Scientists found new way to synthesize chiral tetraarylmethanes
Chiral Tetraarylmethanes (CTAMs) Credit: The Hong Kong University of Science and Technology

A group of scientists at the Hong Kong University of Science and Technology (HKUST) have achieved a catalytic asymmetric synthesis of tetraarylmethanes by chiral phosphoric catalysis. With this process, two libraries of structurally distinct CTAMs were efficiently synthesized with high enantioselectivity. Preliminary biological activity study indicated that these spherical molecules are highly promising anticancer agents.


The research was published on the journal Nature Catalysis on December 14, 2020.

A strong bias towards linear and disc-shaped molecules has long been observed in drug molecules. In contrast, spherical molecules have been utilized on far fewer occasions, due to the lack of efficient access to the latter chemical space. Specifically, efficient strategies to synthesize tetraarylmethanes, a unique family of spherical molecules, have remained scarce.

Chiral tetraarylmethanes (CTAMs), a unique family of spherical molecules which bear four different aryl groups with defined stereochemistry, remain as a mystery due to the lack of efficient asymmetric synthesis. The challenge in asymmetric synthesis of CTAMs lies in not only the high barrier in making the extremely congested C-C bond connecting the central carbon and the aryl rings by conventional strategies, but also the difficulty in stereodifferentiation between the existing and likely similar aryl rings when attaching a new aryl ring to the central carbon.

“The difficulty associated with the synthesis of chiral tetraarylmethanes is that forming extremely crowded bonds around a small carbon atom requires overcoming a substantial energy barrier,” said Jianwei Sun, the group’s leading researcher and Professor at the Department of Chemistry, HKUST. “The other difficulty is that the bond has to be made in a defined 3D orientation. These two requirements substantially reduce the chance of success, but we were able to overcome by using a tagging strategy.”

Scientists found new way to synthesize chiral tetraarylmethanes
Prof. Sun Jianwei and his research team. Credit: The Hong Kong University of Science and Technology

Starting from suitably tagged triarylmethanols, the protocol takes advantage of the hydrogen bonding interactions in the key para-quinone methide and indole iminium intermediates to build two libraries of enantioenriched CTAMs.

“Initially, we hypothesized that a racemic triarylmethane with a leaving group on the central carbon would be easily activated by a catalyst to generate the triarylmethyl cation intermediate,” Sun continued. “We tagged two of the three aryl groups differently. When a hydroxy group is attached to one of the aryl groups, the chiral ion pair intermediate could be further stabilized as a hydrogen-bonded quinone methide (QM). The other tag then provides a secondary hydrogen bond interaction to provide the key differentiation.”

Chiral spherical molecules synthesized with this method have shown promising activity against cancer cells as well as enterovirus. The group expects to establish a large and diversified library of such spherical molecules for lead optimization and structure activity relationship study, which would eventually lead to further collaborative opportunities with expertise in medicinal chemistry, chemical biology, viral biology, and pharmacology.

“High efficiency and selectivity are where our catalytic asymmetric approach really shines,” noted Sun. “We are excited to start this exploration of a new paradigm of chemical space previously left overlooked.”


Chiral amines synthesized by nickel-catalysed asymmetric reductive hydroalkylation


More information:
Xingguang Li et al, Catalytic enantioselective synthesis of chiral tetraarylmethanes, Nature Catalysis (2020). DOI: 10.1038/s41929-020-00535-4

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Hong Kong University of Science and Technology

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Scientists found new way to synthesize chiral tetraarylmethanes (2021, March 11)
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