Synthesis and Pharmacological Characterization of a Difluorinated Analogue of Reduced Haloperidol as a Sigma‑1 Receptor Ligand

Synthesis and Pharmacological Characterization of a Difluorinated Analogue of Reduced Haloperidol as a Sigma‑1 Receptor Ligand

Reduced haloperidol (1) was previously reported to act as a potent sigma-1 receptor (S1R) ligand with substantially lower affinity to the dopamine D2 receptor (D2R) compared to haloperidol. It was also found to facilitate brain-derived neurotrophic factor (BDNF) secretion from astrocytic glial cell...

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Published in:ACS chemical neuroscience Vol. 14; no. 5; pp. 947 - 957
Main Authors: Gao, Run-Duo, Taylor, Michelle, McInnis, Tamara, Chen, Zhenglan, Gori, Sadakatali S., LaPorte, Heather M., Siegler, Maxime A., Neisewander, Janet L., Mach, Robert H., Singh, Meharvan, Slusher, Barbara S., Rais, Rana, Luedtke, Robert R., Tsukamoto, Takashi
Format: Journal Article
Language:English
Published: United States American Chemical Society 01-03-2023
Subjects:
Animals
Brain-Derived Neurotrophic Factor - metabolism
Haloperidol - pharmacology
Ligands
Mice
Receptors, sigma
Sigma-1 Receptor
sigma-1 receptor
active avoidance task
fluorinated molecules
reduced haloperidol
brain-derived neurotrophic factor (BDNF)
drug metabolism
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Summary:Reduced haloperidol (1) was previously reported to act as a potent sigma-1 receptor (S1R) ligand with substantially lower affinity to the dopamine D2 receptor (D2R) compared to haloperidol. It was also found to facilitate brain-derived neurotrophic factor (BDNF) secretion from astrocytic glial cell lines in a sigma-1 receptor (S1R)-dependent manner. Although an increase in BDNF secretion may have beneficial effects in some neurological conditions, the therapeutic utility of reduced haloperidol (1) is limited because it can be oxidized back to haloperidol in the body, a potent dopamine D2 receptor antagonist associated with well-documented adverse effects. A difluorinated analogue of reduced haloperidol, (±)-4-(4-chlorophenyl)-1-(3,3-difluoro-4-(4-fluorophenyl)-4-hydroxybutyl)­piperidin-4-ol (2), was synthesized in an attempt to minimize the oxidation. Compound (±)-2 was found to exhibit high affinity to S1R and facilitate BDNF release from mouse brain astrocytes. It was also confirmed that compound 2 cannot be oxidized back to the corresponding haloperidol analogue in liver microsomes. Furthermore, compound 2 was distributed to the brain following intraperitoneal administration in mice and reversed the learning deficits in active avoidance tasks. These findings suggest that compound 2 could serve as a promising S1R ligand with therapeutic potential for the treatment of cognitive impairments.
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ISSN:1948-7193
1948-7193
DOI:10.1021/acschemneuro.2c00791