New Opportunities for Treating Age-Related Diseases through Targeted Elimination of Aging Cells

New Opportunities for Treating Age-Related Diseases through Targeted Elimination of Aging Cells

A research team, led by Professor⁢ Ja Hyoung Ryu from the Department of Chemistry at UNIST, in collaboration with Professor Hyewon Chung from Konkuk ⁢University, has ⁢achieved a significant​ breakthrough in the treatment of age-related diseases. Their cutting-edge technology offers a promising new approach by selectively removing aging cells, without harming normal healthy cells. This groundbreaking development ⁤is poised to redefine the future of⁢ health care and usher in a new era​ of targeted therapeutic interventions.

Aging cells, known‌ as senescent cells, contribute to various inflammatory conditions and age-related ailments as humans age. To⁢ address this issue, the ⁢research⁤ team focused on developing a technology that could precisely target and eliminate aging cells, while sparing normal healthy cells.

In their study, the team designed organic molecules that selectively⁤ target⁤ receptors overexpressed in the ‌membranes of aging cells. By leveraging the higher levels of reactive oxygen‍ species (ROS) found in aging cells, these molecules promote the formation ⁤of disulfide ⁤bonds and create oligomers that ‍bind together. The research is published in the Journal of the American Chemical​ Society.

Through self-assembly of these oligomers, the researchers successfully created artificial proteins with a stable α-helix secondary structure. These protein-like nanoassemblies exhibited strong binding affinity to the mitochondrial membranes of aging cells, leading to membrane disruption and subsequent cell ​self-destruction.

“The selective ⁤removal⁤ of aging cells by⁣ targeting the mitochondria and inducing dysfunction has been ‌successfully demonstrated in our experiments,” stated Professor Ryu. “This approach represents a new paradigm for ⁤treating age-related diseases.”

2023-09-14 09:24:03
Article from‍ phys.org rnrn

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