Search

Search Results

1. Functional deterioration of vascular mitochondrial and glycolytic capacity in the aortic rings of aged mice

   Vascular ageing is associated with increased arterial stiffness and cardiovascular mortality that might be linked to altered vascular energy...

   Agnieszka Karaś, Anna Bar, ... Stefan Chłopicki in GeroScience

   Article Open access 28 February 2024
   

2. Loss of functional peroxisomes leads to increased mitochondrial biogenesis and reduced autophagy that preserve mitochondrial function

   Peroxisomes are essential for mitochondrial health, as the absence of peroxisomes leads to altered mitochondria. However, it is unclear whether the...

   Lijun Chi, Dorothy Lee, ... Robert H. J. Bandsma in Cellular and Molecular Life Sciences

   Article Open access 20 June 2023
   

3. Intrinsic aerobic capacity modulates Alzheimer’s disease pathological hallmarks, brain mitochondrial function and proteome during aging

   Low aerobic capacity is strongly associated with all-cause mortality and risk for Alzheimer’s disease (AD). Individuals with early dementia and AD...

   Benjamin A. Kugler, Colton R. Lysaker, ... Heather M. Wilkins in GeroScience

   Article Open access 13 June 2024
   

4. Small extracellular vesicles from young plasma reverse age-related functional declines by improving mitochondrial energy metabolism

   Recent investigations into heterochronic parabiosis have unveiled robust rejuvenating effects of young blood on aged tissues. However, the specific...

   **aorui Chen, Yang Luo, ... ** Chen in Nature Aging

   Article Open access 16 April 2024
   

5. Lophiosilurus alexandri Functional Studies Related to Mitochondrial Bioenergetics

   Lophiosilurus alexandri (pacamã) is a native fish of the São Francisco River in Brazil. Importantly, its liver bioenergetic metabolism has never been...

   Sarah K. M. Cavalcante, João Arthur da Silva Santos, ... Ana Catarina Rezende Leite in Proceedings of the Zoological Society

   Article 27 May 2023
   

6. Highly-purified rapidly expanding clones, RECs, are superior for functional-mitochondrial transfer

   Background

   Mitochondrial dysfunction caused by mutations in mitochondrial DNA (mtDNA) or nuclear DNA, which codes for mitochondrial components, are...

   Jiahao Yang, Lu Liu, ... Takeshi Taketani in Stem Cell Research & Therapy

   Article Open access 16 March 2023
   

7. Skeletal muscle mitochondrial interactome remodeling is linked to functional decline in aged female mice

   Genomic, transcriptomic and proteomic approaches have been used to gain insight into molecular underpinnings of aging in laboratory animals and in...

   Anna A. Bakhtina, Gavin A. Pharaoh, ... James E. Bruce in Nature Aging

   Article 02 March 2023
   

8. Systems Biology Approach in Understanding Mitochondrial Disease

   The term “mitochondrial diseases” refers to a broad category of hereditary disorders characterized by failure in the mitochondria, the cell’s...

   Moupriya Nag, Debarati Chatterjee, ... Dibyajit Lahiri in Systems Biology Approaches: Prevention, Diagnosis, and Understanding Mechanisms of Complex Diseases

   Chapter 2024
   

9. Genetic perturbation of mitochondrial function reveals functional role for specific mitonuclear genes, metabolites, and pathways that regulate lifespan

   Altered mitochondrial function is tightly linked to lifespan regulation, but underlying mechanisms remain unclear. Here, we report the chronological...

   Cheryl Zi ** Phua, **aqing Zhao, ... Alaattin Kaya in GeroScience

   Article Open access 22 April 2023
   

10. Functional implications of NHR-210 enrichment in C. elegans cephalic sheath glia: insights into metabolic and mitochondrial disruptions in Parkinson's disease models

    Glial cells constitute nearly half of the mammalian nervous system's cellular composition. The glia in C. elegans perform majority of tasks...

    Rohil Hameed, Anam Naseer, ... Aamir Nazir in Cellular and Molecular Life Sciences

    Article Open access 01 May 2024
    

11. Obesity-driven mitochondrial dysfunction in human adipose tissue-derived mesenchymal stem/stromal cells involves epigenetic changes

    Obesity exacerbates tissue degeneration and compromises the integrity and reparative potential of mesenchymal stem/stromal cells (MSCs), but the...

    Alfonso Eirin, Roman Thaler, ... Lilach O. Lerman in Cell Death & Disease

    Article Open access 01 June 2024
    

12. LIN28A enhances regenerative capacity of human somatic tissue stem cells via metabolic and mitochondrial reprogramming

    Develo** methods to improve the regenerative capacity of somatic stem cells (SSCs) is a major challenge in regenerative medicine. Here, we propose...

    Kelvin Pieknell, Yanuar Alan Sulistio, ... Sang-Hun Lee in Cell Death & Differentiation

    Article 23 September 2021
    

13. Mir-204-5p alleviates mitochondrial dysfunction by targeting IGFBP5 in diabetic cataract

    Background

    Cataract contributes to visual impairment worldwide, and diabetes mellitus accelerates the formation and progression of cataract. Here we...

    ** **e, Peng Chen, ... Yunhai Dai in Molecular Biology Reports

    Article 14 June 2024
    

14. Tissue heterogeneity of mitochondrial activity, biogenesis and mitochondrial protein gene expression in buffalo

    Background

    Cellular metabolism is most invariant process, occurring in all living organisms, which involves mitochondrial proteins from both nuclear...

    E. M. Sadeesh, Nancy Singla, ... M. Anuj in Molecular Biology Reports

    Article 04 May 2023
    

15. A small protein coded within the mitochondrial canonical gene nd4 regulates mitochondrial bioenergetics

    Background

    Mitochondria have a central role in cellular functions, aging, and in certain diseases. They possess their own genome, a vestige of their...

    Laura Kienzle, Stefano Bettinazzi, ... Sophie Breton in BMC Biology

    Article Open access 18 May 2023
    

16. Mitochondrial Inheritance Following Nuclear Transfer: From Cloned Animals to Patients with Mitochondrial Disease

    Mitochondria are indispensable power plants of eukaryotic cells that also act as a major biochemical hub. As such, mitochondrial dysfunction, which...

    Jörg P. Burgstaller, Marcos R. Chiaratti in Somatic Cell Nuclear Transfer Technology

    Protocol 2023
    

17. Optimization of differential filtration-based mitochondrial isolation for mitochondrial transplant to cerebral organoids

    Background

    Mitochondrial dysfunction is involved in several diseases ranging from genetic mitochondrial disorders to chronic metabolic diseases. An...

    David F. Bodenstein, Pavel Powlowski, ... Ana Cristina Andreazza in Stem Cell Research & Therapy

    Article Open access 15 August 2023
    

18. Assaying Mitochondrial Function by Multiparametric Flow Cytometry

    Flow cytometry has been a vital tool in cell biology for decades based on its versatile ability to detect and quantifiably measure both physical and...

    Hannah C. Sheehan, Jonathan L. Tilly, Dori C. Woods in Cell Viability Assays

    Protocol 2023
    

19. Relationship between skeletal mitochondrial function and digital markers of free-living physical activity in older adults

    This study examined the association between in vivo skeletal mitochondrial function and digital free-living physical activity patterns—a measure that...

    Amal A. Wanigatunga, Fangyu Liu, ... Luigi Ferrucci in GeroScience

    Article 29 May 2024
    

20. Mitochondrial oxidative phosphorylation became functional under aglycemic hypoxia conditions in A549 cells

    Background

    Normal cells produce energy (ATP) through mitochondrial oxidative phosphorylation in the presence of oxygen. However, many of the cancer...

    Yüksel Öğünç Keçeci, Zerrin İncesu in Molecular Biology Reports

    Article 14 July 2022