Thursday, March 24, 2022

Twisting vibrations could test drugs for safety

tangled arm and outstretched hand

Twirling infrared light can probe the structures of molecular crystals and their twists, or chirality, report researchers.

The researchers hope that the technique could also help diagnose harmful accumulations of twisted molecules in the body, including bladder stones, insulin fibrils, and amyloid aggregations such as the plaques that appear in Alzheimer’s disease.

In a world of curled molecules, biology often favors right- or left-handed versions. Walking along the supplement aisle, you might notice that some have an L or D in front of the names. L and D denote the direction in which the molecule twists, clockwise or counterclockwise—the human body typically only uses one version.

Molecules with the wrong twist can be nuisance fillers or cause side effects that can be unpleasant or dangerous. But quality control for twisted molecules is tough and monitoring the chiral structures of drugs and supplements kept in storage isn’t usually done.

“The methods most commonly used at pharmaceutical companies are very sensitive to impurities, but measuring chirality is expensive,” says Wonjin Choi, a research fellow in chemical engineering at the University of Michigan and first author of the paper in Nature Photonics.

The new method can quickly recognize wrong twists and wrong chemical structures in packaged drugs using terahertz radiation, a portion of the infrared part of the spectrum

“Biomolecules support twisting, long-range vibrations also known as chiral phonons. These vibrations are very sensitive to the structure of molecules and their nanoscale assemblies, creating the fingerprint of a particular chiral structure,” says Nicholas Kotov, professor of chemical sciences and engineering and co-corresponding author.

The team was able to measure these phonons in the spectra of twisted terahertz light that passed through tested materials. One of these, L-carnosine, is a nutritional supplement.

“If the twist of the molecule is wrong, if the twist in the way the molecules pack together is not right, or if different materials were mixed in, all of that could be inferred from the spectra,” Kotov says.

John Kruger, professor of veterinary medicine at Michigan State University and coauthor of the paper, provided bladder stones from dogs, and the team discovered their chiral signature. The team hopes that the findings could help enable rapid diagnostics for pets and perhaps later humans. In addition, they studied insulin as it grew into nanofibers that make it inactive. If the terahertz light technology can be adapted for home healthcare, it could verify the quality of insulin.

The team also explored how light can influence structures, rather than just measure them. Calculations carried out by André Farias de Moura, professor of chemistry at the Federal University of São Carlos and co-corresponding author, show that multiple biomolecules vigorously twist and vibrate when terahertz light generates chiral phonons.

“We foresee new roads ahead—for instance using terahertz waves with tailored polarization to manipulate large molecular assemblies. It might replace microwaves in many synthesis applications in which the handedness of the molecules matters,” says de Moura.

Based on de Moura’s calculations, Kotov and Choi believe that the twisting vibrations of chiral phonons caused by terahertz light may make disease-causing nanofibers more vulnerable to medical interventions. Future work will explore whether that interaction can break them up.

This work had support from the US Department of Defense, Office of Naval Research, Defense Advanced Research Projects Agency and the National Science Foundation; Brazilian funding agencies CAPES and FAPESP; the Japanese Society for the Promotion of Science and Yoshida Foundation; and the University of Michigan.

Researchers studied the materials at the Michigan Center for Materials Characterization.

Source: University of Michigan

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