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HomeHealthDNALong-Lived Stem Cells: Uncovering the Secret for Maximum Impact

Long-Lived Stem Cells: Uncovering the Secret for Maximum Impact

Researchers have found that cyclophilin A, an enzyme found in large quantities in hematopoietic stem cells, plays a crucial role in maintaining ‌the⁣ regenerative potential of these cells and preventing aging through an unexpected mechanism. Nothing lives forever, but compared to other cells in the body, hematopoietic stem cells (HSCs) are remarkably long-lived. HSCs are blood-forming cells — they ⁢give rise to⁢ rapidly dividing progenitor cells, which⁤ in turn generate⁢ hundreds of billions of cells to fulfill the daily demand of oxygen-delivering red blood cells, disease-fighting white blood cells and clo rnrn

Hematopoietic stem cells (HSCs) are usually inactive ‍in the bone marrow but have the capacity to constantly refresh and renew blood ‍cells, ​maintaining a relatively youthful state throughout an organism’s life. Researchers at Baylor‍ College of​ Medicine discovered that the⁤ key to the longevity of HSCs and their ability to resist the effects ⁤of aging lies in the enzyme cyclophilin A, which is abundantly produced in these cells, according ⁣to a study published in Nature Cell Biology.

Stem cells live on!

“The build-up of proteins that have⁢ reached the end of their ‍lifespan is a key factor in cellular aging,” explained Dr. André ​Catic, the lead author of the study and assistant professor at Baylor’s Huffington Center on Aging. “As cells age, proteins tend to fold incorrectly, clump together, ⁢and⁤ accumulate within the cell, ⁢causing ‍harmful stress that can interfere with normal cell function.”

Cells that divide frequently, such‌ as progenitor cells, can get​ rid of protein build-up through dilution. However, long-lasting HSCs, which don’t‌ divide‍ often, face the challenge of dealing​ with the accumulation of misfolded proteins.Aging can cause cells to accumulate damaged proteins and experience toxic stress, but hematopoietic⁣ stem cells (HSCs) are not affected by⁢ aging. Scientists are ​trying to understand how this happens in order to​ gain insight into normal HSC biology ⁤and potentially improve cancer treatment. Dr. Lauren Maneix, ​a co-first author of the research, emphasized the importance of understanding the molecular mechanisms behind‌ HSC aging. One ⁢key factor that has been identified is the presence of ⁤molecular ⁤chaperones, which are proteins that‍ help maintain or alter the three-dimensional structure of other proteins in mammalian cells.The aging‌ process has been linked to the presence of cyclophilins, ‌a type of chaperone protein. However, the specific​ impact of these proteins on cellular proteins had not been previously explored. The researchers conducted experiments with mice to study the protein ⁣content of⁢ HSCs and found that cyclophilin A ​is a prevalent chaperone in these ‌cells. They also ‌observed that the expression of cyclophilin A​ decreased significantly in aged HSCs. Furthermore, they⁤ found that genetically eliminating cyclophilin A accelerated the natural aging process in the stem cell compartment. On the other hand, reintroducing cyclophilin A into aged HSCs enhanced the aging process.The study found that ​cyclophilin A is crucial for the long-term survival of hematopoietic​ stem cells (HSCs). The researchers also discovered that cyclophilin A interacts with proteins⁢ that are rich in ‍intrinsically disordered regions, helping to‍ maintain ⁢their ‍stability. Intrinsically disordered proteins have the ability to change their shape in‌ order to interact with other molecules, making them⁣ important for⁣ various cellular processes.‍ These findings shed light on the intricate relationship between cyclophilin‌ A, intrinsically disordered⁤ proteins, and the longevity of HSCs.Proteins play a crucial role in ‍cellular processes by facilitating specific ​interactions between⁣ molecules. According to Catic, intrinsically disordered proteins‌ are prone ‌to aggregation due to their flexible nature. Cyclophilin A helps‌ these proteins carry out their functions and prevents them from clumping together.

Additionally, ⁢the research indicates that cyclophilin A interacts with ‍intrinsically disordered proteins as soon as ⁤they are synthesized. Catic explained ​that cyclophilin ‌A ensures these proteins maintain the correct conformations and are present in adequate levels as they are being produced. Depleting cyclophilin A genetically, A study has found that stem cells lack disordered proteins, which is important​ for aging. This is the first study to show that the production of disordered proteins and maintaining protein structural diversity in ​a cell plays a role in stem cell aging,” said Maneix. Co-first author Polina Iakova, along with several other individuals,⁢ also contributed to‌ this study.