A tidy cell seems to keep aging at bay
Researchers from Osaka University have identified a protein called HKDC1 that’s crucial to maintaining two subcellular structures, mitochondria and lysosomes, thereby preventing cellular senescence.
Just as healthy organs are vital to our well-being, healthy organelles are vital to the proper functioning of the cell. These subcellular structures carry out specific jobs within the cell, for example, mitochondria power the cell and lysosomes keep the cell tidy.
Although damage to these two organelles has been linked to aging, cellular senescence, and many diseases, the regulation and maintenance of these organelles has remained poorly understood. Now, researchers at Osaka University have identified a protein, HKDC1, that plays a key role in maintaining these two organelles, thereby acting to prevent cellular aging.
There was evidence that a protein called TFEB is involved in maintaining the function of both organelles, but no targets of this protein were known. By comparing all the genes of the cell that are active under particular conditions, and by using a method called chromatin immunoprecipitation, which can identify the DNA targets of proteins, the team were the first to show that the gene encoding HKDC1 is a direct target of TFEB, and that HKDC1 becomes upregulated under conditions of mitochondrial or lysosomal stress.
One way that mitochondria are protected from damage is through the process of “mitophagy”, the controlled removal of damaged mitochondria. There are various mitophagy pathways, and the most well-characterized of these depends on proteins called PINK1 and Parkin.
“We observed that HKDC1 co-localizes with a protein called TOM20, which is located in the outer membrane of the mitochondria,” explains lead author Mengying Cui, “and through our experiments, we found that HKDC1, and its interaction with TOM20, are critical for PINK1/Parkin-dependent mitophagy.”
So, put simply, HKDC1 is brought in by TFEB to help take out the mitochondrial trash. But what about lysosomes? Well, TFEB and KHDC1 are key players here, too. Reducing HKDC1 in the cell was shown to interfere with lysosomal repair, indicating that HKDC1 and TFEB help lysosomes to recover from damage.
“HKDC1 is localized to the mitochondria, right? Well, this turns out to also be critical for the process of lysosomal repair,” explains senior author Shuhei Nakamura. “You see, lysosomes and mitochondria contact each other via proteins called VDACs. Specifically, HKDC1 is responsible for interacting with the VDACs; this protein is essential for mitochondria–lysosome contact, and thus, lysosomal repair.”
These two diverse functions of HKDC1, with key roles in both the lysosome and the mitochondria, help to prevent cellular senescence by simultaneously maintaining the stability of these two organelles. As dysfunction of these organelles is linked to aging and age-related diseases, this discovery opens new avenues for therapeutic approaches to these diseases.
The article, “HKDC1, a target of TFEB, is essential to maintain both mitochondrial and lysosomal homeostasis, preventing cellular senescence”, was published in PNAS at DOI: 10.1073/pnas.2306454120
Journal: Proceedings of the National Academy of Sciences
DOI: 10.1073/pnas.2306454120
Method of Research: Experimental study
Subject of Research: Cells
Article Title: HKDC1, a target of TFEB, is essential to maintain both mitochondrial and lysosomal homeostasis, preventing cellular senescence
Article Publication Date: 2-Jan-2024
COI Statement: PNAS provides journalists with access to embargoed content through EurekAlert!. Journalists should register with EurekAlert! at https://www.eurekalert.org/registerand request access to PNAS materials. If they are already registered with EurekAlert!, they can request access to PNAS at https://www.eurekalert.org/update-profile.
Media Contact
Saori Obayashi
Osaka University
gi-strategy@cgin.osaka-u.ac.jp
Office: 81-661-055-886
Original Source
All latest news from the category: Life Sciences and Chemistry
Articles and reports from the Life Sciences and chemistry area deal with applied and basic research into modern biology, chemistry and human medicine.
Valuable information can be found on a range of life sciences fields including bacteriology, biochemistry, bionics, bioinformatics, biophysics, biotechnology, genetics, geobotany, human biology, marine biology, microbiology, molecular biology, cellular biology, zoology, bioinorganic chemistry, microchemistry and environmental chemistry.
Newest articles
Hurricane Helene’s gravity waves revealed by NASA’s AWE
On Sept. 26, 2024, as Hurricane Helene slammed into the Gulf Coast of Florida, NASA’s Atmospheric Waves Experiment, or AWE, recorded enormous swells in the atmosphere that the hurricane produced…
Researchers develop robotic sensory cilia
… that monitor internal biomarkers to detect and assess airway diseases. Xiaoguang Dong, assistant professor of mechanical engineering, is leading a team of researchers that has developed a system of…
Plastic device aids robot-assisted heart surgery
Surgical field expansion plate allows surgeons more independence. Robot-assisted heart surgery usually requires an assistant at the operating table to help the surgeon insert the robot arm through a small…