Population growth, socio-cultural and economic changes as well as technological progress have an immediate impact on the environment and human health in particular. Our steadily rising needs of resources increase the pressure on the environment and narrow down untainted habitats for plants and wild animals. Balance and resilience of ecosystems are further threatened by climate change, as temperature and seasonal shifts increase the pressure for all species to find successful survival strategies. Arctic and subarctic regions are especially vulnerable to climate change, as thawing of permafrost significantly transforms soil structures, vegetation and habitats. With rising temperature, the risk of zoonotic diseases in the Republic of Sakha (Yakutia) has also increased. As vegetation periods prolong and habitats broaden, zoonotic pathogens and their vectors find more favourable living conditions. Moreover, permafrost degradation may expose historic burial grounds and allow for reviving the vectors of deadly infections from the past. To assess the current state of knowledge and emerging risks in the light of the "One Health" concept, a German-Russian Symposium took place on 13 August 2018 in Yakutsk, Russian Federation. This symposium report presents the main findings generated from presentations and discussions.
In Germany, phage research and application can be traced back to the beginning of the 20th century. However, with the triumphal march of antibiotics around the world, the significance of bacteriophages faded in most countries, and respective research mainly focused on fundamental questions and niche applications. After a century, we pay tribute to the overuse of antibiotics that led to multidrug resistance and calls for new strategies to combat pathogenic microbes. Against this background, bacteriophages came into the spotlight of researchers and practitioners again resulting in a fast growing “phage community”. In October 2017, part of this community met at the 1st German Phage Symposium to share their knowledge and experiences. The participants discussed open questions and challenges related to phage therapy and the application of phages in general. This report summarizes the presentations given, highlights the main points of the round table discussion and concludes with an outlook for the different aspects of phage application.
One hundred years after the discovery of acetylcholine (ACh) by Otto Lowei, ACh receptors, transporters and synthesizing and degrading enzymes became well-recognized contributors to cognition, neuromuscular, metabolic and immune processes. However, newer technologies identified unexpected molecular controllers over ACh signaling, including the SLEEPLESS, Isl1 and Lynx1 genes. These regulators are responsible, among other effects to the fine-tuned identity, functioning modes, dynamics and inter-cellular interactions of cholinergic cell types in and out of the brain, changing our understanding of ACh’s roles in human health and wellbeing. Furthermore, Genome-Wide Association Studies identify new disease-associated mutations and single nucleotide polymorphisms in coding and non-coding sequences within these genes. These discoveries add autism, amyotrophic lateral sclerosis, acute cardiac events, narcolepsy and obesity to the established acquired and inherited neuromuscular, stress-induced, dementia and epilepsy disorders that were traditionally associated with impaired ACh functioning. At the molecular level, cholinergic signaling involves both up- and down-regulation events of transcription, epigenetic modulations, alternative splicing and microRNA suppression that together coordinate the multi-targeted ACh signaling in brain and body functions and are also responsible to the reactions of patients to anti-cholinesterase therapeutics of Alzheimer’s disease as well as to global exposure to agricultural pesticides and to individual tendencies for nicotine addiction, calling for new basic and translational research venues for regulating ACh signaling. Integrating these molecular ACh regulators into every discussion of cholinergic issues, should incorporate data obtained by clinicians and molecular geneticists, neuroscientists and structural biochemists over the past decades into a refreshed look at the intricate checks and balances over cholinergic signaling. Our understanding of the cholinergic regulators is incomplete, but time is ripe to summarize the recent reports on checks and balances of cholinergic signaling and their implications in health and disease.
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