Particulate matter inhalation during hay storing activity induces systemic inflammation and platelet aggregation

The aim of this study was to investigate possible pathomechanisms behind the cardiovascular morbidity caused by inhalation of particulate matter (PM(10)). For that purpose, healthy volunteers were exposed to high PM(10) concentrations during a 2 h hay storing activity. Blood was drawn in the evening before and after PM(10) exposure and in the morning and evening of the day after exposure. The leukocyte count increased after PM(10) exposure with an initial increase of segmented neutrophils followed by banded forms. C-reactive protein increased over time. Fibrinogen and plasma viscosity became increased in the evening of the day after PM(10) exposure. Platelet aggregation was increased in the evening after PM(10) exposure. At the same time von Willebrand factor and factor VIII were increased, reflecting endothelial activation. These results confirm that acute inhalative exposure to high PM(10) concentrations during hay storage activity leads to a systemic inflammatory reaction, endothelial activation, and platelet aggregation

Interaction of purinergic receptors with GPCRs, ion channels, tyrosine kinase and steroid hormone receptors orchestrates cell function

Extracellular purines and pyrimidines have emerged as key regulators of a wide range of physiological and pathophysiological cellular processes acting through P1 and P2 cell surface receptors. Increasing evidence suggests that purinergic receptors can interact with and/or modulate the activity of other classes of receptors and ion channels. This review will focus on the interactions of purinergic receptors with other GPCRs, ion channels, receptor tyrosine kinases, and steroid hormone receptors. Also, the signal transduction pathways regulated by these complexes and their new functional properties are discussed