Role of sirtuins in tumor angiogenesis
Generally, changes in the metabolic status of cells under conditions like hypoxia and
accumulation of lactate can be sensed by various sensing mechanisms, leading to …
accumulation of lactate can be sensed by various sensing mechanisms, leading to …
[HTML][HTML] Microtubules and cardiovascular diseases: insights into pathology and therapeutic strategies
Q Wu, Y Wang, J Liu, X Guan, X Chang, Z Liu… - The International Journal …, 2024 - Elsevier
Microtubules, complex cytoskeletal structures composed of tubulin proteins in eukaryotic
cells, have garnered recent attention in cardiovascular research. Investigations have …
cells, have garnered recent attention in cardiovascular research. Investigations have …
GCN5L1-mediated acetylation prevents Rictor degradation in cardiac cells after hypoxic stress
P Bugga, JR Manning, BAS Mushala, MW Stoner… - Cellular …, 2024 - Elsevier
Cardiomyocyte apoptosis and cardiac fibrosis are the leading causes of mortality in patients
with ischemic heart disease. As such, these processes represent potential therapeutic …
with ischemic heart disease. As such, these processes represent potential therapeutic …
BLOC1S1/GCN5L1/BORCS1 is a critical mediator for the initiation of autolysosomal tubulation
The mechanisms orchestrating recycling of lysosomes through autophagic lysosome
reformation (ALR) is incompletely understood. Previous data show that genetic depletion of …
reformation (ALR) is incompletely understood. Previous data show that genetic depletion of …
Mitochondrial GCN5L1 regulates cytosolic redox state and hepatic gluconeogenesis via glycerol phosphate shuttle GPD2
Hepatic gluconeogenesis is crucial for maintaining blood glucose during starvation, and a
major contributor for hyperglycemia. Cellular redox state is related to mitochondrial biology …
major contributor for hyperglycemia. Cellular redox state is related to mitochondrial biology …
Cardiac-specific deletion of GCN5L1 restricts recovery from ischemia-reperfusion injury
JR Manning, D Thapa, M Zhang, MW Stoner… - Journal of molecular and …, 2019 - Elsevier
GCN5L1 regulates mitochondrial protein acetylation, cellular bioenergetics, reactive oxygen
species (ROS) generation, and organelle positioning in a number of diverse cell types …
species (ROS) generation, and organelle positioning in a number of diverse cell types …
Loss of GCN5L1 in cardiac cells disrupts glucose metabolism and promotes cell death via reduced Akt/mTORC2 signaling
JR Manning, D Thapa, M Zhang, MW Stoner… - Biochemical …, 2019 - portlandpress.com
GCN5L1 regulates protein acetylation and mitochondrial energy metabolism in diverse cell
types. In the heart, loss of GCN5L1 sensitizes the myocardium to injury from exposure to …
types. In the heart, loss of GCN5L1 sensitizes the myocardium to injury from exposure to …
Mitochondrial CypD Acetylation Promotes Endothelial Dysfunction and Hypertension
A Dikalova, D Fehrenbach, V Mayorov… - Circulation …, 2024 - Am Heart Assoc
BACKGROUND: Nearly half of adults have hypertension, a major risk factor for
cardiovascular disease. Mitochondrial hyperacetylation is linked to hypertension, but the …
cardiovascular disease. Mitochondrial hyperacetylation is linked to hypertension, but the …
[PDF][PDF] Mitochondrial general control of amino acid synthesis 5 like 1 regulates glutaminolysis, mammalian target of rapamycin complex 1 activity, and murine liver …
Background and Aims The regenerative capacity of the liver plays a protective role against
hepatotoxins and impaired regeneration exacerbates liver dysfunction in nonalcoholic fatty …
hepatotoxins and impaired regeneration exacerbates liver dysfunction in nonalcoholic fatty …
[HTML][HTML] Brucella activates the host RIDD pathway to subvert BLOS1-directed immune defense
The phagocytosis and destruction of pathogens in lysosomes constitute central elements of
innate immune defense. Here, we show that Brucella, the causative agent of brucellosis, the …
innate immune defense. Here, we show that Brucella, the causative agent of brucellosis, the …