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Inis C. Serrano

2 papers in the library · 67 citations · publishing 2022-2025

Papers

Pharmacological Mechanism of the Non-hallucinogenic 5-HT2A Agonist Ariadne and Analogs

ACS Chemical Neuroscience December 15, 2022 Michael J. Cunningham, Hailey A. Bock, Inis C. Serrano et al. 65 citations

Ariadne, a non-hallucinogenic analog of the hallucinogen DOM, demonstrates significant therapeutic potential in treating various conditions. In clinical trials, Ariadne led to rapid remission of psychotic symptoms in schizophrenia and improved cognition in elderly patients. It acts as a 5-HT<sub>2A</sub> receptor agonist with modest selectivity for 5-HT<sub>1</sub>, exhibiting lower signaling potency than DOM. Notably, in a Parkinson’s disease model, Ariadne alleviated severe motor deficits comparable to l-DOPA, positioning it as a promising candidate for future psychiatric and neurological therapies.

Deciphering Ibogaine’s Matrix Pharmacology: Multiple Transporter Modulation at Serotonin Synapses

Journal of the American Chemical Society December 26, 2025 Christopher Hwu, Václav Havel, Xavier Westergaard et al. 2 citations

Ibogaine and its main metabolite noribogaine inhibit the vesicular monoamine transporter 2 (VMAT2) with submicromolar potency, as shown in cell-based assays and two-photon microscopy of mouse brain synaptic vesicle clusters. Noribogaine also induces partial serotonin release from synaptic vesicles and binds VMAT2 at a distinct site from the established inhibitor dihydrotetrabenazine. These compounds additionally inhibit plasma membrane monoamine transporters, prominently the serotonin transporter (SERT), and a novel target, organic cation transporter 2 (OCT2). Several iboga analogs display dual inhibition of VMAT2 and SERT with comparable potencies, termed "Synaptic Reuptake Inhibitors" (SynRIs). This profile explains why ibogaine and noribogaine do not induce catalepsy, unlike other VMAT2 inhibitors, and illustrates the complex "matrix pharmacology" of iboga compounds.