15 research outputs found
New aspects in the regulation of human B cell functions by complement receptors CR1, CR2, CR3 and CR4
Immune cells as messengers from the CNS to the periphery: the role of the meningeal lymphatic system in immune cell migration from the CNS
In recent decades there has been a large focus on understanding the mechanisms of peripheral immune cell infiltration into the central nervous system (CNS) in neuroinflammatory diseases. This intense research led to several immunomodulatory therapies to attempt to regulate immune cell infiltration at the blood brain barrier (BBB), the choroid plexus (ChP) epithelium, and the glial barrier. The fate of these infiltrating immune cells depends on both the neuroinflammatory environment and their type-specific interactions with innate cells of the CNS. Although the fate of the majority of tissue infiltrating immune cells is death, a percentage of these cells could become tissue resident immune cells. Additionally, key populations of immune cells can possess the ability to “drain” out of the CNS and act as messengers reporting signals from the CNS toward peripheral lymphatics. Recent data supports that the meningeal lymphatic system is involved not just in fluid homeostatic functions in the CNS but also in facilitating immune cell migration, most notably dendritic cell migration from the CNS to the meningeal borders and to the draining cervical lymph nodes. Similar to the peripheral sites, draining immune cells from the CNS during neuroinflammation have the potential to coordinate immunity in the lymph nodes and thus influence disease. Here in this review, we will evaluate evidence of immune cell drainage from the brain via the meningeal lymphatics and establish the importance of this in animal models and humans. We will discuss how targeting immune cells at sites like the meningeal lymphatics could provide a new mechanism to better provide treatment for a variety of neurological conditions
Herpesvirus-mediated delivery of a genetically encoded fluorescent Ca2+ sensor to canine cardiomyocytes
We report the development and application of a pseudorabies virus-based system for delivery of troponeon, a fluorescent Ca2+ sensor to adult canine cardiomyocytes. The efficacy of transduction was assessed by calculating the ratio of fluorescently labelled and nonlabelled cells in cell culture. Interaction of the virus vector with electrophysiological properties of cardiomyocytes was evaluated by the analysis of transient outward current (Ito), kinetics of the intracellular Ca2+ transients, and cell shortening. Functionality of transferred troponeon was verified by FRET analysis. We demonstrated that the transfer efficiency of troponeon to cultured adult cardiac myocytes was virtually 100%. We showed that even after four days neither the amplitude nor the kinetics of the Ito current was significantly changed and no major shifts occurred in parameters of [Ca2+]i transients. Furthermore, we demonstrated that infection of cardiomyocytes with the virus did not affect the morphology, viability, and physiological attributes of cells
Corneal Sensitivity and Dry Eye Symptoms in Patients with Keratoconus.
PURPOSE: To investigate corneal sensitivity to selective mechanical, chemical, and thermal stimulation and to evaluate their relation to dry eye symptoms in patients with keratoconus. METHODS: Corneal sensitivity to mechanical, chemical, and thermal thresholds were determined using a gas esthesiometer in 19 patients with keratoconus (KC group) and in 20 age-matched healthy subjects (control group). Tear film dynamics was assessed by Schirmer I test and by the non-invasive tear film breakup time (NI-BUT). All eyes were examined with a rotating Scheimpflug camera to assess keratoconus severity. RESULTS: KC patients had significatly decreased tear secretion and significantly higher ocular surface disease index (OSDI) scores compared to controls (5.3+/-2.2 vs. 13.2+/-2.0 mm and 26.8+/-15.8 vs. 8.1+/-2.3; p0.05). The mean threshold for selective mechanical (KC: 139.2+/-25.8 vs. control: 109.1+/-24.0 ml/min), chemical (KC: 39.4+/-3.9 vs. control: 35.2+/-1.9%CO2), heat (KC: 0.91+/-0.32 vs. control: 0.54+/-0.26 Delta degrees C) and cold (KC: 1.28+/-0.27 vs. control: 0.98+/-0.25 Delta degrees C) stimulation in the KC patients were significantly higher than in the control subjects (p0.05), whereas in the control subjects both mechanical (r = 0.52, p = 0.02), chemical (r = 0.47, p = 0.04), heat (r = 0.26, p = 0.04) and cold threshold (r = 0.40, p = 0.03) increased with age. In the KC group, neither corneal thickness nor tear flow, NI-BUT or OSDI correlated significantly with mechanical, chemical, heat or cold thresholds (p>0.05 for all variables). CONCLUSIONS: Corneal sensitivity to different types of stimuli is decreased in patients with keratoconus independently of age and disease severity. The reduction of the sensory input from corneal nerves may contribute to the onset of unpleasant sensations in these patients and might lead to the impaired tear film dynamics
Species History Masks the Effects of Human-Induced Range Loss – Unexpected Genetic Diversity in the Endangered Giant Mayfly Palingenia longicauda
Freshwater biodiversity has declined dramatically in Europe in recent decades. Because of massive habitat pollution and morphological degradation of water bodies, many once widespread species persist in small fractions of their original range. These range contractions are generally believed to be accompanied by loss of intraspecific genetic diversity, due to the reduction of effective population sizes and the extinction of regional genetic lineages. We aimed to assess the loss of genetic diversity and its significance for future potential reintroduction of the long-tailed mayfly Palingenia longicauda (Olivier), which experienced approximately 98% range loss during the past century. Analysis of 936 bp of mitochondrial DNA of 245 extant specimens across the current range revealed a surprisingly large number of haplotypes (87), and a high level of haplotype diversity (). In contrast, historic specimens (6) from the lost range (Rhine catchment) were not differentiated from the extant Rába population (, ), despite considerable geographic distance separating the two rivers. These observations can be explained by an overlap of the current with the historic (Pleistocene) refugia of the species. Most likely, the massive recent range loss mainly affected the range which was occupied by rapid post-glacial dispersal. We conclude that massive range losses do not necessarily coincide with genetic impoverishment and that a species' history must be considered when estimating loss of genetic diversity. The assessment of spatial genetic structures and prior phylogeographic information seems essential to conserve once widespread species
Measurement, growth types and shrinkage of newly formed aerosol particles at an urban research platform
Budapest platform for
Aerosol Research and Training (BpART) was created for advancing long-term
on-line atmospheric measurements and intensive aerosol sample collection
campaigns in Budapest. A joint study including atmospheric chemistry or
physics, meteorology, and fluid dynamics on several-year-long data sets
obtained at the platform confirmed that the location represents a well-mixed,
average atmospheric environment for the city centre. The air streamlines
indicated that the host and neighbouring buildings together with the natural
orography play an important role in the near-field dispersion processes.
Details and features of the airflow structure were derived, and they can be
readily utilised for further interpretations. An experimental method to
determine particle diffusion losses in the differential mobility particle
sizer (DMPS) system of the BpART facility was proposed. It is based on
CPC–CPC (condensation particle counter) and
DMPS–CPC comparisons. Growth types of nucleated
particles observed in 4 years of measurements were presented and discussed
specifically for cities. Arch-shaped size distribution surface plots
consisting of a growth phase followed by a shrinkage phase were characterised
separately since they supply information on nucleated particles. They were
observed in 4.5 % of quantifiable nucleation events. The shrinkage phase
took 1 h 34 min in general, and the mean shrinkage rate with standard
deviation was −3.8 ± 1.0 nm h<sup>−1</sup>. The shrinkage of particles
was mostly linked to changes in local atmospheric conditions, especially in
global radiation and the gas-phase H<sub>2</sub>SO<sub>4</sub> concentration through its
proxy, or to atmospheric mixing in few cases. Some indirect results indicate
that variations in the formation and growth rates of nucleated particles
during their atmospheric transport could be a driving force of shrinkage for
particles of very small sizes and on specific occasions
Measurement, growth types and shrinkage of newly formed aerosol particles at an urban research platform
Budapest platform for
Aerosol Research and Training (BpART) was created for advancing long-term
on-line atmospheric measurements and intensive aerosol sample collection
campaigns in Budapest. A joint study including atmospheric chemistry or
physics, meteorology, and fluid dynamics on several-year-long data sets
obtained at the platform confirmed that the location represents a well-mixed,
average atmospheric environment for the city centre. The air streamlines
indicated that the host and neighbouring buildings together with the natural
orography play an important role in the near-field dispersion processes.
Details and features of the airflow structure were derived, and they can be
readily utilised for further interpretations. An experimental method to
determine particle diffusion losses in the differential mobility particle
sizer (DMPS) system of the BpART facility was proposed. It is based on
CPC–CPC (condensation particle counter) and
DMPS–CPC comparisons. Growth types of nucleated
particles observed in 4 years of measurements were presented and discussed
specifically for cities. Arch-shaped size distribution surface plots
consisting of a growth phase followed by a shrinkage phase were characterised
separately since they supply information on nucleated particles. They were
observed in 4.5 % of quantifiable nucleation events. The shrinkage phase
took 1 h 34 min in general, and the mean shrinkage rate with standard
deviation was −3.8 ± 1.0 nm h−1. The shrinkage of particles
was mostly linked to changes in local atmospheric conditions, especially in
global radiation and the gas-phase H2SO4 concentration through its
proxy, or to atmospheric mixing in few cases. Some indirect results indicate
that variations in the formation and growth rates of nucleated particles
during their atmospheric transport could be a driving force of shrinkage for
particles of very small sizes and on specific occasions
Automated and Secure Onboarding for System of Systems
The Internet of Things (IoT) is rapidly changing the number of connected devices and the way they interact with each other. This increases the need for an automated and secure onboarding procedure for IoT devices, systems and services. Device manufacturers are entering the market with internet connected devices, ranging from small sensors to production devices, which are subject of security threats specific to IoT. The onboarding procedure is required to introduce a new device in a System of Systems (SoS) without compromising the already onboarded devices and the underlying infrastructure. Onboarding is the process of providing access to the network and registering the components for the first time in an IoT/SoS framework, thus creating a chain of trust from the hardware device to its hosted software systems and their provided services. The large number and diversity of device hardware, software systems and running services raises the challenge to establish a generic onboarding procedure. In this paper, we present an automated and secure onboarding procedure for SoS. We have implemented the onboarding procedure in the Eclipse Arrowhead framework. However, it can be easily adapted for other IoT/SoS frameworks that are based on Service-oriented Architecture (SoA) principles. The automated onboarding procedure ensures a secure and trusted communication between the new IoT devices and the Eclipse Arrowhead framework. We show its application in a smart charging use case and perform a security assessment