685 research outputs found
SARS-CoV-2 infection: A role for S1P/S1P receptor signaling in the nervous system?
The recent coronavirus disease (COVID-19) is still spreading worldwide. The severe acute respiratory syndrome coronavirus-2 (SARS-CoV-2), the virus responsible for COVID-19, binds to its receptor angiotensin-converting enzyme 2 (ACE2), and replicates within the cells of the nasal cavity, then spreads along the airway tracts, causing mild clinical manifestations, and, in a majority of patients, a persisting loss of smell. In some individuals, SARS-CoV-2 reaches and infects several organs, including the lung, leading to severe pulmonary disease. SARS-CoV-2 induces neurological symptoms, likely contributing to morbidity and mortality through unknown mechanisms. Sphingosine 1-phosphate (S1P) is a bioactive sphingolipid with pleiotropic properties and functions in many tissues, including the nervous system. S1P regulates neurogenesis and inflammation and it is implicated in multiple sclerosis (MS). Notably, Fingolimod (FTY720), a modulator of S1P receptors, has been approved for the treatment of MS and is being tested for COVID-19. Here, we discuss the putative role of S1P on viral infection and in the modulation of inflammation and survival in the stem cell niche of the olfactory epithelium. This could help to design therapeutic strategies based on S1P-mediated signaling to limit or overcome the host–virus interaction, virus propagation and the pathogenesis and complications involving the nervous system
A new record of the invasive seaweed Caulerpa cylindracea Sonder in the South Adriatic Sea
The green alga Caulerpa cylindracea Sonder is one of the most infamous and threatening invasive species in the Mediterranean Sea. Since 1985, it started rapidly spreading to all Mediterranean regions causing many ecological changes on natural communities. In the present study, we present an example of this proliferation with the first record in the Marine Protected Area of Tremiti Island (MPATI) in the South Adriatic Sea. Fifteen sites along the coast and 5 different depths have been investigated. Our results provide eveidence of a wide invasion of this pest in three islands, San Domino, San Nicola and Capraia. This study fills a particular data gap in the ongoing biomonitoring of invasive seaweeds in the Mediterranean Sea representing a base line of this invasive species for the MPATI
Studying oven technology towards the energy consumption optimisation for the baking process
A recent guideline from the European Commission declared that several highly energy consuming domestic equipment should be better regulated or avoided at all in the near future. Together with this, several EU nations are abandoning the gas ovens in favour of the electric ones, also due to the home energy rating regulations, that make impossible to get the highest rating with gas ovens. Due to this fact, the study of the technologies related to the energy efficiency in cooking is increasingly developing. The combination of several energy sources (e.g. forced convection, irradiation, microwave, etc.), as well as optimisation of each of them, is an emerging target for oven manufacturers, in matter of oven design and better use of the oven capabilities. Within this context, an energy consumption analysis and optimisation is targeted in this work, by the application of a bread baking model, validated on experimental data. Each source of energy is given the due importance and the practically applicable process solutions are compared. A basic quality standard is guaranteed by taking into account some quality markers, which are relevant on the basis of a consumer point of view. This work is a part of a more comprehensive study on oven cooking and energy integration, and could lead to practical applications in the design of energy efficient cooking programs
GPT-based Language Models meet Emojitaliano: A Preliminary Assessment Test between Automation and Creativity
Starting from the crowdsourcing experience of Pinocchio in Emojitaliano, the present paper intends to test Chat-GPT's ability to take on the Emojitaliano grammar and dedicated glossary to verify and reapply the Emojitaliano rules in order to produce translations on its own. A test of re-translation of Pinocchio is presented
GPT-based Language Models meet Emojitaliano: A Preliminary Assessment Test between Automation and Creativity
Starting from the crowdsourcing experience of Pinocchio in Emojitaliano, the present paper intends to test Chat-GPT's ability to take on the Emojitaliano grammar and dedicated glossary to verify and reapply the Emojitaliano rules in order to produce translations on its own. A test of re-translation of Pinocchio is presented
De novo mitochondrial DNA alteration in child with complex neurilogical compromission.
neuromuscular human diseases have been associated with
mitochondrial DNA (mtDNA) variations, causing defects of
oxidative phosphorylation. These dysfunctions affect
preferentially tissues with high energy demands and give arise
to several degenerative disorders such as optic neuropathy,
cerebellar ataxia, movement disorders, dementia, muscle
weakness and deafness. The extremely heterogeneous clinical
phenotype is due to the involved tissue, to specific mtDNA
mutations and their heteroplasmic level, but also to nuclear
DNA alterations, environmental and epigenetic factors. In this
study we investigated a child affected by a complex
neurological disease whose clinical features were suggestive
of a mitochondrial involvement.
Methods: mtDNA from proband, her healthy relatives
(grandmother, mother and two sisters) and 80 controls were
collected and studied by sequencing. The enzymatic activity of
specific respiratory chain complex was tested on lymphocytes
by spectrophotometric assay. Bioinformatic analysis was
performed to predict the pathogenicity of the detected variants.
Results: In all subjects we detected 11 known polymorphisms,
whereas 1 novel heteroplasmic variant in complex I
[ND5:12514G>A (E60K)] was present only in the proband and
in her grandmother and absent in controls. The bioinformatics
predicted the novel variant to be deleterious. Further,
spectrophotometric assay of complex I activity was lower both
in the proband and in her relatives than in the controls.
Conclusions: We report a novel mtDNA variant detected in a
patient affected by a complex neurological disease. The
reduction of complex I respiratory chain activity associated to
this variant suggests it could exert a pathogenic role in the
disease
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