The KINDRA project – towards Open Science in Hydrogeology for higher impact

Groundwater knowledge and research in the European Union is often scattered and non-standardised. Therefore, KINDRA is conducting an EU-wide assessment of existing groundwater-related practical and scientific knowledge based on a new Hydrogeological Research Classification System (HRC-SYS). The classification is supported by a web service, the European Inventory of Groundwater Research (EIGR), which acts not only as a knowledge repository but also as a tool to help identify relevant research topics, existing research trends and critical research challenges. These results will be useful for producing synergies, implementing policies and optimising water management in Europe. This article presents the work of the project during the first two years in relation to a common classification system and an activity for data collection and training delivered by the EFG’s National Associations in 20 European countries

Geology of the historical Bodrogköz

Abstract The Bodrogköz is predominantly a flat area surrounded by the rivers Tisza, Bodrog and Latorica. The Hungarian-Slovakian border cuts it into two parts; consequently, the geologic data in the two countries are different in terms of scale and in approach. The authors harmonized the different data on the two sides and created a unified geologic database for the entire area. The Bodrogköz is part of the depression at the northeastern part of the Great Hungarian Plain. It is covered mostly by Quaternary formations but in the Slovakian part there are smaller outcrops of Permian formations and Miocene volcanics

Kynurenic Acid Triggers Firm Arrest of Leukocytes to Vascular Endothelium under Flow Conditions*

Recent studies have demonstrated that kynurenic acid (KYNA), a compound produced endogenously by the interferon-γ-induced degradation of tryptophan by indoleamine 2,3-dioxygenase, activates the previously orphaned G protein-coupled receptor, GPR35. This receptor is expressed in immune tissues, although its potential function in immunomodulation remains to be explored. We determined that GPR35 was most highly expressed on human peripheral monocytes. In an in vitro vascular flow model, KYNA triggered the firm arrest of monocytes to both fibronectin and ICAM-1, via β1 integrin- and β2 integrin-mediated mechanisms, respectively. Incubation of monocytes with pertussis toxin prior to use in flow experiments significantly reduced the KYNA-induced monocyte adhesion, suggesting that adhesion is triggered by a Gi-mediated process. Furthermore, KYNA-triggered adhesion of monocytic cells was reduced by short hairpin RNA-mediated silencing of GPR35. Although GPR35 is expressed at slightly lower levels on neutrophils, KYNA induced firm adhesion of these cells to an ICAM-1-expressing monolayer as well. KYNA also elicited neutrophil shedding of surface L-selectin, another indicator of leukocyte activation. Taken together, these data suggest that KYNA could be an important early mediator of leukocyte recruitment

Quinolinate and related excitotoxins: mechanisms of neurotoxicity and disease relevance

There are many ways in which neuronal damage can be produced in the brain, including the overactivation of depolarizing receptors, exposure to high levels of pro-inflammatory proteins such as cytokines, or miscellaneous toxins, but the kynurenine pathway has emerged as a novel but potentially major factor in regulating neuronal viability or death. It is the major route for the metabolism of the essential amino acid tryptophan, which is oxidized by indoleamine-2,3-dioxygenase (IDO) to a series of compounds which can activate, block, or modulate conventional neurotransmitter receptors. Quinolinic acid is an agonist at N-methyl-d-aspartate receptors, kynurenic acid is an antagonist at these and other glutamate receptors, and other kynurenine metabolites are highly redox-active. Superimposed on the discovery of this neuromodulatory pathway have been observations that activity in the pathway is linked to neurological and psychiatric disorders, correlating with disease state (as in Huntington’s disease) or cognitive function (as following bypass surgery). Together, the data accumulated to date make a strong case for this hitherto obscure pathway being a major factor in determining cell damage, death, or recovery in health and disease