Characterization of a novel picornavirus prevalent in experimental rabbits (Oryctolagus cuniculus).

Here, using viral metagenomic method a novel picornavirus (named UJS-2019picorna, GenBank accession number OP821762) was discovered in fecal and blood samples of experimental rabbits (Oryctolagus cuniculus). The complete genome size of UJS-2019picorna is 7832 bp excluding the poly(A)-tail, with GC content of 44.00% and a nucleotide composition of 28.0% A, 28.0% U, 21.5% G, and 22.5% C. The viral genome has a typical picornavirus organization pattern from the 5'-3' direction: VPg-5' UTR-(L)-P1, (VP4-VP2-VP3-VP1)-P2, (2 A-2B-2C)-P3, (3 A-3B-3C-3D)-3' UTR-poly(A). The P1 region of UJS-2019picorna is related to Erbovirus with amino acid identity of 37.31%, while the P2 and P3 regions are the closest to Bopivirus with amino acid identity of 35.66%-39.53%. According to the Picornaviridae Study Group guidelines, UJS-2019picorna should be presumed to be a new genus belonging to the Picornaviridae family. Epidemiologic study revealed that this novel picornavirus was prevalent in a cohort of experimental rabbits, with prevalence rate of 23.68% (9/38) in feces and 18.4% (7/38) in blood samples. Further work is required to elucidate whether this virus is pathogenic to rabbits and whether it has influence on studies using rabbits as experimental animal.

Viromic analysis of feces from laboratory rabbits reveals a new Circovirus.

BACKGROUND: Members of the genus Circovirus with the family Circoviridae are responsible for fatal diseases that can affect mammals and birds. Beak and feather disease virus (BFDV) is responsible for fatal diseases that could affect birds, causing the psittacine beak and feather disease. The current study discovered a new Circovirus from feces of laboratory rabbits and name it RabCV, which shows close relationship to BFDVs. RESULTS: We investigated the feces virome of 10 laboratory rabbits using the viral metagenomic method. In these samples, we detected a new rabbit-associated Circovirus (RabCV) and performed phylogenetic analysis based on replication-associated (Rep) protein. The result showed that the RabCV was closely clustered with BFDVs, sharing the identity of 56.7%-57.2% with them based on the whole genome sequence. PCR screening in a cohort of 38 laboratory rabbits showed that 3 out of the 38 rabbits were positive for this new rabbit-associated Circovirus. CONCLUSION: A new Circovirus was discovered from feces of rabbits, which showed low prevalence in the healthy laboratory rabbits. BFDV is responsible for fatal diseases that could affect birds, which suggested that the potential threat of the new rabbit-associated Circovirus to the health of laboratory rabbits needs further study.

Molecular mechanisms of neuroendocrine differentiation in prostate cancer progression.

BACKGROUND: Rapid evolution of the therapeutic management of prostate cancer, especially in in second-generation androgen inhibitors, has increased the opportunity of transformation from prostate cancer (PCa) to neuroendocrine prostate cancer (NEPC). NEPC still lacks effective diagnostic and therapeutic interventions. Researches into the molecular characteristics of neuroendocrine differentiation is undoubtedly crucial to the discovery of new target genes for accurate diagnostic and therapeutic targets. PURPOSE: In this review, we focus on the relevant genes and molecular mechanisms that have contributed to the transformation in the progression of PCa and discuss the potential targeted molecule that might improve diagnostic accuracy and therapeutic effectiveness. METHODS: The relevant literatures from PubMed have been reviewed for this article. CONCLUSION: Several molecular characteristics influence the progression of neuroendocrine differentiation of prostate cancer which will provide a novel sight for accurate diagnosis and target therapeutic intervention for patients with NEPC.

Spindle pole body component 25 in the androgen-induced regression of castration-resistant prostate cancer.

Background: Androgen plays a critical role in the development and growth of prostate cancer (PCa) by binding to the androgen receptor, a steroid receptor for testosterone and dihydrotestosterone (DHT). Androgen deprivation therapy, a clinical endocrine therapy, has resulted in increases in the occurrence of castration-resistant prostate cancer (CRPC); however, the mechanisms of CRPC have not yet fully been determined. We previously showed that spindle pole body component 25 (SPC25), a component of the NDC80 complex that is critical in kinetochore formation and chromosome segregation during the cell cycle, plays a critical role in PCa tumorigenesis and cancer stemness. However, it is not yet known whether SPC25 plays a role in CRPC; thus, we sought to address this question in the current study. Methods: SPC25 levels were detected in androgen-insensitive PCa cells using the public database and bioinformatics tools. In vitro, SPC25 levels were determined in androgen-sensitive and androgen-insensitive PCa cells treated with or without DHT. The growth of the PCa cells was assessed by the Cell Counting Kit-8 assay. The invasiveness and migratory potential of the PCa cells were assessed by the transwell cell invasive assay and migratory assay, respectively. Gain-of-function and loss-of-function experiments examined the transfection of androgen-sensitive and androgen-insensitive PCa cells by plasmids carrying small-interfering ribonucleic acids for SPC25 or SPC25, respectively. Results: SPC25 levels were significantly reduced in the androgen-insensitive PCa cells treated with DHT in the Public database. In vitro, PCa cell growth, invasion, and metastasis was reduced in androgen-insensitive PCa cells but increased in androgen-sensitive PCa cells treated with DHT, partially through DHT-regulated expression of SPC25 at transcriptional but not at translational levels. Conclusions: Androgen treatment reduces CRPC growth, invasion, and metastasis partially through its regulation of SPC25. SPC25 represents a promising target in the treatment of CRPC.

Novel putative pathogenic viruses identified in pangolins by mining metagenomic data.

The pangolin is the only scaly mammal in the world and also an important reservoir of pathogenic viruses. Habitat loss and poaching have been shrinking the survival range of pangolins. More information on pangolin virus populations is needed to better understand and assess potential disease risks. In this study, viral metagenomic data were used to reinvestigate the virome in pangolin lung tissue. Complete genome sequences of two novel anelloviruses were acquired and clustered with the referenced feline strains belonging to genus Tettorquevirus and genus Etatorquevirus, respectively. Two genomes belonging to the genus Gemykibivirus, and species Bat-associated cyclovirus 9 were detected, respectively. One genome with a large contig belonging to the genus Senecavirus were also characterized, according to phylogenetic analysis, which can be presumed to be a novel species. In addition, a full genome of endogenous retroviruse (ERV) was assembled from the lungs of pangolin, and this virus may have the possibility of cross-species transmission during the evolution. This virological investigation has increased our understanding of the virome carried by pangolins and provided a reference baseline for possible zoonotic infectious diseases in the future.

Virome in Fecal Samples From Wild Giant Pandas (Ailuropoda Melanoleuca).

The giant panda (Ailuropoda melanoleuca) is one of the most endangered mammals in the world; anthropogenic habitat loss and poaching still threaten the survival of wild pandas. Viral infection has become one of the potential threats to the health of these animals, but the available information related to these infections is still limited. In order to detect possible vertebrate viruses, the virome in the fecal samples of seven wild giant pandas from Qinling Mountains was investigated by using the method of viral metagenomics. From the fecal virome of wild giant pandas, we determined six nearly complete genomes belonging to the order Picornavirales, two of which may be qualified as a novel virus family or genus. In addition, four complete genomes belonging to the Genomoviridae family were also fully characterized. This virological investigation has increased our understanding of the gut viral community in giant pandas. Whether these viruses detected in fecal samples can really infect giant panda needs further research.

Viral metagenomics reveals two novel anelloviruses in feces of experimental rats.

BACKGROUND: Rodents are widely distributed and are the natural reservoirs of a diverse group of zoonotic viruses. Thus, analyzing the viral diversity harbored by rodents could assist efforts to predict and reduce the risk of future emergence of zoonotic viral diseases. Rodents are commonly used in animal testing, particularly mice and rats. Experimental rats are important animal models, and a history of pathogenic infections in these animals will directly affect the animal trial results. The pathogenicity of Anellovirus (AV) remains poorly understood due to the lack of a suitable model cell line or animal to support the viral cycle. This study aimed to discover possible anelloviruses from the virome in feces of experimental rats by viral metagenomic technique. METHODS: Fecal samples were collected from 10 commercial SD rats and pooled into a sample pool and then subjected to libraries construction which was then sequenced on Illumina MiSeq platform. The sequenced reads were analyzed using viral metagenomic analysis pipeline and two novel anelloviruses (AVs) were identified from fecal sample of experimental rats. The prevalence of these two viruses was investigated by conventional PCR. RESULTS: The complete genomic sequence of these two AVs were determined and fully characterized, with strain name ratane153-zj1 and ratane153-zj2. The circular genomes of ratane153-zj1 and ratane153-zj2 are 2785 nt and 1930 nt in length, respectively, and both include three ORFs. Ratane153-zj1 closely clustered with members within the genus Wawtorquevirus and formed a separate branch based on the phylogenetic tree constructed over the amino acid sequence of ORF1 of the two AVs identified in this study and other related AVs. While the complete amino acid sequences of ORF1 of ratane153-zj2 (nt 335 to 1390) had the highest sequence identity with an unclassified AV (GenBank No. ATY37438) from Chinchilla lanigera, and they clustered with one AV (GenBank No. QYD02305) belonging to the genus Etatorquevirus from Lynx rufus. Conventional PCR with two sets of specific primers designed based on the two genomes, respectively, showed that they were detectable at a low frequency in cohorts of experimental rats. CONCLUSION: Our study expanded the genome diversity of AVs and provided genetic background information of viruses existed in experimental rats.

Overexpression of MCM10 promotes cell proliferation and predicts poor prognosis in prostate cancer.

BACKGROUND: Prostate cancer (PCa) is one of the most malignant tumors of the male urogenital system. There is an urgent need to identify novel biomarkers for PCa. METHODS: In this study, we evaluated the expression levels of MCM10 in prostate cancer by analyzing public datasets (including The Cancer Genome Atlas and GSE21032). Furthermore, loss of function assays was performed to evaluate the effects of MCM10 on cell proliferation, apoptosis, and colony formation. Furthermore, we performed microarray and bioinformatics analyses to explore the potential mechanisms of MCM10. RESULTS: In the present study, we for the first time revealed MCM10 was significantly upregulated in PCa. Moreover, we found increased MCM10 expression was significantly associated with advanced clinical stage and high Gleason score PCa. Kaplan-Meier analysis demonstrated higher MCM10 expression was associated with a poorer patient prognosis in PCa. Furthermore, loss of function assays showed that MCM10 knockdown inhibited cell proliferation and colony formation, but promoted cell apoptosis. Additionally, we performed microarray and bioinformatics analysis and found MCM10 regulated PCa progression by regulating a series of biological processes including cancer, cell death, and apoptosis. CONCLUSIONS: These results suggest that MCM10 may be a potential diagnostic and therapeutic target for PCa.

Stability analysis on the radioactive iodine-labelled prostate cancer-specific recombinant oncolytic adenovirus.

The aim of the present study was to construct the 125I-replication-selective oncolytic adenovirus (RSOAds)-human telomerase reverse transcriptase (hTERT)/prostate specific antigen (PSA) nuclide-oncolytic virus marker by labelling the hTERT/PSA double-regulation replicative oncolytic adenovirus with 125I nuclide, and investigate the influence of viral markers under various reaction conditions on labelling efficiency. N-bromosuccinimide (NBS) was used as the oxidizer for 125I labelling, and the best conditions for labelling were identified through the reactions between oncolytic adenovirus at various concentrations and NBS. Dosage of 125I, reaction duration, pH values and reaction volume were respectively evaluated to determine their effects on the labelling efficiency of 125I-RSOAds-hTERT/PSA nuclide-oncolytic adenovirus markers. Purified nuclide-oncolytic adenovirus markers were isolated by gel-filtration chromatography; paper chromatography was performed to assay the radiochemical purity of 125I-RSOAds-hTERT/PSA markers at various time points. Radiochemical purity of 125I-RSOAds-hTERT/PSA was >95%, and could be maintained at 4°C for 7 days. The best reaction conditions were set as follows: 0.5 µl of 125I (~0.2 m Ci, 7.4 MBq); 25 qg of NBS; 100 µl of 8×109 VP/ml 125I-RSOAds-hTERT/PSA virus solution; 30 min of reaction duration; pH 7.5; 120 µl of PBS. Labelling hTERT/PSA double-regulation replicative oncolytic adenovirus with 125I was identified to be available, and the radiochemical purity of acquired virus markers could be maintained under specific conditions.

Effect of Liangxuehuayu Recipe on hemorheology in rats with blood stasis syndrome.

OBJECTIVE: To investigate the effects of Liangxuehuayu Recipe on hemorheology in rats with blood stasis syndrome induced by mutifactor stimuli. METHODS: SD rats were divided into control, model, Liangxuehuayu Recipe (high, middle and low dose, 18, 9, 4.5 g/kg accordingly). Except the control group, blood stasis model was established in the rest groups. The hemorheological parameters were measured and compared. RESULTS: Blood viscosity at high, moderate and low level in rats with blood stasis significantly increased (P<0.05), but blood viscosity at high level and plasma viscosity was significantly decreased in rats induced by some stimuli after Liangxuehuayu Recipe were intra-gastrically administered for 1 weeks (P<0.01, P<0.05). CONCLUSIONS: Liangxuehuayu Recipe is effective in improving hemorheology, and has important application value in the prevention of occurrence and development of ischemic stroke.