Vladimı́r Rudajev scite author profile

Proper determination of agonist efficacy is essential in the assessment of agonist selectivity and signalling bias. Agonist efficacy is a relative term that is dependent on the system in which it is measured, especially being dependent on receptor expression level. The operational model (OM) of functional receptor agonism is a useful means for the determination of agonist functional efficacy using the maximal response to agonist and ratio of agonist functional potency to its equilibrium dissociation constant (KA) at the active state of the receptor. However, the functional efficacy parameter τ is inter-dependent on two other parameters of OM; agonist’s KA and the highest response that could be evoked in the system by any stimulus (EMAX). Thus, fitting of OM to functional response data is a tricky process. In this work we analyse pitfalls of fitting OM to experimental data and propose a rigorous fitting procedure where KA and EMAX are derived from half-efficient concentration of agonist and apparent maximal responses obtained from a series of functional response curves. Subsequently, OM with fixed KA and EMAX is fitted to functional response data to obtain τ. The procedure was verified at M2 and M4 muscarinic receptors fused with the G15 G-protein α-subunit. The procedure, however, is applicable to any receptor-effector system.

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Laboratory studies of acoustic emission prior to uniaxial compressive rock failure

Rudajev

Vilhelm

Lokajı́ček³

2000

International Journal of Rock Mechanics and Mining Sciences

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Cholesterol as a key player in amyloid β-mediated toxicity in Alzheimer’s disease

Rudajev

Novotný

2022

Front. Mol. Neurosci.

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Alzheimer’s disease (AD) is a neurodegenerative disorder that is one of the most devastating and widespread diseases worldwide, mainly affecting the aging population. One of the key factors contributing to AD-related neurotoxicity is the production and aggregation of amyloid β (Aβ). Many studies have shown the ability of Aβ to bind to the cell membrane and disrupt its structure, leading to cell death. Because amyloid damage affects different parts of the brain differently, it seems likely that not only Aβ but also the nature of the membrane interface with which the amyloid interacts, helps determine the final neurotoxic effect. Because cholesterol is the dominant component of the plasma membrane, it plays an important role in Aβ-induced toxicity. Elevated cholesterol levels and their regulation by statins have been shown to be important factors influencing the progression of neurodegeneration. However, data from many studies have shown that cholesterol has both neuroprotective and aggravating effects in relation to the development of AD. In this review, we attempt to summarize recent findings on the role of cholesterol in Aβ toxicity mediated by membrane binding in the pathogenesis of AD and to consider it in the broader context of the lipid composition of cell membranes.

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Membrane cholesterol content influences binding properties of muscarinic M2 receptors and differentially impacts activation of second messenger pathways

Michal

Rudajev

El‐Fakahany

et al. 2009

European Journal of Pharmacology

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We investigated the influence of membrane cholesterol content on preferential and non-preferential signaling through the M 2 muscarinic acetylcholine receptor expressed in CHO cells. Cholesterol depletion by 39% significantly decreased the affinity of M 2 receptors for [ 3 H]-N-methylscopolamine ([ 3 H]-NMS) binding and increased B max in intact cells and membranes. Membranes displayed twoaffinity agonist binding sites for carbachol and cholesterol depletion doubled the fraction of highaffinity binding sites. In intact cells it also reduced the rate of agonist-induced receptor internalization and changed the profile of agonist binding from a single site to two affinity states. Cholesterol enrichment by 137% had no effects on carbachol E max of cAMP synthesis inhibition and on cAMP synthesis stimulation and inositolphosphates (IP) accumulation at higher agonist concentrations (non-preferred pathways). On the other hand, cholesterol depletion significantly increased E max of cAMP synthesis inhibition or stimulation without change in potency, and decreased E max of IP accumulation. Noteworthy, modifications of membrane cholesterol had no effect on membrane permeability, oxidative activity, protein content, or relative expression of G s , G i/o , and G q/11 alpha subunits. These results demonstrate distinct changes of M 2 receptor signaling through both preferential and non-preferential G-proteins consequent to membrane cholesterol depletion that occur at the level of receptor/G-protein/effector protein interactions in the cell membrane. The significant decrease of IP accumulation by cholesterol depletion was also observed in cells expressing M 3 receptors and by both cholesterol depletion and enrichment in cells expressing M 1 receptors indicating relevance of reduced G q/11 signaling for the pathogenesis of Alzheimer's disease.

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Acoustic Emission Characteristics and Failure of Uniaxially Stressed Granitic Rocks: the Effect of Rock Fabric

Přikryl

Lokajı́ček

et al. 2003

Rock Mechanics and Rock Engineering

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