Chemists synthesize an improved building block for medicines

Chemists overcome a major hurdle in synthesizing a more stable form of heterocycle—a common component of most modern pharmaceuticals.

2024-07-03

(Press-News.org) Chemists have overcome a major hurdle in synthesizing a more stable form of heterocycle—a family of organic compounds that are a common component of most modern pharmaceuticals.

The research, which could expand the toolkit available to drug developers in improving the safety profiles of medications and reducing side effects, was published in Science by organic chemists at the University of British Columbia (UBC), the Massachusetts Institute of Technology (MIT), and the University of Michigan.

“Azetidines are a particularly useful, stable form of heterocycle, but synthesizing them has been incredibly challenging,” says Dr. Corinna Schindler, Canada Research Chair in synthetic solutions for bioactive compounds at UBC and senior author on the paper.

Heterocycles play a major role in the design of modern drug families—including cancer drugs and antibiotics. Some reviews indicate 85 per cent of all biologically active chemical entities contain a heterocycle.

But many heterocycles currently used in pharmaceutical design tend to oxidize under physiological conditions. This can lead to off-target effects and challenges with the safety profiles of medications.

Azetidines—organic compounds that contain three carbon atoms and one nitrogen atom, and are liquid at room temperature—are known to be metabolically robust and don't undergo oxidation reactions under physiological conditions.

“This is something that synthetic organic chemists have tried to achieve for a long time, and we’re hopeful this will enable researchers to develop new synthetic transformations of azetidines with more useful chemical and medical functions,” says Dr. Schindler, whose lab conducted the research at the University of Michigan with graduate student Emily Wearing and in conjunction with Dr. Heather Kulik's lab at the Massachusetts Institute of Technology.

The team used light-driven reactions and a computational approach to the problem and for the first time were able to engage compounds called imines productively in reactions to form new azetidines.

END

ELSE PRESS RELEASES FROM THIS DATE:

A genetic algorithm for phononic crystals

2024-07-03

Tokyo, Japan – The advent of quantum computers promises to revolutionize computing by solving complex problems exponentially more rapidly than classical computers. However, today's quantum computers face challenges such as maintaining stability and transporting quantum information. Phonons, which are quantized vibrations in periodic lattices, offer new ways to improve these systems by enhancing qubit interactions and providing more reliable information conversion. Phonons also facilitate better communication ...

Machine learning could aid efforts to answer long-standing astrophysical questions

2024-07-03

In an ongoing game of cosmic hide and seek, scientists have a new tool that may give them an edge. Physicists at the U.S. Department of Energy’s (DOE) Princeton Plasma Physics Laboratory (PPPL) have developed a computer program incorporating machine learning that could help identify blobs of plasma in outer space known as plasmoids. In a novel twist, the program has been trained using simulated data. The program will sift through reams of data gathered by spacecraft in the magnetosphere, the region of outer space strongly affected by Earth’s ...

Research spotlight: Uncovering how a cellular miscommunication leads to cognitive impairment in female patients with Alzheimer’s disease

2024-07-03

Lead author Neta Rosenzweig, PhD, of the Ann Romney Center for Neurological Diseases, and senior author Oleg Butovsky, PhD, of the Ann Romney Center and Gene Lay Institute of Immunology and Inflammation, share key messages from their paper “Sex-Dependent APOE4 Neutrophil-Microglia Interactions Drive Cognitive Impairment in Alzheimer’s Disease” published in Nature Medicine. How would you summarize your study for a lay audience? In this manuscript, we identify that a major genetic risk ...

AI model to improve patient response to cancer therapy

2024-07-03

A new artificial intelligence (AI) tool that can help to select the most suitable treatment for cancer patients has been developed by researchers at The Australian National University (ANU). DeepPT, developed in collaboration with scientists at the National Cancer Institute in America and pharmaceutical company Pangea Biomed, works by predicting a patient’s messenger RNA (mRNA) profile. This mRNA - essential for protein production - is also the key molecular information for personalised cancer medicine. According to lead author Dr Danh-Tai Hoang from ANU, when combined with a second tool called ENLIGHT, DeepPT ...

Scientists discover way to “grow” sub-nanometer sized transistors

2024-07-03

A research team led by Director JO Moon-Ho of the Center for Van der Waals Quantum Solids within the Institute for Basic Science (IBS) has implemented a novel method to achieve epitaxial growth of 1D metallic materials with a width of less than 1 nm. The group applied this process to develop a new structure for 2D semiconductor logic circuits. Notably, they used the 1D metals as a gate electrode of the ultra-miniaturized transistor. Integrated devices based on two-dimensional (2D) semiconductors, which exhibit excellent properties even at the ultimate limit of material thickness down to the atomic ...

Bath student wins national award for computer game that explores mental health

2024-07-03

A final year computer science undergraduate from the University of Bath has been named amongst the UK’s best student game developers, having won an award in the “Games with purpose” category at the Games Innovation Challenge 2024. Salmaan Zhang competed against university and college students from across the country to win one of seven categories in the competition, which is sponsored by UNiDAYS and delivered by NSE (National Student Esports). The challenge asked students in the UK to create the most innovative game in just eight weeks. Submitted entries were shortlisted and then judged by industry experts in several ...

NARO developed a novel method to analyze “forever chemicals” in the soil

2024-07-03

Concern about the effects of PFAS are of increasing globally. Also there is no accurate method for analyzing multiple PFAS in soil. Hence, a team of PFAS researchers led by NARO et.al sought to develop a stable and accurate method for analyzing multicomponent PFAS in the soil (Ministry of Agriculture, Forestry and Fisheries -MAFF project). Unlike the PFAS analysis method for water samples, it is difficult to ensure the extraction efficiency of the target PFAS in diverse soil samples. In Japan, there are 381 soil types, with volcanic ash soils being the predominant. Since these soils possess high carbon content, ...

Scientists pinpoint strategies that could stop cats from scratching your furniture

2024-07-03

Many cat owners are familiar with torn cushions, carpets, and couches. The feline instinct to scratch is innate but is often perceived as a behavioral problem by cat owners and sometimes leads to interventions that are not cat friendly. Now, an international team of researchers has investigated which factors influence undesired scratching behavior in domestic cats. They published their findings in Frontiers in Veterinary Science. “Here we show that certain factors – such as the presence of children at home, personality traits of cats, and their activity levels – significantly impact the ...

Offline/online attribute-based searchable encryption scheme from ideal lattices

2024-07-03

The security of traditional attribute-based searchable encryption schemes relies on traditional number-theoretic assumptions, and thus they are not able to resist the threat of quantum algorithms. Meanwhile, existing lattice-based searchable encryption schemes have two main problems: one is the low efficiency of the execution of encryption, key generation and search algorithms. The second is the large space required for storing search trapdoors. To solve the problems, a research team led by Yang YANG published their new ...

Theoretical design and experimental verification of high-entropy carbide ablative resistant coating

2024-07-03

The hot-end components of high-performance high-speed aircrafts need to meet performance requirements such as long service life, wide temperature range oxidation resistance and ablation resistance. This puts forward higher requirements for high-temperature service performance of thermal protection system (TPS). With low density, low expansion and excellent high temperature mechanical properties, carbon-carbon (C/C) composites are expected to be the best choice for the new generation of TPS. However, the oxidation sensitivity of C/C composites severely limits their service life in high-temperature ablation environment. It ...