[Genetic diversity of Siberian bovine coronavirus isolates (Coronaviridae: Coronavirinae: Betacoronavirus-1: Bovine-Like coronaviruses)].

INTRODUCTION: Bovine coronaviruses (BCoVs) are causative agents of diarrhea, respiratory diseases in calves and winter cow dysentery. The study of genetic diversity of these viruses is topical issue. The purpose of the research is studying the genetic diversity of BCoV isolates circulating among dairy cattle in Siberia. MATERIALS AND METHODS: Specimens used in this study were collected from animals that died or was forcedly slaughtered before the start of the study. The target for amplification were nucleotide sequences of S and N gene regions. RESULTS: Based on the results of RT-PCR testing, virus genome was present in 16.3% of samples from calves with diarrheal syndrome and in 9.9% with respiratory syndrome. The nucleotide sequences of S gene region were determined for 18 isolates, and N gene sequences - for 12 isolates. Based on S gene, isolates were divided into two clades each containing two subclades. First subclade of first clade (European line) included 11 isolates. Second one included classic strains Quebec and Mebus, strains from Europe, USA and Korea, but none of sequences from this study belonged to this subclade. 6 isolates belonged to first subclade of second clade (American-Asian line). Second subclade (mixed line) included one isolate. N gene sequences formed two clades, one of them included two subclades. First subclade included 3 isolates (American-Asian line), and second subclade (mixed) included one isolate. Second clade (mixed) included 8 sequences. No differences in phylogenetic grouping between intestinal and respiratory isolates, as well as according to their geographic origin were identified. CONCLUSION: The studied population of BCoV isolates is heterogeneous. Nucleotide sequence analysis is a useful tool for studying molecular epidemiology of BCoV. It can be beneficial for choice of vaccines to be used in a particular geographic region.

First record of Trichophyton benhamiae isolated from domestic cats in Russia.

We report a first case of Trichophyton benhamiae isolation from domestic cats in Russia. Genetically affiliated to European strains T. benhamiae were deposited in NCBI. T. benhamiae strains formed zonal cream-colored colonies, with reversum pigmentation ranging from intensive yellow to orange-brown in one and orange-brown to chocolate in the second strain. Mycelium is colorless, hyphae are septated, rapidly aging with the formation of arthrospores and microconidia. The formation of macroconidia was recorded after 48 hours. A favorable outcome of treatment was recorded after two weeks.

[Genetic diversity and distribution of bovine pestiviruses (Flaviviridae: Pestivirus) in the world and in the Russian Federation].

The genus Pestivirus of the family Flaviviridae includes 11 species. Bovine pestiviruses are the causative agents of viral diarrhea/mucosal disease and include three genetically distinct species: pestivirus A (BVDV-1), B (BVDV-2), and H (BVDV-3). The number of BVDV-1 subtypes is 21, BVDV-2 - 4, and BVDV-3 - 4, which complicates the diagnosis of associated diseases, reduces the effectiveness of vaccination and control programs.We performed the search in the PubMed, Web of Science, Scopus, eLIBRARY.RU databases for articles published in 2000-2021.Pestivirus A is distributed everywhere, although the largest number of subtypes was found in cattle in Italy and China. The virus is widespread in the Central region of the Russia (subtypes 1a and 1m). In Siberia, eleven subtypes circulate among native and imported animals: 1a (5%), 1b (35%), 1c (5%), 1d (10%), 1f (20%), 1g, 1i (both 2.5%), 1j, 1k, 1p, and 1r (all for 5%). Pestivirus B subtype is more virulent, found less frequently and mainly in the North and South America, in some European countries, and in Asia. Three subtypes have been identified in Siberia: 2a (25%), 2b (10%), and 2c (5%). Pestivirus H circulates in Europe, Asia and South America. The main route of entry is contaminated biological products. In Russia, BVDV-3 of the Italian-Brazilian group (3a) was detected in 7 lots of fetal bovine serum.The role of the virus in the occurrence of respiratory diseases in calves, abortion, systemic infection and enteritis in calves and adult animals has been established. The source of the virus in such cases was a contaminated modified live vaccine.

[Detection of bovine pestiviruses by a multiplex real-time polymerase chain reaction.]

INTRODUCTION: Pestiviruses are the cause of reproductive problems, diseases of the gastrointestinal and respiratory tracts of animals. Three species are important for cattle: Pestivirus A, B, and H. Fast and reliable methods of differentiation of these pathogens are currently needed. Aims and objectives of the study: the development of multiplex real time PCR for the simultaneous detection and differentiation of three viruses. MATERIAL AND METHODS: The nucleotide sequences of the conserved regions of the 5´-UTR genes of pes tivirusesA, B, and H served as a target. RESULTS: The reaction showed high specificity, sensitivity, reproducibility and was able to detect virus RNA at a concentration of not less than 0.6-1.2 lg TCID50/cm3. Cross-reactions with other pestiviruses wer e not observed. Real time PCR confirmed the results obtained previously in RT-PCR with gel electrophoresis detection. In a parallel study of 1823 biological samples, the results of the two reactions were completely consistent. Pestivirus spp. was detectedin 76 samples, Pestivirus A was present in 73 samples, Pestivirus B - in 3 samples, and Pestivirus H was not detected. DISCUSSION: A two-step real time PCR was developed for the simultaneous detection and differentiation of three pestiviruses. Modified pan primers of S. Vilcek et al. were used for the first reaction, and primers and probes of our own design were used for virus typing, which resulted in high reaction efficiency. CONCLUSION: On the big dairy farms for livestock maintenance, there are favorable conditions for the circulation of pathogenic viruses. In this situation, rapid diagnostic methods are needed to quickly identify of several viruses. Real-time triplex analysis can be recommended as the rapid method for mass epidemiological studies, as well as for screening fetal calf serum used for virus cultivation in medicine and veterinary practice.

Developing and Testing a Real-Time Polymerase Chain Reaction to Identify and Quantify Bovine Respiratory Syncytial Viruses.

The bovine respiratory syncytial virus (BRSV) known as Bovine orthopneumovirus according to the international classification is one of the most important etiological agents of respiratory diseases in calves. At present, rapid and reliable methods to detect and measure the concentrations of this pathogen are needed. The objectives of the survey are developing the real-time polymerase chain reaction (PCR) to identify and quantify the BRSV RNA and, based on it, determining the number of the virus genomes in the respiratory tract of sick animals during the disease outbreaks. The nucleocapsid (N) protein gene of the virus served as the target for amplification. Messenger RNA (mRNA) of bovine GAPDH was used as a reference gene. A panel of positive control samples at known concentrations was used to estimate the virus and GAPDH numbers. The concentration of viral RNA extracted from the biomaterial samples was quantified relative to the bovine GAPDH mRNA level. The analytical sensitivity of PCR demonstrating high specificity and reproducibility was 1 × 103 genome equivalents per 1 cm3. All 273 samples of biological material taken from the animals with the respiratory diseases were analyzed. The virus genome was detected in 19.4% of samples. The viral RNA was more frequently detected in the lungs, which comprised 10.61% of positive samples. It was less frequently found in the mucous membranes of trachea and bronchi and the lymph nodes of the lungs, which comprised 0.73% of positive samples each. Concentrations of the virus in samples varied. The highest concentration was recorded in the lungs (1.3 ± 0.5-4.8 ± 0.47 log10 copies of BRSV/GAPDH RNA). The developed test kit may be used to quantify the concentration of the bovine respiratory syncytial virus in disease pathogenesis and to estimate the efficiency of vaccine or antivirus preparations for animals.

[Detection of bovine herpesvirus 4 DNA in cattle by realtime PCR.]

INTRODUCTION: BoHV-4 is poorly understood. Data on the circulation of the virus among animals and its role in infectious diseases insufficient. Aimes and goals. Development of real-time PCR for detecting the BoHV-4 and studying the frequency of its presence in samples from sick animals. MATERIAL AND METHODS: The nucleotide sequences of the glycoprotein L gene served as a target for amplification. The sequences of reference strains published in GenBank were used to analyze and design the primers. Studies were conducted in 3 regions of Western Siberia on 5 large dairy farms. RESULTS: 27.7% of samples contained the virus. The virus was present as a monoagent in nasal cavity of calves (80.0%), lungs (46.2%) and bronchial lymph nodes (38.5%) in pneumonia. In the cases of diarrhea the virus was detected in 20%, and in cows with gynecological pathology in 10.0%. In respiratory diseases of calves the virus was detected in association with BoHV-1 (21.6%) and BoCV (20.3%), and in gynecological pathology of cows with BVDV1 (6%). DISCUSSION: According to the phylogenetic analysis of 5 identified virus isolates, four belonged to the American branch and one to the European branch. The circulation of American strains occurred in the territory of the Republic of Kazakhstan (1), Tyumen (1) and Novosibirsk (2) regions, and the European - in the Novosibirsk region. CONCLUSION: The search for viruses involved to the infectious pathology, as well as studying the genetic diversity of viruses circulating on a particular farm including imported from other countries, is relevant.

PHYLOGENETIC ANALYSIS OF BOVINE PESTIVIRUSES DETECTED IN SIBERIA.

The results of phylogenetic analysis of three species of bovine pestiviruses circulating in six regions of Siberia, as well as those detected in fetal embryonic serum (FBS) and continuous cell cultures, are presented. The typing was made based on comparison of sequences from the 5' untranslated region (5'-UTR) of the viral genome. Among the highly productive dairy cattle, circulation of five subtypes of the BVDV1 (a, b, d, f, r) and BVDV2 was established. The predominant subtype was 1b (48% positive samples). The number of subtypes of BVDV1 was as follows: BVDV1: 1а (8%), 1b (48%), 1d (8%), 1f (16%) и 1r (8%) and BVDV2 (12%). Cell cultures revealed BVDV1a. The distribution of types and subtypes of viruses had geographical differences. BVDV1b, BVDV1d, BVDV1f и BVDV1r were detected in cattle or persistently infected (PI) animals in farms with respiratory distress. BVDV 1a revealed in the serum of PI heifer without manifestation of clinical symptoms. BVDV2 were detected in cattle with pathology of reproduction. The presence of the BVDV3 (atypical pestivirus) of the Italian group was established in seven lots of FBS obtained from two manufacturers. No evidence has been found for circulating of the atypical virus among cattle of various breeds, including imported, reindeers and red deers. Studies on the molecular epizootology of pestiviruses can be used to select and optimize the control strategy and address the issue of vaccine use in a particular region.

[Isolation and phylogenetic analysis of feline calicivirus in Siberia.]

The results of the study of the distribution of calicivirus infection in a population of domestic cats of different breeds, contained individually or the group method, the virus isolation in the cell culture and a comparative phylogenetic analysis of their nucleotide sequences with published sequences of reference feld and vaccine strains of Feline calicivirus (FCV) from other countries: USA, Germany, Japan, China and Korea are presented. Clinical signs of infection were found in 14.3% of the animals examined. After several passages in the primary kidney cells of the kitten embryo, seven cytopathogenic isolates FCV were isolated: 1 - from a cat with an acute infection, 5 - subclinical infection, 1 - systemic infection. They were adapted to continuous FK-81 cells in which they reached a maximum infectious activity of 10.0 ± 1.15 lg TCD 50 / cm3. Based on the sequence analysis of the open reading frame 2 region of the viral genome Eshli strain showed a close relationship with strain KM016908 from China with the identity of the nucleotide sequences between them of 81.0%. The results of the investigations showed that FCV isolates obtained from animals on the territory of Siberia are genetically different from strains included to imported vaccines used to prevent disease in Russian Federation and also among themselves. This causes a decrease in the effectiveness of preventive measures. In nurseries that do not have contacts and connections between themselves but located in the same geographic region FCV populations may have some genetic differences. A close relationship of some feld isolates with strains from other countries geographically located so far from the Siberian region has been revealed. Studies on the molecular epizootology of caliciviruses are important in the development of test systems and the monitoring of the spread of strains in Russia.

ANTIVIRAL COMPOUNDS AND PREPARATIONS EFFECTIVE AGAINST BOVINE VIRAL DIARRHEA.

Bovine viral diarrhea virus (BVDV) belongs to the genus Pestivirus, family Flaviviridae. It causes various clinical forms of infection leading to significant economic losses in beef and dairy industry worldwide. Furthermore, the virus is a contaminant of biological preparations (bovine fetal serum, continuous cell cultures, vaccines for human and veterinary medicine, interferons, trypsin, biotechnological preparations, embryos, stem cells, etc.). It is used as a test object when developing methods of decontamination. In some countries, a tool for monitoring the infection caused by the virus is vaccination based on the use of live and inactivated vaccines with varying efficiency. The antiviral compounds are a potential means of control in case of insufficient efficacy of vaccines. Their advantage for BVDV control is the ability to provide immediate protection for animals at risk in the case of an outbreak of the disease. This review summarizes the current state of knowledge about antiviral compounds against BVDV. It was noted that due to the use of advanced biomedical technologies there is a tendency to search for drugs that might be effective for antiviral therapy of BVDV, as indicated by numerous studies of new compounds and the antiviral efficacy of known drugs used in medical practice. In addition to the well-known antiviral targets for the virus, such as the RdRp, IMPDH, NS3, new targets were discovered, such as protein p7. Its mechanism of action remains to be explored. It can be concluded that there is a great potential for BVDV control through the use of antiviral drugs which has not yet implemented. The biggest obstacle for commercial implementation of identified compounds is the lack of demonstration of their efficacy in vivo. Further studies should be performed to develop a method for administering effective drugs to groups of animals.

[PESTIVIRUSES IN RUMINANTS].

The genus Pestivirus includes four species: bovine viral diarrhea virus 1, bovine viral diarrhea virus 2, classical swine fever disease virus, and ovine border disease virus. Pestiviruses infect many species of domestic and wild animals. Bovine viral diarrhea virus is a prototypical representative of the pestiviruses of ruminant animals. Recently, new candidates appeared for including in this genus: two viruses of the wild ruminant animals that have not been officially classified and one HoBi-like virus discovered for the first time in the bovine fetal serum. The circulation of the ruminant animal pestiviruses within population of domestic and wild animals, the presence of these viruses in bioproducts stimulates studies of the infection reservoirs and their influence on the effect of the bovine viral diarrhea control programs.

[THE USE OF THE MODEL MOUSE ICR--VARIOLA VIRUS FOR EVALUATION OF ANTIVIRAL DRUG EFFICACY].

Mice of the ICR outbred population were infected intranasally (i/n) with the variola virus (VARV, strain Ind-3a). Clinical signs of the disease did not appear even at the maximum possible dose of the virus 5.2 lg PFU/head (plaque-forming units per head). In this case, 50% infective dose (ID50) of VARV estimated by the presence or absence of the virus in the lungs three days after infection (p.i.) was equal to 2.7 ± 0.4 lg PFU/head. Taking into account the 10% application of the virus in the lungs during the intranasal infection of the mice, it was adequate to 1.7 lg PFU/lungs. This indicates a high infectivity of the VARV for mice comparable to its infectivity for humans. After the i/n infection of mice with the VARV at a dose 30 ID50/ head the highest concentration of the virus detected in the lungs (4.9 ± 0.0 lg PFU/ml of homogenate) and in nasal cavity tissues (4.8 ± 0.0 lg PFU/ml) were observed. The pathomorphological changes in the respiratory organs of the mice infected with the VARV appeared at 3-5 days p.i., and the VARV reproduction noted in the epithelial cells and macrophages were noticed. When the preparations ST-246 and NIOCH-14 were administered orally at a dose of 60 µg/g of mouse weight up to one day before infection, after 2 hours, 1 and 2 days p.i., the VARV reproduction in the lungs after 3 days p.i. decreased by an order of magnitude. Thus, outbred ICR mice infected with the VARV can be used as a laboratory model of the smallpox when evaluating the therapeutic and prophylactic efficacy of the antismallpox drugs.

The Possibility of Using the ICR Mouse as an Animal Model to Assess Antimonkeypox Drug Efficacy.

As a result of the conducted experimental studies on intranasal challenge of ICR mice, rabbits and miniature pigs (even in the maximum variant) with the doses of 4.0-5.5 lg PFU of monkeypox virus (MPXV), some clinical signs such as purulent conjunctivitis, blepharitis and ruffled fur were found only in mice. The 50% infective dose (C ID50 ) of MPXV for these animals estimated by the presence of external clinical signs was 4.8 lg PFU, and L ID50 estimated by the virus presence in the lungs of mice 7 days post-infection taking into account its 10% application in the animal respiratory tract was 1.4 lg PFU. When studying the dynamics of MPXV propagation in mice challenged intranasally with 25 L ID50 of MPXV, the maximum pathogen accumulation was revealed in nasal cavity, lungs and brain: 5.7 ± 0.1, 5.5 ± 0.1 and 5.3 ± 0.3 lg PFU/ml, respectively. The pathomorphological examination of these animals revealed the presence and replication of the pathogen in the traditional primary target cells for MPXV (mononuclear phagocyte system cells and respiratory tract epitheliocytes) as well as in some other types of cells (endothelial cells, reticular cells, connective tissue cells). Our use of these animals to assess the antiviral efficacy of some drugs demonstrated the agreement of the results (a significant positive effect of NIOCH-14 and ST-246) with those described in scientific literature, which opens up the prospects of using ICR mice as animal models for monkeypox to develop preventive antismallpox drugs.

DEVELOPMENT OF THE METHOD FOR IDENTIFICATION AND GENOTYPING OF THE BACTERIA PASTEURELLA MULTOCIDA AND MANNHEIMIA HAEMOLYTICA ON THE BASIS OF THE PCR AND PHYLOGENETIC ANALYSIS OF BACTERIAL CULTURES ISOLATED FROM CATTLE.

The results of development of a method for detection and genotyping of the bacteria Pasteurella multocida capsular five groups and Mannheimia haemolytica Al based on the multiplex polymerase chain reaction (PCR) with electrophoretic detection are submitted. Diagnostic sensitivity of the developed method was 103 CFU/ml in the study of the pure cultures and 105 CFU/g in the study of biological material. A study of 260 samples of biological material from infected animals revealed Pasteurella multocida in 50.0%, and Mannheimia haemolytica in 11.2% of the investigated samples. Circulation among the tested livestock of capsular groups B and E of Pasteurella multocida was not revealed. The majority of the tested samples contained group A, in some cases, group D, and, in one case, group F. On the basis of the phylogenetic analysis circulation of two different genetic types of Pasteurella multocida of the capsular group A was revealed.

An Outbreak of Sheep Pox in Zabajkalskij kray of Russia.

In this study, we investigated recent sheep pox outbreaks that occurred in Ononsky and Borzunsky regions of Zabajkalskij kray of Russia. The outbreaks involved in 2756 animals of which 112 were infected and 3 were slaughtered. Samples of injured skin of infected sheep were analysed by electron microscopy and CaPV-specific P32 gene amplification. Following sequence analysis of entire P32 gene showed that both specimens were identical to the sequence of several sheep poxvirus isolates from China and India. The close location of China to the last decade's Russian outbreaks suggest that possible future outbreaks in Russia could occur along the border regions with countries where sheep and goat pox are not controlled.

[Pathogenicity of noncytophatic isolates of bovine viral diarrhea virus in experimentally infected seronegative calves].

The results of experimental infection of seronegative calves with three non-cytopathogenic (NCP) isolates of BVDV isolated from cattle with different clinical manifestations of the disease belonging to genotype 1 (subgenotype 1a, 1b and 1d) are presented. All tested isolates showed the virulence for seronegative calves 4 to 6 months of age. Belonging to biotype did not correlate with the ability of the virus to infect the lymphoid tissues and to induce leukopenia. All isolates of the virus led to "transiting" leukopenia (up to 2880-3800 kl/mm3) for 8-10 days after infection. Isolate cluster 1d was more virulent and caused the development of a mild respiratory syndrome and short-term diarrhea. The virulence was "strain-dependent".

[Bovine viral diarrhea control in Russian Federation].

Bovine viral diarrhea (BVD) is one of the greatest challenges for breeding and commercial livestock. It is characterized by lesions of the respiratory and gastrointestinal tract, abortion, infertility, immune deficiency, and persistence of the pathogen. In this work, a set of measures for the rehabilitation and prevention of BVD in cattle is described. It includes the data of the literature, guidance documents for the diagnosis and control of BVD adopted by OIE, EU countries, USA, as well as the results of this research.

[Detection of bovine respiratory syncytial virus by RT-PCR].

The paper presents the results of studying the diagnostic efficiency of RT-PCR for the detection of respiratory syncytial virus in cattle of different ages. Glycoprotein F gene sequences were used as a target for amplification. The sensitivity of the reaction was 10 TCD50/ml and the virus detection rate in biomaterials averaged 19%. samples. That in RT-PCR correlated with the presence of clinical signs in sick animals.

[Isolation of noncytopathogenic genotype 2 bovine viral diarrhea virus from the cattle mucosa in the Russian Federation].

The paper presents the results of genotyping and phylogenetic analysis of three noncytopathogenic isolates of bovine viral diarrhea virus from the mucosae of the cattle with different clinical presentations of the disease. On the basis of the phylogenetic analysis of high-conserved and variable virus genome regions (5'-UTR, N(pro), and E2), the authors referred two isolates to as genotype 1, subgenotypes 1b and 1d, and the third isolate to as genotype 2. This is the first communication about the isolation of genotype 2 virus in Russia.

[Pathogenesis of mixed experimental infection caused by diarrheal viruses--bovine mucosal disease and bovine infectious rhinotracheitis in calves].

The pathogenesis of mixed experimental infection caused by intranasal inoculation of seronegative calves aged 4-6 months with bovine viral diarrhea-mucosal disease (BVDMD) (cytopathogenic) and infectious bovine rhinotracheitis (BRT) viruses, was studied. Consecutive injections of viruses resulted in acute respiratory disease that was severer and accompanied by necrotic rhinotracheitis and acute catarrhal bronchopneumonia than individual injections. BVDMD virus was reisolated from the samples taken from the respiratory tract, intestine, and lymphoid system. The longer excretion of BRT virus with nasal swabs and its high concentration in the respiratory organs suggests its more potent pathogenic properties during reproduction of BVDMD virus.

[Isolation and characterization of bovine diarrhea viral isolates].

The paper presents the results of a study of the antigenic and electromicroscopic characteristics of 3 bovine viral diarrhea isolates from cattle in Siberia. All the isolates were antigenically related to the reference strain BK-1 and closely interrelated: their affinity was in the range of 92.2 to 96.4%. The aerosolic administration of the isolate of TM from the sick calf lung into 2 seronegative (4-6-month-old) calves caused the characteristic sings of acute respiratory disease with short diarrhea.