Osaka University Scientists Unlock Key Protein's Role in Anti-Aging Mechanism

Scientists have unraveled the intricate role of the HKDC1 protein in preserving cellular vitality and preventing aging.

Scientists have unraveled the intricate role of the HKDC1 protein in preserving cellular vitality and preventing aging. Within our body's cellular framework, organelles, the microscopic components within cells, play a vital role akin to the organs in our body.

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Unlock Key Protein's Role in Anti-Aging Mechanism

Osaka University researchers identified the HKDC1 protein as a crucial guardian of two significant organelles: mitochondria and lysosomes, actively contributing to the cell's anti-aging mechanisms.

The study revealed that HKDC1 becomes particularly active when cells face stress, especially within the mitochondria or lysosomes. While a protein named TFEB was previously associated with maintaining organelle function, its specific targets were unknown.

Interesting Engineering reported that the Osaka University team delved into this mystery and discovered that TFEB directly targets the HKDC1 gene.

By employing chromatin immunoprecipitation, a technique that identifies DNA targets of proteins, the researchers established that HKDC1 is a direct target of TFEB and undergoes upregulation under conditions of stress in mitochondria or lysosomes.

This groundbreaking finding sheds new light on the intricate molecular mechanisms that govern cellular aging and opens avenues for potential interventions to promote cellular youthfulness.

Recognized for their Roles in Orchestrating Mitophagy

In the intricate world of cellular maintenance, there exists a fascinating process called "mitophagy," a mechanism designed to eliminate damaged mitochondria and ensure the health of these vital cellular powerhouses.

Among the players in this intricate cellular dance are proteins known as PINK1 and Parkin, recognized for their roles in orchestrating mitophagy.

The research journey led by lead author Mengying Cui uncovered a significant revelation. HKDC1, a protein of interest, was found to co-localize with TOM20, strategically positioned in the outer membrane of mitochondria.

Through meticulous experiments, the team unveiled the critical role of HKDC1 and its interaction with TOM20 in facilitating PINK1/Parkin-dependent mitophagy, essentially serving as custodians of mitochondrial health.

As the cellular narrative unfolds, EurekAlert reported that attention turns to lysosomes, akin to recycling centers within cells. TFEB and HKDC1 emerge as key players in this domain as well.

Senior author Shuhei Nakamura emphasizes the role of HKDC1 as a guardian positioned within the mitochondria.

This strategic localization proves crucial not only for maintaining mitochondrial well-being but also plays a significant role in the intricate process of lysosomal repair. Thus, HKDC1 emerges as a key player in the cellular saga of maintenance and rejuvenation.

Reducing HKDC1 within the cell disrupts the lysosomal cleanup process, impairing their ability to self-repair when damaged, akin to removing their repairing power. Senior author Nakamura highlights that HKDC1 is crucial for mitochondria-lysosome contact, interacting with proteins known as VDACs.

This dual functionality of HKDC1, operating prominently in both lysosomal and mitochondrial domains, serves to prevent cellular senescence and preserve the structural integrity of these vital organelles.

The significance of HKDC1 in mitigating malfunctions associated with aging processes and age-related diseases unveils new prospects for therapeutic interventions. The findings are detailed in the journal Proceedings of the National Academy of Sciences (PNAS).

Written by Inno Flores
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