Abdominal aortic aneurysms (AAAs) are characterized by ECM (extracellular matrix) degradation and chronic vascular inflammation, with macrophages playing a key role. The mechanisms regulating macropha Show more
Abdominal aortic aneurysms (AAAs) are characterized by ECM (extracellular matrix) degradation and chronic vascular inflammation, with macrophages playing a key role. The mechanisms regulating macrophage activation in AAA remain incompletely understood. Vascular macrophages express Olfr2 (olfactory receptor 2), a GPCR (G-protein-coupled receptor) implicated in inflammation, but its role in AAA development is unknown. We investigated the role of Olfr2 in AAA using PPE (porcine pancreatic elastase) infusion in Olfr2-deficient ( Microarray analysis revealed increased expression of the human Olfr2 regulates monocyte recruitment and macrophage-driven inflammation during AAA. Its genetic deletion or pharmacological inhibition protects against AAA, whereas receptor activation worsens the disease. Olfr2 represents a critical modulator of vascular inflammation and a potential therapeutic target in AAA. Show less
A Busturia, R Lagunas · 1986 · Journal of general microbiology · added 2026-04-24
The sugar transport systems of Saccharomyces cerevisiae are irreversibly inactivated when protein synthesis is inhibited. This inactivation is responsible for the drastic decrease in fermentation obse Show more
The sugar transport systems of Saccharomyces cerevisiae are irreversibly inactivated when protein synthesis is inhibited. This inactivation is responsible for the drastic decrease in fermentation observed in ammonium-starved yeast and is related to the occurrence of the Pasteur effect in these cells. Our study of the inactivation of the glucose transport system indicates that both the high-affinity and the low-affinity components of this system are inactivated. Inactivation of the high-affinity component evidently requires the utilization of a fermentable substrate by the cells, since inactivation did not occur during carbon starvation, when a fermentable sugar was added to starved cells, inactivation began, when the fermentation inhibitors iodoacetate or arsenate were added in addition to sugars, the inactivation was prevented, when a non-fermentable substrate was added instead of sugars, inactivation was also prevented. The inactivation of the low-affinity component appeared to show similar requirements. It is concluded that the glucose transport system in S. cerevisiae is regulated by a catabolite-inactivation process. Show less