRI-31142 only decreased ICSS and NAc DA at a dose that was also sufficient to block cocaine-induced increases in ICSS and NAc DA. Pharmacokinetic studies suggested low but adequate brain penetration of SRI-31142, in vitro binding studies failed to identify likely non-DAT targets, and in vitro functional assays failed to confirm DA uptake inhibition in an assay of DAT-mediated fluorescent signals in live cells. These results indicate that SRI-31142 does not produce cocaine-like abuse-related effects in rats. SRI-31142 may have utility to block cocaine effects and may warrant further study as a candidate pharmacotherapy; however, the role of DAT in mediating these effects is unclear, and side effects may be a limiting factor.

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“…The molecular determinants of MAT substrate versus inhibitor binding sites have been investigated using site-directed mutagenesis, computer-aided molecular modeling, and crystallographic techniques. In addition to the substrate binding site, these studies have revealed the presence of additional ligand attachment sites within MATs of which the location and functional relevance remain unknown (Coleman, Green, & Gouaux, 2016, Koldso et al, 2015, Mortensen & Kortagere, 2015, Rothman et al, 2015. The MATs mediate a rapid uptake of neurotransmitters (turnover rate ß1 molecule/sec) from the Figure 12.17.1 Membrane topology of 12-transmembrane (TM) structure (numbered from I to XII) of MATs with intracellular location of N-and C-termini.…”

Section: Introductionmentioning

confidence: 99%

In Vitro Assays for the Functional Characterization of the Dopamine Transporter (DAT)

Aggarwal

Mortensen

2017

CP Pharmacology

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Detailed in this unit are protocols for studying the in vitro uptake of dopamine (DA) as a means for defining the functional characteristics of dopamine transporters. All assays are performed using commercially available cell lines that transiently express the transporter under investigation. The three main assays provided are: a kinetic assay to calculate the affinity (K ) and maximal velocity (V ) of radiolabeled DA uptake into cells; concentration-response assays to measure the potencies (IC /K values) of test compounds as transport inhibitors; and an efflux assay to assess the ability and potency (EC ) of a ligand to elicit reverse transport of DA accumulated in the cell. Although the methods are described using DAT and its ligands, the same procedure can be employed for studying serotonin and norepinephrine transporters as well. © 2017 by John Wiley & Sons, Inc.

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Studies of the Biogenic Amine Transporters 15. Identification of Novel Allosteric Dopamine Transporter Ligands with Nanomolar Potency

Cited by 26 publications

References 26 publications

Structure–activity relationship studies of citalopram derivatives: examining substituents conferring selectivity for the allosteric site in the 5‐HT transporter

Structure–activity relationship studies of citalopram derivatives: examining substituents conferring selectivity for the allosteric site in the 5‐HT transporter

Interactions between Cocaine and the Putative Allosteric Dopamine Transporter Ligand SRI-31142

In Vitro Assays for the Functional Characterization of the Dopamine Transporter (DAT)

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