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Researchers describe a mechanism inducing self-killing of cancer cells

Researchers have described a new mechanism which induces the self-killing of cancer cells by perturbing ion homeostasis.

A research team from the Department of Biochemical Engineering has developed helical polypeptide potassium ionophores that lead to the onset of programmed cell death.

The ionophores increase the active oxygen concentration to stress endoplasmic reticulum to the point of cellular death.

The electrochemical gradient between extracellular and intracellular conditions plays an important role in cell growth and metabolism.

When a cell's ion homeostasis is disturbed, critical functions accelerating the activation of apoptosis are inhibited in the cell.

Although ionophores have been intensively used as an ion homeostasis disturber, the mechanisms of cell death have been unclear and the bio-applicability has been limited.

In the study featured in Advanced Science, the team presented an alpha helical peptide-based anticancer agent that is capable of transporting potassium ions with water solubility.

The cationic, hydrophilic, and potassium ionic groups were combined at the end of the peptide side chain to provide both ion transport and hydrophilic properties.

These peptide-based ionophores reduce the intracellular potassium concentration and at the same time increase the intracellular calcium concentration.

Increased intracellular calcium concentrations produce intracellular reactive oxygen species, causing endoplasmic reticulum stress, and ultimately leading to apoptosis.

Anticancer effects were evaluated using tumour-bearing mice to confirm the therapeutic effect, even in animal models.

It was found that tumour growth was strongly inhibited by endoplasmic stress-mediated apoptosis.

Lead author Dr. Dae-Yong Lee said, "A peptide-based ionophore is more effective than conventional chemotherapeutic agents because it induces apoptosis via elevated reactive oxygen species levels."

Professor Yeu-Chun Kim said he expects this new mechanism to be widely used as a new chemotherapeutic strategy. 

Source: The Korea Advanced Institute of Science and Technology (KAIST)

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