Semi-Synthesis of Different Pyranoflavonoid Backbones and the Neurogenic Potential

Corinna Urmann; Lara Bieler; Michael Hackl; Olivia Chia-Leeson; Sebastien Couillard-Despres; Herbert Riepl

doi:10.3390/molecules28104023

Semi-Synthesis of Different Pyranoflavonoid Backbones and the Neurogenic Potential

Corinna Urmann, Lara Bieler, Michael Hackl, Olivia Chia-Leeson, Sebastien Couillard-Despres, Herbert Riepl

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Abstract

Flavonoids and chalcones are known for their manifold biological activities, of which many affect the central nervous system. Pyranochalcones were recently shown to have a great neurogenic potential, which is partly due to a specific structural motif-the pyran ring. Accordingly, we questioned if other flavonoid backbones with a pyran ring as structural moiety would also show neurogenic potential. Different semi-synthetic approaches starting with the prenylated chalcone xanthohumol, isolated from hops, led to pyranoflavanoids with different backbones. We identified the chalcone backbone as the most active backbone with pyran ring using a reporter gene assay based on the promoter activity of doublecortin, an early neuronal marker. Pyranochalcones therefore appear to be promising compounds for further development as a treatment strategy for neurodegenerative diseases.

Original language	English
Article number	4023
Journal	Molecules
Volume	28
Issue number	10
DOIs	https://doi.org/10.3390/molecules28104023
State	Published - May 2023

Keywords

DCX
aurone
flavanol
flavanone
flavone
neurogenic potential
pyranoflavonoids
xanthohumol
xanthohumol C

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10.3390/molecules28104023

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title = "Semi-Synthesis of Different Pyranoflavonoid Backbones and the Neurogenic Potential",

abstract = "Flavonoids and chalcones are known for their manifold biological activities, of which many affect the central nervous system. Pyranochalcones were recently shown to have a great neurogenic potential, which is partly due to a specific structural motif-the pyran ring. Accordingly, we questioned if other flavonoid backbones with a pyran ring as structural moiety would also show neurogenic potential. Different semi-synthetic approaches starting with the prenylated chalcone xanthohumol, isolated from hops, led to pyranoflavanoids with different backbones. We identified the chalcone backbone as the most active backbone with pyran ring using a reporter gene assay based on the promoter activity of doublecortin, an early neuronal marker. Pyranochalcones therefore appear to be promising compounds for further development as a treatment strategy for neurodegenerative diseases.",

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AU - Urmann, Corinna

AU - Bieler, Lara

AU - Hackl, Michael

AU - Chia-Leeson, Olivia

AU - Couillard-Despres, Sebastien

AU - Riepl, Herbert

PY - 2023/5

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N2 - Flavonoids and chalcones are known for their manifold biological activities, of which many affect the central nervous system. Pyranochalcones were recently shown to have a great neurogenic potential, which is partly due to a specific structural motif-the pyran ring. Accordingly, we questioned if other flavonoid backbones with a pyran ring as structural moiety would also show neurogenic potential. Different semi-synthetic approaches starting with the prenylated chalcone xanthohumol, isolated from hops, led to pyranoflavanoids with different backbones. We identified the chalcone backbone as the most active backbone with pyran ring using a reporter gene assay based on the promoter activity of doublecortin, an early neuronal marker. Pyranochalcones therefore appear to be promising compounds for further development as a treatment strategy for neurodegenerative diseases.

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KW - DCX

KW - aurone

KW - flavanol

KW - flavanone

KW - flavone

KW - neurogenic potential

KW - pyranoflavonoids

KW - xanthohumol

KW - xanthohumol C

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ER -

Semi-Synthesis of Different Pyranoflavonoid Backbones and the Neurogenic Potential

Abstract

Keywords

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