Molecular and functional characterization of the Odorant Receptor2 (OR2) in the tiger mosquito Aedes albopictus.

In mosquitoes, olfactory system plays a crucial role in many behaviors, including nectar feeding, host preference selection, searching for the right place to lay eggs. A.albopicus, known also as tiger mosquito, is an anthropophilic species which in the last years, due to a strong ecological plasticity, has spread throughout the world and all over Italy with a high abundance in man-made environments. Although long considered a secondary vector of viruses, the potentiality of its vectorial capacity is very dangerous and may constitute the foundation for a public health alert. Nevertheless, to date, for this mosquito nothing is known at molecular level. Based on the idea that an improved understanding of the olfactory system of mosquitoes may help in developing control methods that interfere with its behavior, recently we have undertaken a study aimed to characterize the A. albopictus Odorant Receptors. During my PhD work, I focused my attention on the identification, cloning and functional characterization of the A. albopictus OR2 ortholog. My data indicate that A. albopictus OR2 (AalOR2) shares a high degree of identity with the other mosquito OR2 orthologs characterized to date, confirming that OR2 is one of the most conserved mosquito ORs; furthermore, AalOR2 is expressed in the olfactory appendages of larvae and adults and its expression increases after a blood meal, as determined by a semi-quantitative RT-PCR. Interestingly, this is the first report of an up-regulation of an OR in response to a blood meal; this increase could suggest a role of AalOR2 in searching oviposition right places. AalOR2, such as the other orthologs, is narrowly tuned to indole, a ubiquitous volatile compound that has been linked to host seeking, and oviposition. The de-orphaning of AalOR2 has been obtained, with same results, through Ca2+ imaging assay in HEK293 cells, and “in vivo” experiments using the Single Sensillum Recording (SSR) in an engineered neuron of the fruitfly Drosophila melanogaster that express AalOR2. Furthermore, by using this technique, I was able to identify also a molecule, (-)Menthone, that produced an inhibitory effect on this Odorant Receptor. In summary, this work led to the cloning and de-orphaning of the first Odorant Receptor in A. albopictus, that may be used as potential molecular target for developing environmentally friendly strategies to control mosquito populations

Mitochondrial redox signaling: a key player in aging and disease

No abstract available

Handgrip strength and health related quality of life in individuals with copd

In individuals with chronic obstructive pulmonary disease (COPD), skeletal muscle wasting and changes in muscle fiber composition limit the muscle strength with consequences on daily physical activities. In the present study we aimed to investigate about the interconnection among upper limb strength, body composition and health related quality of life (HRQoL) in patients with COPD to verify the impact of muscle mass loss on HRQoL. Twenty-six consecutive patients (69.2% male; age: 69.7±7.29 years) with COPD were included. Patients underwent pulmonary function tests. Body composition was evaluated through Bioelectrical Impedance Analysis (BIA); handgrip test was used for measure upper limb strength. St George’s Respiratory Questionnaire (SGRQ) was used to evaluate patients’ HRQoL. Upper limb muscle strength was negatively correlated with SGRQ (Pearson=-0.571; p=0.002) in particular with activity and impact domains (Pearson=-0.668; p<0.001 and Pearson =-0.461; p=0.02). Multivariate linear regression confirm that poor handgrip strength is a predictor of worse SGRQ after adjusting for gender, age, fat free mass index and inhaled corticosteroids use (p=0.012). Upper limb muscle strength and body composition are two essential tools in the multisystemic assessment of patients with COPD. © 2020, Segretariato Italiano Giovani Medici - Associazione Italiana Medici. All rights reserved

A functional connection between dyskerin and energy metabolism

The human DKC1 gene encodes dyskerin, an evolutionarily conserved nuclear protein whose overexpression represents a common trait of many types of aggressive sporadic cancers. As a crucial component of the nuclear H/ACA snoRNP complexes, dyskerin is involved in a variety of essential processes, including telomere maintenance, splicing efficiency, ribosome biogenesis, snoRNAs stabilization and stress response. Although multiple minor dyskerin splicing isoforms have been identified, their functions remain to be defined. Considering that low-abundance splice variants could contribute to the wide functional repertoire attributed to dyskerin, possibly having more specialized tasks or playing significant roles in changing cell status, we investigated in more detail the biological roles of a truncated dyskerin isoform that lacks the C-terminal nuclear localization signal and shows a prevalent cytoplasmic localization. Here we show that this dyskerin variant can boost energy metabolism and improve respiration, ultimately conferring a ROS adaptive response and a growth advantage to cells. These results reveal an unexpected involvement of DKC1 in energy metabolism, highlighting a previously underscored role in the regulation of metabolic cell homeostasis

Molecular and Functional Characterization of the Odorant Receptor2 (OR2) in the Tiger Mosquito Aedes albopictus

In mosquitoes, the olfactory system plays a crucial role in many types of behavior, including nectar feeding, host preference selection and oviposition. Aedes albopictus, known also as the tiger mosquito, is an anthropophilic species, which in the last few years, due to its strong ecological plasticity, has spread throughout the world. Although long considered only a secondary vector of viruses, the potential of its vector capacity may constitute a threat to public health. Based on the idea that an improved understanding of the olfactory system of mosquitoes may assist in the development of control methods that interfere with their behavior, we have undertaken a study aimed at characterizing the A. albopictus Odorant Receptors. Here we report the identification, cloning and functional characterization of the AalOR2 ortholog, that represents the first candidate member of the odorant receptor (OR) family of proteins from A. albopictus. AalOR2 is expressed in the larval heads and antennae of adults. Our data indicate that A. albopictus OR2 (AalOR2) shares a high degree of identity with other mosquito OR2 orthologs characterized to date, confirming that OR2 is one of the most conserved mosquito ORs. Our data indicate that AalOR2 is narrowly tuned to indole, and inhibited by (-)-menthone. In agreement with this results, these two compounds elicit two opposite effects on the olfactory-based behavior of A. albopictus larvae, as determined through a larval behavioral assay. In summary, this work has led to the cloning and de-orphaning of the first Odorant Receptor in the tiger mosquito A. albopictus. In future control strategies this receptor may be used as a potential molecular target

Building stronger communities through health and wellness

Influenza Vaccination for Faith-based CommunitiesHealth and wellness mean taking care of the whole person: mind, body, spirit. But due to busy schedules, we may put our own well-being last.This year, we want to make it easier for you and your loved ones to put your well-being first, by making vaccination more convenient.Flu can be a serious disease, even for healthy people. Everyone 6 months and older is recommended to get a yearly flu vaccine.Protect your family, congregation and yourself by getting the flu vaccine.Publication date from document properties.CS233082-

Adiponectin and Leptin Exert Antagonizing Effects on HUVEC Tube Formation and Migration Modulating the Expression of CXCL1, VEGF, MMP-2 and MMP-9

Adiponectin and leptin are two abundant adipokines with different properties but both described such as potent factors regulating angiogenesis. AdipoRon is a small-molecule that, binding to AdipoRs receptors, acts as an adiponectin agonist. Here, we investigated the effects of AdipoRon and leptin on viability, migration and tube formation on a human in vitro model, the human umbilical vein endothelial cells (HUVEC) focusing on the expression of the main endothelial angiogenic factors: hypoxia-inducible factor 1-alpha (HIF-1α), C-X-C motif chemokine ligand 1 (CXCL1), vascular endothelial growth factor A (VEGF-A), matrix metallopeptidase 2 (MMP-2) and matrix metallopeptidase 9 (MMP-9). Treatments with VEGF-A were used as positive control. Our data revealed that, at 24 h treatment, proliferation of HUVEC endothelial cells was not influenced by AdipoRon or leptin administration; after 48 h longer exposure time, the viability was negatively influenced by AdipoRon while leptin treatment and the combination of AdipoRon+leptin produced no effects. In addition, AdipoRon induced a significant increase in complete tubular structures together with induction of cell migration while, on the contrary, leptin did not induce tube formation and inhibited cell migration; interestingly, the co-treatment with both AdipoRon and leptin determined a significant decrease of the tubular structures and cell migration indicating that leptin antagonizes AdipoRon effects. Finally, we found that the effects induced by AdipoRon administration are accompanied by an increase in the expression of CXCL1, VEGF-A, MMP-2 and MMP-9. In conclusion, our data sustain the active role of adiponectin and leptin in linking adipose tissue with the vascular endothelium encouraging the further deepening of the role of adipokines in new vessel’s formation, to candidate them as therapeutic targets

Metabolic Perturbations and Severe COVID-19 Disease: Implication of Molecular Pathways

Coronavirus disease (COVID-19) is caused by SARS-CoV-2 virus, which can result in serious respiratory illnesses such as pneumonia leading to respiratory failure. It was first reported in Wuhan, Hubei, China, in December 2019 and rapidly spread globally, becoming a pandemic in March 2020. Among comorbidities observed in SARS-CoV-2 positive patients, hypertension (68.3%) and type 2-diabetes (30.1%) are the most frequent conditions. Although symptoms are highly heterogeneous (ranging from absence of symptoms to severe acute respiratory failure), patients with metabolic-associated diseases often experience worse COVID-19 outcomes. This review investigates the association between metabolic disorders and COVID-19 severity, exploring the molecular mechanisms potentially underlying this relationship and those that are responsible for more severe COVID-19 outcomes. In addition, the role of the main biological processes that may connect metabolic alterations to SARS-CoV-2 infection such as hyperglycemia, immune system deregulation, ACE-2 receptor modulation, and inflammatory response is described. The impact of metabolic disorders on the prognosis of COVID-19 has major implications in public health especially for countries affected by a high incidence of metabolic diseases