Vanessa Gormanns scite author profile

Vanessa Gormanns

3Publications

19Citation Statements Received

88Citation Statements Given

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Affiliations

Max Planck Institute of Psychiatry

Publications

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New insights into the intracellular distribution pattern of cationic amphiphilic drugs

Vater

Möckl

Gormanns

et al. 2017

Sci Rep

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Cationic amphiphilic drugs (CADs) comprise a wide variety of different substance classes such as antidepressants, antipsychotics, and antiarrhythmics. It is well recognized that CADs accumulate in certain intracellular compartments leading to specific morphological changes of cells. So far, no adequate technique exists allowing for ultrastructural analysis of CAD in intact cells. Azidobupramine, a recently described multifunctional antidepressant analogue, allows for the first time to perform high-resolution studies of CADs on distribution pattern and morphological changes in intact cells. We showed here that the intracellular distribution pattern of azidobupramine strongly depends on drug concentration and exposure time. The mitochondrial compartment (mDsRed) and the late endo-lysosomal compartment (CD63-GFP) were the preferred localization sites at low to intermediate concentrations (i.e. 1 μM, 5 μM). In contrast, the autophagosomal compartment (LC3-GFP) can only be reached at high concentrations (10 μM) and long exposure times (72 hrs). At the morphological level, LC3-clustering became only prominent at high concentrations (10 μM), while changes in CD63 pattern already occurred at intermediate concentrations (5 μM). To our knowledge, this is the first study that establishes a link between intracellular CAD distribution pattern and morphological changes. Therewith, our results allow for gaining deeper understanding of intracellular effects of CADs.

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Azidobupramine, an Antidepressant-Derived Bifunctional Neurotransmitter Transporter Ligand Allowing Covalent Labeling and Attachment of Fluorophores

et al. 2016

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The aim of this study was to design, synthesize and validate a multifunctional antidepressant probe that is modified at two distinct positions. The purpose of these modifications was to allow covalent linkage of the probe to interaction partners, and decoration of probe-target complexes with fluorescent reporter molecules. The strategy for the design of such a probe (i.e., azidobupramine) was guided by the need for the introduction of additional functional groups, conveying the required properties while keeping the additional moieties as small as possible. This should minimize the risk of changing antidepressant-like properties of the new probe azidobupramine. To control for this, we evaluated the binding parameters of azidobupramine to known target sites such as the transporters for serotonin (SERT), norepinephrine (NET), and dopamine (DAT). The binding affinities of azidobupramine to SERT, NET, and DAT were in the range of structurally related and clinically active antidepressants. Furthermore, we successfully visualized azidobupramine-SERT complexes not only in SERT-enriched protein material but also in living cells stably overexpressing SERT. To our knowledge, azidobupramine is the first structural analogue of a tricyclic antidepressant that can be covalently linked to target structures and further attached to reporter molecules while preserving antidepressant-like properties and avoiding radioactive isotopes.

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Correction: Corrigendum: New insights into the intracellular distribution pattern of cationic amphiphilic drugs

Vater¹,

Möckl²,

Gormanns³

et al. 2017

Sci Rep

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The Acknowledgements section in this Article is incomplete. "NeuroNova gGmbH, Munich provided financial support between 2011 and 2016 aiming at The investigation of novel molecular mechanisms of antidepressants at cellular level". should read: "NeuroNova gGmbH, Munich provided financial support between 2011 and 2016 aiming at The investigation of novel molecular mechanisms of antidepressants at cellular level. C.B. and L.M. thank the excellence clusters Nanosystems Initiative Munich (NIM) and the Center for Integrated Protein Science Munich (CIPSM) as well as the Center for Nanoscience Munich (CeNS)".

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