Search Results (29)

During a survey of myxozoan diversity in fishes from Hunan Province, two new Myxidium species were discovered infecting the gallbladder of Sarcocheilichthys kiangsiensis Nichols, 1930 and Sarcocheilichthys parvus Nichols, 1930, in Dongting Lake, China. In both cases, myxospores were observed freely floating in the biles, with no typical plasmodia detected. Morphologically, both of them can be differentiated from previously described congeners by a combination of features, including myxospore dimensions, polar capsule shape, number of polar tubule coils and shell valve striations. BLASTn research indicated that neither species matched any available species in GenBank. The highest sequence similarity for Myxidium kiangsiensis n. sp. was 98.54% with M. asiaticum Chen et al., 2020 (PQ776264), and that for Myxidium parvusis n. sp. was 93.06% with Zschokkella guelaguetza Alama-Bermejo et al., 2023 (OQ888223). This study represents the first record of Myxidiidae infection in Sarcocheilichthys hosts. Phylogenetic analysis based on the obtained SSU rDNA sequences placed the two species in separate subclades interspersed with other Myxidium and Zschokkella species. This topology further corroborates the polyphyletic nature of these two genera. Full article

Haplosporidium edule is a haplosporidian parasite originally described in the common edible cockle (Cerastoderma edule) along the European Atlantic coast. In this study, we report the first detection of H. edule in the olive-green cockle (Cerastoderma glaucum) from the northern Adriatic Sea, representing both a novel host record and a new geographic occurrence. During a cross-sectional study conducted in May 2019, 90 C. glaucum specimens were collected from three lagoon sites in northeastern Italy. Histological examination of soft tissues revealed haplosporidian developmental stages, including plasmodia, sporoblasts and mature spores, within connective tissues of the mantle, digestive gland, gills and between gonadal tubules in eight individuals from the Goro Lagoon. Molecular characterization based on a fragment of the small subunit ribosomal DNA showed high similarity with the previously published H. edule sequence. Host identification was confirmed through cytochrome c oxidase subunit I barcoding together with morphological and histological analyses. These findings indicate that H. edule has a broader host range than previously recognized. Although prevalence was relatively low, the detection of this parasite in a new host species and geographic area highlights the importance of continued surveillance, particularly in the context of climate change, shellfish translocations and the expansion of aquaculture activities. Full article

The green sunfish, Lepomis cyanellus, is a common centrarchid that has been previously reported to harbor several myxosporeans. In May 2022, six L. cyanellus were collected from the Caddo River, Montgomery County, Arkansas, USA, and had their gills, gall bladders, urinary bladders, fins, integument, other major organs, and musculature examined for myxosporeans. A single individual was found to harbor a new species of Myxobolus infecting the soft dorsal fin. A qualitative and quantitative morphological description was based on fresh plasmodia and myxospores. Elliptoid to obovoid myxospores of Myxobolus picassoi sp. n. are asymmetrical, 12.2 µm long × 9.1 µm wide, with two broadly pyriform to broadly ovoid subequal polar capsules. Molecular data consisted of a 2042 base pair sequence of the partial small subunit rRNA gene (SSU). Phylogenetic analysis revealed that M. picassoi sp. n. is a member of a clade of myxosporean species that predominately infect centrarchid sunfishes from North America. This is the fifth report of a Myxobolus from L. cyanellus, but the first report of a species infecting the soft dorsal fin. This article was registered in the Official Register of Zoological Nomenclature (ZooBank) as urn:lsid:zoobank.org:pub:146D21D1-E416-41C7-A1F6-8AB2AC6D9260. Full article

Life is defined by self-governing networks of molecules that change conformation cyclically, converting thermodynamic motion into directional work and structure. A spectrum of scale, from nanoscopic to macroscopic, involves a shift from intracellular thermodynamically driven processes (thermal agitation ultimately rooted in quantum phenomena) to intercellular bulk flows described by classical physics; from short-distance transport involving diffusion and cytoskeletal transport to long-distance pressure fluxes in hydraulic networks. A review of internal transport systems in macroscopic eukaryotes suggests that a key evolutionary step favoring large size and multicellularity involved exploiting molecular-scale stochasticity to generate organized bulk flows (e.g., motor proteins collectively generating mechanical pressures in metazoan tissues such as cardiac muscle; within tracheophytes, active and passive phloem loading/unloading inducing pressure gradients, and active regulation enabling passive xylem function and hydraulic reliability; sieve-like conduction in heterokonts; and peristaltic shuttle streaming in myxogastrian plasmodia). Macroscopic physiologies are underpinned by Brownian molecular thermodynamics and thus quantum mechanics; the apparently disparate physiologies of large organisms share a fundamental operating principle at small scales. However, the specific translocation mechanisms that extend this functioning to larger scales are embroiled in bauplans, representing phylogenetic constraints to body size. Full article

Sirtuins are NAD⁺-dependent enzymes that are conserved in all domains of life, including mammals, metazoans, plasmodia, yeast, bacteria, and archaea. In humans, there are seven isoforms (SIRT1 to 7), and they function in cellular homeostasis, aging, DNA repair, survival, metabolism, and stress responses. Recent advances highlight the diverse functions of sirtuins in the pathogenesis and progression of cancer, metabolic diseases, and neurodegenerative diseases, including Alzheimer’s disease (AD), Parkinson’s disease (PD), and Huntington’s disease (HD). To date, there is evidence that all seven isoforms contribute to cancer development, while SIRT1-3 and 6 contribute to metabolic and neurodegenerative diseases. Modulators of sirtuin activity are being actively explored to understand their biological and molecular mechanisms and potential for the treatment of various diseases. In this review, we begin with a broad discussion of post-translational modifications, protein deacetylation, and the mechanism of action of sirtuins. Next, we discuss the role of sirtuins in cancer, including inhibitors and activators of sirtuin activity as cancer therapies. In addition, we discuss the relationship of sirtuins to metabolic diseases and as possible treatment targets. Finally, we discuss the role of sirtuins in AD, PD, and HD, and sirtuin modulators for treating neurodegenerative diseases. Full article

6-Aminopyridine-3,5-dicarbonitriles and 3,6-diamino-5-cyanothieno[2,3-b]pyridines are well known as compounds with a broad spectrum of bioactivity. In particular, such thienopyridines are known as inhibitors of scrapie prion infection replication and accumulation, as well as selective inhibitors of malaria plasmodia kinase-3 with a pronounced antimalarial effect. To expand the range of such compounds, we studied the reaction of 3,6-diaminothieno[2,3-b]pyridine-5-carbonitriles with chloroacetyl chloride. The analysis of the Fukui indices showed that in these compounds the amino group at the C(3) atom is the most reactive. In fact, the reaction with ClCH₂C(O)Cl leads to the predicted product. Other reactions of thienopyridines as well as data on the biological activity of the products are discussed. Full article

Background: The benzamide MMV030666 from MMV’s Malaria Box Project, the starting point of herein presented study, was initially tested against various Plasmodium falciparum strains as well as Gram-positive and Gram-negative bacteria. It exhibits multi-stage antiplasmodial potencies and lacks resistance development. Methods: The favorable structural features from previous series were kept while the influence of the N-Boc-piperazinyl substituent per se, as well as its ring position and its replacement by various heteroaromatic rings, was evaluated. Thus, this paper describes the preparation of the MMV030666-derived 4′-(piperazin-1-yl)benzanilides for the first time, exhibiting broad-spectrum activity not only against plasmodia but also various bacterial strains. Results: A series of insightful structure–activity relationships were determined. Furthermore, pharmacokinetic and physicochemical parameters of the new compounds were determined experimentally or in silico. Drug-likeliness according to Lipinski’s rules was calculated as well. Conclusions: A diarylthioether derivative of the lead compound was promisingly active against P. falciparum and exhibited broad-spectrum antibacterial activity against Gram-positive as well as Gram-negative bacteria. It is considered for testing against multi-resistant bacterial strains and in vivo studies. Full article

To facilitate intracellular growth and replication, the virulent human malaria parasite P. falciparum remodels its host erythrocyte by exporting many proteins into the host cell cytosol. Along with a few other exported proteins, the parasite CLAG3 protein is then inserted in the host erythrocyte membrane, exposing a small variant loop to host plasma and contributing to essential nutrient acquisition via the plasmodial surface anion channel (PSAC). To explore trafficking mechanisms and develop therapies that block host cell remodeling, we have now used a split NanoLuc reporter and performed a high-throughput screen for inhibitors of parasite CLAG3 trafficking and insertion at the host membrane. We screened ~52,000 small molecules and uncovered 65 chemically diverse hits. Hits that inhibit the NanoLuc reporter without blocking protein export were filtered out by a secondary screen whose signal does not depend on protein export. Because chemicals that interfere with parasite maturation were found to compromise CLAG3 export indirectly, a third screen using a NanoLuc reporter-tagged intracellular protein was used to evaluate nonspecific toxicity. Although our relatively small chemical screen did not identify bona fide inhibitors of CLAG3 host membrane insertion, these studies establish a framework for larger screens to identify novel export inhibitors. Such novel inhibitors will provide important insights into how Plasmodia remodel their host cells and may seed the development of therapies that block the export and membrane insertion of proteins needed for intracellular parasite survival. Full article

Behavioral lateralization in animals is a well-known phenomenon; however, it has only rarely been studied in unicellular organisms. A groundbreaking study found lateralized movement in T-mazes in the formless plasmodia of the slime mold Physarum polycephalum. In this work, a replication of that study was conducted in a specially designed, elaborated T-maze system. Considering the amoeboid organism’s diverse sensory capabilities, we further comprehensively investigated the influence of light, artificial magnetic fields, the magnetic field of the Earth, and vibration on movement direction. Two different clonal lines were tested to assess genetic diversity, encompassing over 1600 individual plasmodia. Our results show that no general lateralized behavior exists in the absence of stimuli in both clonal lines. On the other hand, Physarum’s sensitivity to strong magnetic fields and vibration induces significant true lateralization in previously nonlateralized plasmodia (37.6% right and 62.4% left, respectively). Possible mechanisms behind this induced lateralization are discussed. We conclude that previous findings showing lateralization are likely to have been influenced by unknown external stimuli. Full article

Phytotelmata are aquatic microenvironments formed by the accumulation of water and organic matter in cavities of plants. These microenvironments serve as breeding sites for various species of mosquitoes, including some of epidemiological importance. Our objective was to identify the mosquito fauna in these microenvironments and to analyze variations in mosquito fauna diversity between bromeliads, tree holes, and bamboo internodes in Cantareira State Park, São Paulo (CSP), Brazil, where there have been reports of yellow-fever epizootics in non-human primates and circulation of plasmodia. Collections were carried out monthly from February 2015 to April 2017. The bromeliads showed greater mosquito species richness and diversity than the tree holes and bamboo internodes, as well as a very different composition. Of the 11 genera collected and 49 taxa identified, Culex (Carrolia) iridescens, Cx. ocellatus, Cx. (Microculex) imitator, and Anopheles (Kerteszia) cruzii were the most abundant. The phytotelmata in the CSP showed significant differences in species richness, diversity, and composition and were found to support a diverse mosquito fauna to develop, including An. cruzii and the sylvatic yellow fever virus vector Haemagogus leucocelaenus. The finding of these epidemiologically important species highlights the key role played by phytotelma breeding sites as places of refuge and species maintenance for these vectors in green areas close to urban centers. Full article

Between March and August 2024, three species of Fundulus topminnows, including two northern studfish, Fundulus catenatus, six blackspotted topminnows, Fundulus olivaceus, and eleven blackstriped topminnows, Fundulus notatus, were collected from various Ouachita River drainage watersheds in Arkansas, USA. They were examined for myxozoans by having their gill, gallbladder, fins, integument, mesenteries, musculature, and other major organs examined. The mesenteries of two (33%) F. olivaceus from Town Creek (Fulton County, Arkansas, USA) were infected with a new myxozoan, Myxobolus storeri sp. n. Molecular data consisted of a 1726 base pair sequence of the partial small subunit ribosomal RNA gene for M. storeri sp. n. Histologically, plasmodia were limited to mesenteric adipose and hepatic parenchyma, causing slight compression of neighboring tissue but producing no associated inflammatory response in the examined histosections. This is the first time a myxozoan has been described from F. olivaceus and is the seventh species recorded from any member of the fish family Fundulidae. Full article

True slime molds (Eumycetozoa) represent a monophyletic clade within the phylum Amoebozoa, comprising the lineages Myxogastria, Dictyostelia, and Protosporangiida. Although historically misclassified as fungi, recent molecular and biochemical studies underscore their distinct evolutionary trajectories and rich metabolomic profiles. In this review, we synthesize current knowledge on Eumycetozoa as a reservoir of bioactive compounds, detailing how secondary metabolites—including polysaccharides, amino acids, unsaturated fatty acids, terpenoids, and glycosides—vary across plasmodia, fruiting bodies, and spores. A systematic literature search in major scientific databases accounted for legacy nomenclature and leveraged chemoinformatic tools for compound verification. Our findings reveal 298 distinct metabolites that serve ecological roles in nutrient recycling and interspecies interactions, while also showing promise for controlling agricultural pests and pathogens. Notably, certain glycosides, lectins, and polyketides exhibit antimicrobial or cytotoxic activities, indicating their potential utility in managing these biological challenges. By consolidating current data and emphasizing the wide taxonomic range of Eumycetozoa, this review highlights the critical need for comprehensive biochemical and genomic investigations. Such efforts will not only advance our understanding of slime mold metabolomes and their evolutionary significance but also pave the way for innovative, eco-friendly applications. Full article

Myxozoans represent a significant group of parasitic pathogens affecting both wild and farmed fish. For accurate and comprehensive early detection, the composition of myxozoan pathogens in fish has consistently been a primary focus for parasitologists. In China, we undertook an investigation into myxozoan infection in fish from Shandong Province, China, successfully isolating a myxozoan species from gibel carp Carassius auratus gibelio Bloch, 1782 and goldfish C. auratus Linnaeus, 1758. In the present study, this myxozoan species was identified by detailed morphological and molecular analysis. This parasite is characterized by the presence of visible plasmodia in various organs (intestine, liver, gallbladder, and abdominal cavity) of gibel carp as well as the abdominal cavities of goldfish. In comparison to all documented myxozoan species, this myxozoan species exhibits morphological identity with Myxobolus pronini Liu, Batueva, Zhao, Zhang, Zhang, Li, Li, 2016, in terms of spore morphology. Molecular sequence analysis, including sequence similarity, variable site, and the secondary structure of SSU rRNA, indicates that the present myxozoan species closely resembles M. pronini. Furthermore, phylogenetic analyses revealed that all isolates collected from different organs and hosts in this study clustered with M. pronini, forming a distinct branch within the Carassius-infecting clade. Consequently, the present myxozoan species can be confidently identified as M. pronini. Compared with the previous reports on M. pronini, this study documents, for the first time, goldfish as a host, intestines and gallbladders as the sites of infection, and Shandong Province as the geographic distribution of this myxozoan species. Full article

During the trophic period of myxomycetes, the plasmodia of myxomycetes can perform crawling feeding and phagocytosis of bacteria, fungi, and organic matter. Culture-based studies have suggested that plasmodia are associated with one or several species of bacteria; however, by amplicon sequencing, it was shown that up to 31–52 bacteria species could be detected in one myxomycete, suggesting that the bacterial diversity associated with myxomycetes was likely to be underestimated. To fill this gap and characterize myxomycetes’ microbiota and functional traits, the diversity and functional characteristics of microbiota associated with the plasmodia of six myxomycetes species were investigated by metagenomic sequencing. The results indicate that the plasmodia harbored diverse microbial communities, including eukaryotes, viruses, archaea, and the dominant bacteria. The associated microbiomes represented more than 22.27% of the plasmodia genome, suggesting that these microbes may not merely be parasitic or present as food but rather may play functional roles within the plasmodium. The six myxomycetes contained similar bacteria, but the bacteria community compositions in each myxomycete were species-specific. Functional analysis revealed a highly conserved microbial functional profile across the six plasmodia, suggesting they may serve a specific function for the myxomycetes. While the host-specific selection may shape the microbial community compositions within plasmodia, functional redundancy ensures functional stability across different myxomycetes. Full article

Culters are a popular and economically important carnivorous freshwater fish, widely distributed in rivers, lakes, and reservoirs in China. An investigation of Myxozoa was conducted to enhance the understanding of Myxozoan diversity in Culters in China, as only 15 Myxosporean species have been previously reported in 6 Culters species. A new species with typical Myxobolus characteristics was discovered exclusively in the gills of Chanodichthys dabryi, Bleeker, 1871, and no other species were found in other Culters fish or organs. The new species elicited whitish plasmodia in the serosa layer of the gill arch, with no distinct inflammatory reaction observed. This species is morphologically different from all reported Myxobolus spp. from Culters, differing in plasmodium and spore size, as well as the coils of polar filaments. Molecular analysis further supports that it does not match any sequences available in GenBank. Therefore, we identified it as a new species and named it Myxobolus dabryi n. sp. Full article