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Microbiology Spectrum Aug 2023Duck plague virus (DPV) is a member of the alphaherpesvirus subfamily, and its genome encodes a conserved envelope protein, protein UL10 (pUL10). pUL10 plays complex...
Duck plague virus (DPV) is a member of the alphaherpesvirus subfamily, and its genome encodes a conserved envelope protein, protein UL10 (pUL10). pUL10 plays complex roles in viral fusion, assembly, cell-to-cell spread, and immune evasion, which are closely related to its protein characteristics and partners. Few studies have been conducted on DPV pUL10. In this study, we identified the characteristics of pUL10, such as the type of glycosylation modification and subcellular localization. The characteristic differences in pUL10 in transfection and infection suggest that there are other viral proteins that participate in pUL10 modification and localization. Therefore, pUL49.5, the interaction partner of pUL10, was explored. We found that pUL10 interacts with pUL49.5 during transfection and infection. Their interaction entailed multiple interaction sites, including noncovalent forces in the pUL49.5 N-terminal domains and C-terminal domains and a covalent disulfide bond between two conserved cysteines. pUL49.5 promoted pUL10 expression and mature N-linked glycosylation modification. Moreover, deletion of UL49.5 in DPV caused the molecular mass of pUL10 to decrease by approximately3 to 10 kDa, which suggested that pUL49.5 was the main factor affecting the N-linked glycosylation of DPV pUL10 during infection. This study provides a basis for future exploration of the effect of pUL10 glycosylation on virus proliferation. Duck plague is a disease with high morbidity and mortality rates, and it causes great losses for the duck breeding industry. Duck plague virus (DPV) is the causative agent of duck plague, and DPV UL10 protein (pUL10) is a homolog of glycoprotein M (gM), which is conserved in herpesviruses. pUL10 plays complex roles in viral fusion, assembly, cell-to-cell spread, and immune evasion, which are closely related to its protein characteristics and partners. In this study, we systematically explored whether pUL49.5 (a partner of pUL10) plays roles in the localization, modification, and expression of pUL10.
Topics: Animals; Glycosylation; Ducks; Viral Proteins; Mardivirus; Herpesviridae Infections
PubMed: 37378543
DOI: 10.1128/spectrum.01625-23 -
Biological Psychiatry Jan 2024Traumatic brain injury (TBI) and opioid use disorder (OUD) comprise twin plagues causing considerable morbidity and mortality worldwide. As interactions between TBI and... (Review)
Review
Traumatic brain injury (TBI) and opioid use disorder (OUD) comprise twin plagues causing considerable morbidity and mortality worldwide. As interactions between TBI and OUD are to our knowledge uncharted, we review the possible mechanisms by which TBI may stimulate the development of OUD and discuss the interaction or crosstalk between these two processes. Central nervous system damage due to TBI appears to drive adverse effects of subsequent OUD and opioid use/misuse affecting several molecular pathways. Pain, a neurological consequence of TBI, is a risk factor that increases the likelihood of opioid use/misuse after TBI. Other comorbidities including depression, anxiety, posttraumatic stress disorder, and sleep disturbances are also associated with deleterious outcomes. We examine the hypothesis that a TBI "first hit" induces a neuroinflammatory process involving microglial priming, which, on a second hit related to opioid exposure, exacerbates neuroinflammation, modifies synaptic plasticity, and spreads tau aggregates to promote neurodegeneration. As TBI also impairs myelin repair by oligodendrocytes, it may reduce or degrade white matter integrity in the reward circuit resulting in behavioral changes. Along with approaches focused on specific patient symptoms, understanding the CNS effects following TBI offers a promise of improved management for individuals with OUD.
Topics: Humans; Analgesics, Opioid; Plague; Brain Injuries, Traumatic; White Matter; Myelin Sheath; Microglia; Opioid-Related Disorders
PubMed: 37217015
DOI: 10.1016/j.biopsych.2023.05.013 -
The Science of the Total Environment Aug 2023Anthropogenic activities generally consume non-renewable resources and release polluting substances into the environment. Concerning agriculture, the cropping systems... (Review)
Review
Anthropogenic activities generally consume non-renewable resources and release polluting substances into the environment. Concerning agriculture, the cropping systems are almost based on exploiting non-renewable resources. In recent years, increasing interest has been devoted to reusing agricultural, food and other biomass wastes, considered relevant as they can be seen as resources rich in compounds that can find numerous applications. Biomass biorefining has been successfully applied and has opened up sustainable alternatives to the disposal of agricultural, agroindustrial and food wastes. In this area, an emerging, smart and environmentally friendly way to reduce the impact of waste on the environment is to obtain innovative materials for agriculture. Therefore, as part of biobased strategies, the use of waste biomass to obtain biostimulants and biogenic nanoparticles for crops has recently been proposed. Some research has shown that appropriate biostimulants and biobased nanomaterials have the potential to counteract some of the problems that plague agriculture. The above materials can improve crop performance, enhance crop tolerance to biotic and abiotic stresses, and improve plant nutrition. In light of the above, this review aspires, in the first part, to provide an overview of the ideas and central points that characterize the concept of bioeconomy and circular economy. In the second part, on the other hand, the most recent studies related to the valorization of various types of wastes leading to innovative biobased materials and their application in agriculture are presented. In particular, biostimulants and nanoparticles obtained through biogenic synthesis using agroindustrial and plant residues have been considered. In conclusion, the studies reported in this review show that the use of some biomasses to obtain the above materials represents a sustainable way of waste management and valorization, enabling innovative biobased materials for agriculture.
Topics: Waste Management; Agriculture; Crops, Agricultural; Nanostructures; Nanoparticles
PubMed: 37150469
DOI: 10.1016/j.scitotenv.2023.163912 -
Le Infezioni in Medicina 2023The history of pandemics spans centuries and has had a profound impact on human health, societies, and economies. Pandemics have caused fear, panic, and significant... (Review)
Review
The history of pandemics spans centuries and has had a profound impact on human health, societies, and economies. Pandemics have caused fear, panic, and significant morbidity and mortality rates throughout history. From the Athenian Plague in 430 BC to the ongoing COVID-19 pandemic, infectious diseases have posed a continuous threat to global health systems. The transition from hunter-gatherer societies to agrarian communities, increased trade and interaction between humans and animals, urbanization, travel rates, and the impact of a growing human population have all contributed to the emergence and spread of infectious diseases. Climate change and changes in land use further affect the transmission of pathogens and the distribution of disease-carrying vectors. Lessons from previous pandemics include the importance of early diagnosis and response, global cooperation and collaboration, strengthened healthcare systems, preparedness planning, public health education and communication, research and development, and adaptability and flexibility in response strategies. These lessons emphasize the significance of timely identification, swift action, sharing information and resources, investing in healthcare infrastructure, preparedness planning, effective communication, research advancements, and the ability to adapt measures as pandemics evolve. In addition, the COVID-19 pandemic has reinforced the need for a collaborative and coordinated global response to future pandemics. Governments, international bodies, healthcare organizations, and individuals could learn from the lessons of the past and apply them effectively to combat and mitigate the impact of future outbreaks. By prioritizing all the recommendations stated, the world can synergistically protect public health and minimize the devastating consequences of pandemics.
PubMed: 38075409
DOI: 10.53854/liim-3104-2 -
MBio Oct 2023Pyrin, a unique cytosolic receptor, initiates inflammatory responses against RhoA-inactivating bacterial toxins and effectors like YopE and YopT. Understanding pyrin...
Pyrin, a unique cytosolic receptor, initiates inflammatory responses against RhoA-inactivating bacterial toxins and effectors like YopE and YopT. Understanding pyrin regulation is crucial due to its association with dysregulated inflammatory responses, including Familial Mediterranean Fever (FMF), linked to pyrin gene mutations. FMF mutations historically acted as a defense mechanism against plague. Negative regulation of pyrin through PKN phosphorylation is well established, with using the YopM effector to promote pyrin phosphorylation and counteract its activity. This study highlights the importance of phosphoprotein phosphatase activity in positively regulating pyrin inflammasome assembly in phagocytic cells of humans and mice. Oligomeric murine pyrin has S205 phosphorylated before inflammasome assembly, and this study implicates the dephosphorylation of murine pyrin S205 by two catalytic subunits of PP2A in macrophages. These findings offer insights for investigating the regulation of oligomeric pyrin and the balance of kinase and phosphatase activity in pyrin-associated infectious and autoinflammatory diseases.
Topics: Humans; Animals; Mice; Inflammasomes; Pyrin; Protein Processing, Post-Translational; Macrophages; Phosphoprotein Phosphatases; Mutation
PubMed: 37787552
DOI: 10.1128/mbio.02066-23 -
Frontiers in Plant Science 2023Grapevine () is an important fruit crop which contributes significantly to the agricultural sector worldwide. Grapevine viruses are widespread and cause serious diseases...
INTRODUCTION
Grapevine () is an important fruit crop which contributes significantly to the agricultural sector worldwide. Grapevine viruses are widespread and cause serious diseases which impact the quality and quantity of crop yields. More than 80 viruses plague grapevine, with RNA viruses constituting the largest of these. A recent extension to the clustered regularly interspaced, short palindromic repeat (CRISPR) armory is the Cas13 effector, which exclusively targets single-strand RNA. CRISPR/Cas has been implemented as a defense mechanism in plants, against both DNA and RNA viruses, by being programmed to directly target and cleave the viral genomes. The efficacy of the CRISPR/Cas tool in plants is dependent on efficient delivery of its components into plant cells.
METHODS
To this end, the aim of this study was to use the recent Cas13d variant from (CasRx) to target the RNA virus, grapevine virus A (GVA). GVA naturally infects grapevine, but can infect the model plant , making it a helpful model to study virus infection in grapevine. gRNAs were designed against the coat protein () gene of GVA. plants expressing CasRx were co-infiltrated with GVA, and with a tobacco rattle virus (TRV)-gRNA expression vector, harbouring a CP gRNA.
RESULTS AND DISCUSSION
Results indicated more consistent GVA reductions, specifically gRNA CP-T2, which demonstrated a significant negative correlation with GVA accumulation, as well as multiple gRNA co-infiltrations which similarly showed reduced GVA titre. By establishing a virus-targeting defense system in plants, efficient virus interference mechanisms can be established and applied to major crops, such as grapevine.
PubMed: 38111883
DOI: 10.3389/fpls.2023.1296251 -
PLoS Neglected Tropical Diseases May 2024Plague continues to be a major public health concern in African countries. Several social practices and environmental conditions have been associated with the...
INTRODUCTION
Plague continues to be a major public health concern in African countries. Several social practices and environmental conditions have been associated with the reoccurrence of bubonic plague, especially in places where the disease is prevalent. Therefore, it remains important to understand people knowledge, behavior and practices related to disease risks in order to identify factors that may hinder prevention and control strategies in the foci.
METHODS AND RESULTS
A study survey of 100 households was conducted in Mbulu district to assess plague knowledge, factors that influence flea bite and measures used for rodent and flea control. Majority of participants (86%) were familiar with the plague disease and about (50%) mentioned swelling lymph nodes as a common symptom. Most of the participants (62%) claimed to observe human plague cases during the long rain season. The majority of participants (97%) reported to experience flea bite in their domestic settings, with most stating that they experienced more flea bites during the dry season. Houses with livestock had a greater likelihood of flea bite (OR = 2.7; 95% CI: 0.36-18.80, p = 0.267) compared to houses with no livestock. Furthermore, residents reported using both local and chemical methods to control rodents and flea inside houses. Most respondents preferred using local methods in flea control. Respondents stated that the efficacy of flea control methods being applied ranged from few days to several months. There was limited knowledge of the residual effects of the agricultural chemicals being used to control fleas among the surveyed community.
CONCLUSION
Our study highlights the importance of raising awareness and adopting effective control methods for controlling fleas and lower the risk of plague transmission and other flea borne diseases in the local communities. Sensitization of the local community on the use of appropriate chemicals for flea control is urgent to avoid any potential long-term impacts of the residual effects on the health of the local communities.
Topics: Plague; Tanzania; Humans; Animals; Health Knowledge, Attitudes, Practice; Female; Adult; Male; Siphonaptera; Middle Aged; Young Adult; Surveys and Questionnaires; Rodentia; Adolescent; Insect Bites and Stings; Endemic Diseases
PubMed: 38814990
DOI: 10.1371/journal.pntd.0012202 -
Insects Oct 2023The current paper provides a detailed review of the historical outbreaks of each of the four plague locust species found in South Africa, namely the brown locust, the... (Review)
Review
The current paper provides a detailed review of the historical outbreaks of each of the four plague locust species found in South Africa, namely the brown locust, the African migratory locust, the red locust, and the southern African desert locust. The history and dynamics of the plague infestations and the major local outbreaks are summarized. The typical patterns of the outbreaks of the different species are described, and the threat of these locusts to agriculture in South Africa is defined. The brown locust produces regular outbreaks in the semi-arid Karoo, with large-scale eruptions of plague proportions occurring about once per decade. Patterns of outbreaks often repeat themselves, but the sheer size of the plague outbreaks is almost impossible to stop, and the brown locust has the potential to threaten food security throughout southern Africa. The African migratory locust produces outbreaks in some of the main maize and wheat cropping areas where it is difficult to control. This locust has taken advantage of the man-made crop environment to produce an extra generation per year that was not previously possible in the original grasslands. The coastal area of KwaZulu Natal Province in South Africa was a prime reception and breeding area for plague invasions of the red locust in the past, and the country, therefore, relies on the successful control of outbreaks in east and central Africa to prevent the recurrence of the plague invasions. The southern African desert locust occurs in the Kalahari Desert area, and outbreaks requiring chemical control are rare.
PubMed: 37999045
DOI: 10.3390/insects14110846 -
Pathogens (Basel, Switzerland) Aug 2023Tuberculosis is a contagious disease that has been a concern for humanity throughout history, being recognized and referred to as the white plague. Since ancient times,... (Review)
Review
Tuberculosis is a contagious disease that has been a concern for humanity throughout history, being recognized and referred to as the white plague. Since ancient times, starting with Hippocrates and Galen of Pergamon, doctors and scientists have attempted to understand the pathogenesis of tuberculosis and its manifestations in the brain. If, in the medieval period, it was believed that only the touch of a king could cure the disease, it was only in the early 17th and 18th centuries that the first descriptions of tuberculous meningitis and the first clinico-pathological correlations began to emerge. While the understanding of neurotuberculosis progressed slowly, it was only after the discovery of the pathogenic agent in the late 19th century that there was an upward curve in the occurrence of treatment methods. This review aims to embark on an odyssey through the centuries, from ancient Egypt to the modern era, and explore the key moments that have contributed to the emergence of a new era of hope in the history of neurotuberculosis. Understanding the history of treatment methods against this disease, from empirical and primitive ones to the emergence of new drugs used in multi-drug-resistant tuberculosis, leads us, once again, to realize the significant contribution of science and medicine in treating a disease that was considered incurable not long ago.
PubMed: 37623986
DOI: 10.3390/pathogens12081026 -
Current Microbiology Apr 2024Francisella tularensis is a facultative intracellular bacterial pathogen that affects both humans and animals. It was developed into a biological warfare weapon as a... (Review)
Review
Francisella tularensis is a facultative intracellular bacterial pathogen that affects both humans and animals. It was developed into a biological warfare weapon as a result. In this article, the current status of tularemia vaccine development is presented. A live-attenuated vaccine that was designed over 50 years ago using the less virulent F. tularensis subspecies holarctica is the only prophylactic currently available, but it has not been approved for use in humans or animals. Other promising live, killed, and subunit vaccine candidates have recently been developed and tested in animal models. This study will investigate some possible vaccines and the challenges they face during development.
Topics: Animals; Humans; Tularemia; Vaccines
PubMed: 38564047
DOI: 10.1007/s00284-024-03658-0