MICROBES AND INFECTION

miRNAs Regulate the Metabolic Adaptation of Paracoccidioides brasiliensis during Copper Deprivation
Araújo Dos Santos DL, Santana de Curcio J, Novaes E and Maria de Almeida Soares C
Copper is an essential metal for cellular processes such as detoxification of reactive oxygen species, oxidative phosphorylation, and iron uptake. However, during infection, the host restricts the bioavailability of this micronutrient to the pathogen as a strategy to combat infection. Recently, we have shown the involvement of miRNAs as an adaptive strategy of P. brasiliensis upon metal deprivation such as iron and zinc. However, their role in copper limitation still needs to be elucidated. Our objective was to characterize the expression profile of miRNAs regulated during copper deprivation in P. brasiliensis and the putative altered processes. Through RNAseq analysis and bioinformatics, we identified 14 differentially expressed miRNAs, two of which putatively regulated oxidative stress response, beta-oxidation, glyoxylate cycle, and cell wall remodeling. Our results suggest that metabolic adaptations carried out by P. brasiliensis in copper deprivation are regulated by miRNAs.
Chytridiomycosis disrupts metabolic responses in amphibians at metamorphic climax
Humphries JE, Melvin SD, Lanctôt C, McCallum H, Newell D and Grogan LF
The fungal disease chytridiomycosis (causative agent Batrachochytrium dendrobatidis [Bd]) is a primary contributor to amphibian species declines. The morphological and physiological reorganization that occurs during amphibian metamorphosis likely increases the vulnerability of metamorphs to Bd. To address this, we exposed pro-metamorphic tadpoles of Fleay's barred frog (Mixophyes fleayi) to Bd and sampled skin and liver sections from control and exposed animals throughout metamorphosis (Gosner stages 40, 42 and 45). We used an untargeted metabolomics approach to assess the metabolic impacts of Bd infection during the critical metamorphic stages, extracting metabolites from sampled tissues and analysing them via Nuclear Magnetic Resonance spectrometry. Most exposed animals became moribund at Gosner stage 45, while a subset seemingly cleared their infections. Metabolite abundance varied throughout development, with Gosner stage 45 samples distinct from previous stages. Clinically infected animals at Gosner stage 45 exhibited profound metabolic dysregulation (e.g., upregulation of amino acid biosynthesis and degradation) in comparison to uninfected groups (negative controls and 'cleared' animals). Despite showing parallels with previous metabolomic analyses of Bd-infected adult frogs, we identified variations in our results that could be attributed to the dramatic changes that characterise metamorphosis and may be driving the heightened vulnerability observed in metamorphic amphibians.
Bad company? The pericardium microbiome in people investigated for tuberculous pericarditis in an HIV-prevalent setting
Nyawo G, Naidoo CC, Wu BG, Kwok B, Clemente JC, Li Y, Minnies S, Reeve B, Moodley S, John TJ, Karamchand S, Singh S, Pecararo A, Doubell A, Kyriakakis C, Warren R, Segal LN and Theron G
The site-of-disease microbiome and predicted metagenome were evaluated in a cross-sectional study involving people with presumptive tuberculous pericarditis. We also explored the interaction between C-reactive protein (CRP) and the microbiome.
TGEV nonstructural protein ORF3b upregulates the expression of SLA-DR at the transcriptional level in monocyte-derived porcine dendritic cells
Liu H, Ma M, Jia X, Qian M, Pang B, Li M, Zhang H, Ma S and Zheng L
Transmissible gastroenteritis virus (TGEV) is a porcine intestinal pathogenic coronavirus that can cause acute intestinal diseases in pigs, especially in suckling piglets under two weeks of age, with a mortality rate of 100 %. Dendritic cells (DCs) are important antigen-presenting cells (APCs) that are essential for the initiation and modulation of immune responses in animals. In this study, we used monocyte-derived porcine DCs as an in vitro model of APCs to further study the pathogenic mechanism of TGEV. Our results demonstrated that TGEV successfully replicates in monocyte-derived porcine DCs, whereas UV-inactivated TGEV failed to infect these cells. Importantly, TGEV infection of DCs led to significant upregulation of swine leukocyte antigen II DR (SLA-DR), a key molecule in the major histocompatibility complex class II (MHC-II) family. We further demonstrated that the ORF3b nonstructural protein of TGEV significantly enhances SLA-DR expression at the transcriptional level in porcine DCs. This study provides new insights into the pathogenic mechanisms of TGEV.
Nano-enhanced benzylpenicillin: Bridging antibacterial action with anti-inflammatory potential against antibiotic-resistant bacteria
Gomes-da-Silva NC, França ÁRS, Dos Santos CC, Alencar LMR, Rosas EC, Corrêa LB, Lorentino CMA, Santos ALS, Ricci-Junior E and Santos-Oliveira R
This study investigates the enhancement of benzylpenicillin's antibacterial properties using nanomedicine, specifically by developing benzylpenicillin nanoemulsions. To address the escalating issue of bacterial resistance, we employed the advanced techniques Raman spectroscopy and atomic force microscopy to analyze the nanoemulsions' molecular structure and characteristics. We then evaluated the impact of these nanoemulsions on nitric oxide production by macrophages to deternine their potential to modulate inflammatory responses. We further assessed the antibacterial effectiveness of the nanoparticles against the pathogens Streptococcus pyogenes (Group A Streptococcus) and Streptococcus agalactiae (Group B Streptococcus). The results of antibiograms showed significant efficacy against Gram-positive bacteria, with minimum inhibitory concentration (MIC) and minimum bactericidal concentration (MBC) values, confirming their bactericidal potential. The investigation into the mechanism of action suggested substantial disruption to bacterial membrane integrity, underscoring a possible mode of antibacterial activity. Overall, the study provides valuable insights into the synergistic relationship between antibiotics and nanoparticles. In particular, it demonstrates the potential of benzylpenicillin nanoparticles to enhance the antimicrobial efficacy and influence inflammatory responses obtained by evaluating nitrite, IL-6 and TNF-α, offering promising avenues for future clinical applications and strategies to combat bacterial resistance.
Schistosoma heamatobium tetraspanins TSP-2 and TSP-6 induce Dendritic Cells maturation, cytokine production and T helper cells differentiation in vitro
Silvano A, Sotillo J, Cecchi M, Loukas A, Ouedraogo M, Parenti A, Bruschi F, Torcia MG and Mangano VD
Urogenital schistosomiasis caused by Schistosoma haematobium is a major cause of disability in endemic areas. Despite its socio-economic burden, no vaccine exists and the parasite's immunobiology remains underexplored. Genome annotation has revealed over 40 different genes encoding tetraspanins, transmembrane proteins with known immunomodulatory properties in other plathelminthes. This study investigated the role of Sh-TSP-2, Sh-TSP-6 and Sh-TSP-23, which are expressed in the parasite's tegument and extracellular vesicles (EVs). Immature dendritic cells (DCs) from unexposed healthy donors were stimulated with these proteins to evaluate maturation maker expression and cytokine production. Also, pre-activated T CD4 cells were stimulated with the DCs supernatant to assess cytokine gene expression. Sh-TSP-2 and Sh-TSP-6 induced maturation markers and cytokine production in DCs: Sh-TSP-2 increased CD80 and CD83 levels and the concentration of both pro-inflammatory (IL-6, TNF) and regulatory (IL-10) cytokines, while Sh-TSP-6 increased the production of IL-6. Moreover, supernatants from Sh-TSP-2 stimulated DCs induced the expression of Th1 (IFNɣ) and regulatory (IL-10) cytokines in CD4 T cells, while Sh-TSP-6 induced Th2 (IL-4, IL-13) cytokine expression. These results provide evidence that S. haematobium tetraspanins modulate the response of human DCs and CD4 T cells in vitro, and support Sh-TSP-2 as a promising vaccine candidate.
Photodynamic therapy reduces viability, enhances itraconazole activity, and impairs mitochondrial physiology of Sporothrix brasiliensis
Ramos MLM, Barrinha A, Sousa Araújo GR, Alves V, Andrade IB, Corrêa-Junior D, Machado Motta MC, Almeida-Paes R and Frases S
Sporothrix brasiliensis is the main agent of sporotrichosis in Brazil, with few therapeutic options. This study aimed to investigate the in vitro efficacy of photodynamic therapy using a diode laser (InGaAIP) in combination with the photosensitizer methylene blue against S. brasiliensis yeasts. Additionally, we evaluated the underexplored mitochondrial activity of S. brasiliensis and the impact of laser treatment on the fungal mitochondrial aspects post-treatment. Three strains of S. brasiliensis were used, including a non-wild-type strain to itraconazole. Yeast viability was determined by counting colony-forming units. For a comprehensive analysis of irradiated versus non-irradiated cells, we assessed combined therapy with itraconazole, scanning electron microscopy of cells, and mitochondrial activity. The latter included high-resolution respirometry, membrane potential analysis, and reactive oxygen species production. Methylene blue combined with photodynamic therapy inhibited the growth of the isolates, including the non-wild-type strain to itraconazole. Photodynamic therapy induced the production of reactive oxygen species, which negatively affected mitochondrial function, resulting in decreased membrane potential and cell death. Photodynamic therapy altered the ultrastructure and mitochondrial physiology of S. brasiliensis, suggesting a new therapeutic approach for sporotrichosis caused by this species.
Screening and in silico characterization of prophages in Helicobacter pylori clinical strains
Ferreira R, Pinto G, Presa E, Oleastro M, Silva C, Vieira L, Sousa C, Pires DP, Figueiredo C and Melo LDR
The increase of antibiotic resistance calls for alternatives to control Helicobacter pylori, a Gram-negative bacterium associated with various gastric diseases. Bacteriophages (phages) can be highly effective in the treatment of pathogenic bacteria. Here, we developed a method to identify prophages in H. pylori genomes aiming at their future use in therapy. A polymerase chain reaction (PCR)-based technique tested five primer pairs on 74 clinical H. pylori strains. After the PCR screening, 14 strains most likely to carry prophages were fully sequenced. After that, a more holistic approach was taken by studying the complete genome of the strains. This study allowed us to identify 12 intact prophage sequences, which were then characterized concerning their morphology, virulence, and antibiotic-resistance genes. To understand the variability of prophages, a phylogenetic analysis using the sequences of all H. pylori phages reported to date was performed. Overall, we increased the efficiency of identifying complete prophages to 54.1 %. Genes with homology to potential virulence factors were identified in some new prophages. Phylogenetic analysis revealed a close relationship among H. pylori-phages, although there are phages with different geographical origins. This study provides a deeper understanding of H. pylori-phages, providing valuable insights into their potential use in therapy.
HERV-W ENV transcription in B cells predicting symptomatic COVID-19 and risk for long COVID can express a full-length protein despite stop codon in mRNA from chromosome X via a ribosome readthrough
Brunel J, Paganini J, Galloux M, Charvet B and Perron H
The human genome comprises 8 % of endogenous retroviruses (HERVs). Though HERVS contribute to physiological functions, copies retained pathogenic potential. The HERV-W ENV protein was shown expressed in patients with worse COVID-19 symptoms and post-COVID syndrome. A significant detection of the mRNA encoding HERV-W ENV from patients with COVID-19 in B cells from RNAseq reads obtained from peripheral blond mononuclear cells. This data stratified with increased COVID-19 symptoms or with post-acute sequelae of COVID-19 (long COVID) after 3 months. The HERV-W ENV-U3R RNA was confirmed to display the best alignment with chromosome X ERVWE2 locus. However, a stop codon precluding its translation was re-addressed after recent understandings of ribosome readthrough mechanisms. Experimental results evidenced that this HERV gene can effectively express a full-length protein in the presence of molecules allowing translation via a readthrough mechanism at the ribosome level. Results not only confirm HERV-W ENV RNA origin in these patients but show for the first time how a defective HERV copy can be translated into a complete protein when specific factors make it possible at the ribosome level. The present proof of concept now requires further studies to identify the factors involved in this newly understood mechanism, following SARS-CoV-2 exposure.
The impact of anti-tuberculosis treatment on respiratory tract microbiome in pulmonary tuberculosis
Hazra D, Chawla K, S M F, Sintchenko V, Magazine R, Martinez E and Pandey A
The growing evidence has underscored the significance of interactions between the host and microbiota in respiratory health, presenting a novel perspective on disease management. Yet, comprehension of the respiratory microbiome shifts before and after anti-tuberculosis treatment is limited. This study compares respiratory microbiome profiles in untreated tuberculosis (UTB) and completed TB treatment (CTB) cases with healthy controls, using 16S rRNA sequencing on sputum samples. Significant reduction in sputum microbial alpha diversity was observed in both TB groups when compared to healthy controls (P < 0.05). Beta diversity analysis showed distinct clustering (P < 0.05). Linear discriminant analysis revealed an abundance of potentially pathogenic bacterial genera like Haemophilus, Pseudomonas, and Mycobacterium in the UTB group, while Streptococcus, Rothia, and Neisseria dominated in CTB samples. Healthy sputum microbiomes were enriched with Prevotella, Fusobacterium, Porphyromonadaceae_unclassified,andPeptostreptococcus. Moreover, predicted bacterial functional pathways showed significant differences among the three groups, mainly related to nutrient metabolism. These findings indicated significant microbial dysbiosis in sputum samples recovered from patients with pulmonary TB with an elevated presence of potentially pathogenic bacteria, depletion of beneficial genera, and downregulation of several essential metabolic pathways. Further exploration of respiratory microbiome-based diagnostic biomarkers and their role in targeted treatment strategies in tuberculosis is warranted.
Intranasal immunization with poly I:C and CpG ODN adjuvants enhances the protective efficacy against Helicobacter pylori infection in mice
Sun M, Liu Y, Ni X, Tan R, Wang Y, Jiang Y, Ke D, Du H, Guo G and Liu K
Helicobacter pylori (H. pylori) infection is a serious public health issue, and development of vaccines is a desirable preventive strategy for H. pylori. Toll-like receptor (TLR) ligands have shown potential as vaccine adjuvants that induce immune responses, but polyinosinic-polycytidylic acid (poly I:C), a nucleic acid-based TLR9 ligand, is less well studied in H. pylori vaccine research. Here, we evaluated the effects of poly I:C and CpG oligodeoxynucleotide (CpG ODN), a nucleic acid TLR3 ligand, as adjuvants in combination with the H. pylori recombinant proteins LpoB and UreA to protect against H. pylori infection. For analysis of specific immune responses, the levels of specific antibodies and splenic cytokines were measured in the immunized mice. Compared with CpG ODN, poly I:C could induce mucosal sIgA antibody responses and reduce H. pylori colonization. Additionally, the combination of poly I:C and CpG ODN caused greater immunoprotection and significantly reduced gastritis, exerting synergistic effects. Analysis of splenic cytokines revealed that poly I:C mainly triggered a mixed Th1/Th2/Th17 immune response, whereas the combination of CpG ODN and poly I:C induced a Th1/Th17 immune response. Our findings indicated that increased levels of mucosal sIgA antibodies and a robust splenic Th1/Th17 immune response were associated with reduced H. pylori colonization in vaccinated mice. This study identified a potential TLR ligand adjuvant for developing more effective H. pylori vaccines.
Suppressive effects of toll-like receptor 2, toll-like receptor 4, and toll-like receptor 7 on protective responses to Mycobacterium bovis BCG from epithelial cells
Singh A, Singh A, Saraswati SSK, Rana AK, Singh A, Verma C, Sinha V, Kalra K and Natarajan K
Mycobacteria have several mechanisms for evasion of protective responses mounted by the host. In this study, we unravel yet another mechanism that is mediated by Toll-Like Receptors TLR2, TLR4, and TLR7 in epithelial cells. We show that mycobacterial infection of epithelial cells increases the expression of TLR2, TLR4, and TLR7. Stimulation of either TLR along with mycobacterial infection results in an inhibition of oxidative burst resulting in increased survival of mycobacteria inside epithelial cells. TLR stimulation along with mycobacterial infection also inhibits activation of epithelial cells for T cell responses by differentially regulating the activation of ERK-MAPK and p38-MAPK along with inhibition of co-stimulatory molecule CD86 expression. Furthermore, stimulation of either TLR inhibits the induction of apoptosis and autophagy. Knockdown of either TLR by specific siRNAs reverses the inhibition by ROS and apoptosis by mycobacteria and results in reduced intracellular survival of mycobacteria in a MyD88-dependent manner. These results point towards a negative role for TLR2, TLR4, and TLR7 in regulating protective responses to M. bovis BCG infection in epithelial cells.
Dopaminergic neuronal regulation determines innate immunity of Caenorhabditis elegans during Klebsiella aerogenes infection
Gowripriya T, Yashwanth R, James PB, Suresh R and Balamurugan K
The innate immune signals are the front line of host defense against bacterial pathogens. Pathogen-induced harmful effects, such as reduced neuronal signals to the intestine, affect the host's food sensing and dwelling behavior. Here, we report that dopamine and kpc-1 signals control the intestinal innate immune responses through the p38/PMK-1 MAPK signaling pathway in C. elegans. K. aerogenes infection in C. elegans affects the food-dwelling behavior, which depends on dopamine regulation. The absence of the dopamine receptor (dop-1) and transporter (dat-1) increases attraction to the pathogen instead of avoidance. The K. aerogenes infection affects age-1 regulation through the furin-like proprotein convertase (kpc-1); the absence of kpc-1 affects environment-dependent dauer formation. In contrast, the dop-1 mutation antagonistically regulates intestinal immune regulation, while the kpc-1 mutation partially regulates the p38/PMK-1 MAPK pathway. Our findings indicate that dopamine and kpc-1signaling from the nervous system control intestinal immunity in an antagonistic and agonistic manner, respectively.
Cutibacterium acnes as an overseen autoimmunity trigger: Unearthing heat-shock driven molecular mimicry
Repac J, Božić B and Božić Nedeljković B
Cutibacterium acnes, common resident of the human skin, can establish both commensal and pathogenic relations with the human host; however, long-term consequences of C. acnes-induced inflammation remained un(der)explored. To infer the capacity of triggering autoimmunity in humans via molecular mimicry, a comprehensive immunoinformatics analysis of the experimentally characterized C. acnes proteome was performed. The protocol included homology screening between the C. acnes and the human proteome, and validation of shared specificity regions against the collection of experimentally characterized T-cell epitopes, related to autoimmunity. To obtain highly reliable predictions, the results were subjected to additional cross-validation by a dedicated MHC-restriction analysis, including a docking study of C. acnes mimotopes and human counterparts with the highest degree of sequence similarity to MHCII molecules representing the highest risk for detected autoimmune pathologies. Due to mimicking of highly immunogenic, but also evolutionary conserved autoantigens from the Heat Shock protein family, association between C. acnes and the pathogenesis of highly incident autoimmune diseases: Type 1 Diabetes, Rheumatoid Arthritis, and Juvenile Idiopathic Arthritis, was found. To the best of our knowledge, this study is the first one to provide preliminary information and a mechanistic link on the putative involvement of C. acnes in the pathogenesis of autoimmunity in humans.
Murine C3 of the complement system affects infection by Leptospira interrogans
Vassalakis JA, Yamashita DHS, Midon LM, Cogliati B, Heinemann MB, Amamura TA and Isaac L
Leptospirosis is an infectious neglected disease estimated to affect more than one million people worldwide each year. The Complement System plays a vital role in eliminating infectious agents. However, its precise role in leptospirosis remains to be fully understood. We investigated the importance of C3 in L. interrogans serovar Kennewicki strain Pomona Fromm (LPF) infection. Lack of C3 leads to decreased leukocyte number, impaired inflammatory response and failure to eliminate bacteria during the early stages of infection, which may cause interstitial nephritis later. These findings could be explained, at least in part, by the lower presence of local opsonins. Furthermore, antibody production against Leptospira was compromised in the absence of C3, highlighting the importance of CR2 in B lymphocyte proliferation and the adjuvant role of C3d in humoral immunity. Leptospires can be eliminated through the urine, and according to our study, the lack of C3 delays the elimination of LPF through urine during the early stages of the infection. These results strongly suggest the crucial role of C3 protein in orchestrating an appropriate inflammatory response against LPF infection and in effectively eliminating the bacteria from the body during the acute phase of leptospirosis.
Intragenomic diversity of the small subunit rDNA gene shows limited impact on the pathogenicity of Blastocystis infection in clinical patients
Seijas-Pereda L, Köster PC, Dashti A, Bailo B, Guadano-Procesi I, Rescalvo-Casas C, Hernando-Gozalo M, Cuadros-González J, Carmena D and Pérez-Tanoira R
The clinical significance of Blastocystis sp. remains to be fully elucidated. This study assesses whether Blastocystis subtype diversity can affect the outcome of the infection and the occurrence of clinical manifestations in infected individuals. Stool samples from 219 Blastocystis-positive patients by PCR targeting the ssu rDNA gene were fully genotyped by Sanger sequencing analyses. Co-infections by other parasitic, viral, and bacterial enteropathogens were identified by molecular and culture methods. Sequence analyses revealed the presence of six Blastocystis subtypes including ST1 (21.5 %), ST2 (17.8 %), ST3 (29.7 %), ST4 (22.8 %), ST6 (5.5 %), and ST7 (2.3 %), with a single sample harbouring a ST1+ST3 co-infection (0.5 %). Multivariate risk factor analyses using logistic regression models indicated that neither Blastocystis subtypes nor patient-associated variables including sex, country of origin, travelling history, and presence of nonspecific symptoms were positively associated with a higher likelihood of developing gastrointestinal symptoms (abdominal pain and diarrhoea). However, being of a young age (p-value: 0.003) and experiencing skin pruritus (p-value < 0.001) and eosinophilia (p-value: 0.016) were found to increase the odds of presenting gastrointestinal symptoms. Blastocystis subtypes based on variability within the ssu rDNA gene do not seem to be the main drivers of clinical manifestations in the surveyed clinical population.
High-resolution kinetics and cellular determinants of SARS-CoV-2 antibody response over two years after COVID-19 vaccination
Rubio R, Macià D, Barrios D, Vidal M, Jiménez A, Molinos-Albert LM, Díaz N, Canyelles M, Lara-Escandell M, Planchais C, Santamaria P, Carolis C, Izquierdo L, Aguilar R, Moncunill G and Dobaño C
Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) studies usually rely on cross-sectional data of large cohorts but limited repeated samples, overlooking significant inter-individual antibody kinetic differences. By combining Luminex, activation-induced marker (AIM) and IFN-γ/IL-2 Fluorospot assays, we characterized the IgM, IgA, and IgG antibody kinetics using 610 samples from 31 healthy adults over two years after COVID-19 vaccination, and the T-cell responses six months post-booster. Antibody trajectories varied among isotypes: IgG decayed slowly, IgA exhibited an initial sharp decline, which gradually slowed down and stabilized above the seropositivity threshold. Contrarily, IgM rapidly dropped to undetectable levels after primary vaccination. Importantly, three vaccine doses induced higher and more durable anti-spike IgG and IgA levels compared to two doses, whereas infection led to the highest antibody peak and slowest antibody decay rate compared to vaccination. Comparing with ancestral virus, antibody levels recognizing Omicron subvariants had a faster antibody decay. Finally, polyfunctional T cells were positively associated with subsequent IgA responses. These results revealed distinctive antibody patterns by isotype and highlight the benefits of booster doses in enhancing and sustaining antibody responses.
Single-cell transcriptome analysis of the early immune response in the lymph nodes of Borrelia burgdorferi-infected mice
Rinne V, Gröndahl-Yli-Hannuksela K, Fair-Mäkelä R, Salmi M, Rantakari P, Lönnberg T, Alinikula J, Pietikäinen A and Hytönen J
Lyme borreliosis is a disease caused by Borrelia burgdorferi sensu lato bacteria. Borrelia burgdorferi is known to induce prolonged extrafollicular immune responses and abnormal germinal centre formation. The infection fails to generate a neutralizing type of immunity, eventually establishing a persistent infection. Here, we performed single-cell RNA sequencing to characterize the immune landscape of lymph node lymphocytes during the early Borrelia burgdorferi infection in a murine model. Our results indicate key features of an extrafollicular immune response four days after Borrelia burgdorferi infection, including notable B cell proliferation, immunoglobulin class switching to IgG3 and IgG2b isotypes, plasmablast differentiation, and the presence of extrafollicular B cells identified through immunohistochemistry. Additionally, we found infection-derived upregulation of suppressor of cytokine signalling genes Socs1 and Socs3, along with downregulation of genes associated with MHC II antigen presentation in B cells. Our results support the central role of B cells in the immune response of a Borrelia burgdorferi infection, and provide cues of mechanisms behind the determination between extrafollicular and germinal centre responses during Borrelia burgdorferi infection.
Detection of various DNA and RNA viruses in bats in Yamaguchi Prefecture, Japan
Nishizato M, Imai U, Shigenaga C, Obata M, Mitsunaga S, Anggita M, Nyampong S, Wulandari S, Hu W, Kiuno K, Langata LM, Imai H, Sakurai M, Yanagida T, Takano A, Murakami T, Jeong CG, Oem JK, Hayasaka D and Shimoda H
Bats are important natural hosts of various zoonotic viruses, including Ebola virus, Lyssa virus, and severe acute respiratory syndrome coronavirus (SARS-CoV). Although investigation of bats is valuable for predicting emerging infectious diseases from these animals, few surveys of bat-derived viruses have been conducted in Japan. In the present study, samples were collected from a total of 132 bats of 4 different species from 4 different locations within Yamaguchi Prefecture; these sample were employed for comprehensive detection of bat-derived viruses by polymerase chain reaction (PCR) and reverse transcription (RT)-PCR using primers universal for each of 4 different viral classes. As a result of PCR and RT-PCR, various herpesviruses, astroviruses, coronaviruses, and adenoviruses were identified from a total of 80 bats. The detected herpesviruses belong to the Betaherpesvirinae or Gammaherpesvirinae subfamily, the detected adenoviruses to the genus Mastadenovirus, the detected astroviruses to the genus Mamastrovirus; and the detected coronaviruses belong to the genus Alphacoronavirus. The detected sequences of 12 strains of 4 families showed 100 % amino acid identity with viruses previously detected either in China or South Korea. These findings expand our understanding of viruses carried by bats, and provide insights into the nature of bat-derived viruses in Japan.
Microneedle-based arrays - Breakthrough strategy for the treatment of bacterial and fungal skin infections
Kordyl O, Styrna Z, Wojtyłko M, Michniak-Kohn B and Osmałek T
Currently, fungal and bacterial skin infections rank among the most challenging public health problems due to the increasing prevalence of microorganisms and the development of resistance to available drugs. A major issue in treating these infections with conventional topical medications is the poor penetration through the stratum corneum, the outermost layer of the skin. The concept of microneedles seems to be a future-proof approach for delivering drugs directly into deeper tissues. By bypassing the skin barrier, microneedle systems allow therapeutic substances to reach deeper layers more efficiently, significantly improving treatment outcomes. Nonetheless, the primary challenges regarding the effectiveness of microneedles involve selecting the appropriate size and shape, along with polymer composition and fabrication technology, to enable controlled and efficient drug release. This review offers a comprehensive overview of the latest knowledge on microneedle types and manufacturing techniques, highlighting their potential effectiveness in treating bacterial and fungal skin infections. It includes updated statistics on infection prevalence and provides a detailed examination of common bacterial and fungal diseases, focusing on their symptoms, causative species, and treatment methods. Additionally, the review addresses safety considerations, regulatory aspects, and future perspectives for microneedle-based therapeutic systems. It also underscores the importance of industrialization and clinical translation efforts, emphasizing the significant potential of microneedle technology for advancing medical applications.
Crosstalk between human endogenous retroviruses and exogenous viruses
Pizzioli E, Minutolo A, Balestrieri E, Matteucci C, Magiorkinis G and Horvat B
Human endogenous retroviruses (HERVs) are remnants of ancient retroviral infections of human germ-line cells, which are mostly silenced during evolution, but could be de-repressed and play a pathological role. Infection with some exogenous viruses, including herpesviruses, HIV-1 and SARS-CoV-2, was demonstrated to induce the expression of HERV RNAs and proteins.