Promoting remyelination is recognized as a novel strategy to foster repair in neurodegenerative demyelinating diseases, such as multiple sclerosis. In this respect, the receptor GPR17, recently emerged as a new target for remyelination, is expressed by early oligodendrocyte precursors (OPCs) and after a certain differentiation stage it has to be downregulated to allow progression to mature myelinating oligodendrocytes. Here, we took advantage of the first inducible GPR17 reporter mouse line (GPR17‐iCreERT2xCAG‐eGFP mice) allowing to follow the final fate of GPR17+ cells by tamoxifen‐induced GFP‐labeling to unveil the destiny of these cells in two demyelination models: experimental autoimmune encephalomyelitis (EAE), characterized by marked immune cell activation and inflammation, and cuprizone induced demyelination, where myelin dysfunction is achieved by a toxic insult. In both models, demyelination induced a strong increase of fluorescent GFP+ cells at damaged areas. However, only in the cuprizone model reacting GFP+ cells terminally differentiated to mature oligodendrocytes, thus contributing to remyelination. In EAE, GFP+ cells were blocked at immature stages and never became myelinating oligodendrocytes. We suggest these strikingly distinct fates be due to different permissiveness of the local CNS environment. Based on previously reported GPR17 activation by emergency signals (e.g., Stromal Derived Factor‐1), we propose that a marked inflammatory milieu, such as that reproduced in EAE, induces GPR17 overactivation resulting in impaired downregulation, untimely and prolonged permanence in OPCs, leading, in turn, to differentiation blockade. Combined treatments with remyelinating agents and anti‐inflammatory drugs may represent new potential adequate strategies to halt neurodegeneration and foster recovery.
Sporadic cases of human granulocytic anaplasmosis (HGA) have been reported in areas with a high prevalence of tick-borne diseases (TBDs) in Europe. We aimed at estimating the sero-prevalence of A. phagocytophilum and other TBDs in northeastern Italy in outpatients with a history of recent tick bite or suspected TBD. In the 1-year study, 79 patients were enrolled and 30 (38%) received a diagnosis of TBD: 24 (30%) with Lyme disease and 5 (6%) with HGE. Our findings indicate the presence of HGA in northeastern Italy; so, since co-infection with Lyme disease appeared to be frequent, physicians assessing patients after a tick bite should consider HGA in the diagnosis.
High-frequency water quality measurements in streams
and rivers
have expanded in scope and sophistication during the last two decades.
Existing technology allows in situ automated measurements
of water quality constituents, including both solutes and particulates,
at unprecedented frequencies from seconds to subdaily sampling intervals.
This detailed chemical information can be combined with measurements
of hydrological and biogeochemical processes, bringing new insights
into the sources, transport pathways, and transformation processes
of solutes and particulates in complex catchments and along the aquatic
continuum. Here, we summarize established and emerging high-frequency
water quality technologies, outline key high-frequency hydrochemical
data sets, and review scientific advances in key focus areas enabled
by the rapid development of high-frequency water quality measurements
in streams and rivers. Finally, we discuss future directions and challenges
for using high-frequency water quality measurements to bridge scientific
and management gaps by promoting a holistic understanding of freshwater
systems and catchment status, health, and function.
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