[Persistent form of bovine viral diarrhea].

The review provides an analysis of literature data on the persistent form of Bovine Viral diarrhea/Mucosal disease (BVD) and is focused on virus and host factors, including those related to immune response, that contribute the persistence of the virus. BVD is a cattle disease widespread throughout the world that causes significant economic damage to dairy and beef cattle. The disease is characterized by a variety of clinical signs, including damage to the digestive and respiratory organs, abortions, stillbirths and other failures of reproductive functions.

[Adaptation of african swine fever virus (Asfarviridae: Asfivirus)to growth in the continuous culture PPK-66b cells by the method of accelerated passaging].

INTRODUCTION: African swine fever virus (ASF) is a large, enveloped virus with an icosahedral capsid morphology and a double-stranded DNA genome ranging in size from 170 to 190 kb. The replication cycle proceeds in two phases, the early phase lasting 4-6 hours and the late 8-20 hours after infection. The adaptation of the ASF virus to growth in continuous cell lines makes efficient and reliable genetic analysis and more accurate interpretation of its results. OBJECTIVE: Adaptation of a new isolate of the ASF virus to growth in a continuous cell line by the method of accelerated passages and preliminary genetic analysis of the resulting strain. MATERIALS AND METHODS: For virus isolation and passaging of the ASF virus, a porcine leukocyte cell culture (PL) and continuous cell cultures of porcine origin (ST, PK, PPK-66b) were used with Eagle MEM and HLA essential media with 10% porcine or fetal serum. RESULTS: The article presents data on the isolation and analysis of the changes in the reproductive properties of a new African swine fever (ASF) virus isolate in the process of adaptation to growth in a continuous piglet kidney cell culture clone b (PPK-66b). The current state of the problem of cultivation of the ASF virus, the features of its reproduction, and the basis of the genetic differentiation of its isolates are described in detail. Understanding the uniqueness of the nature of the ASF virus determined the approaches to the processes of its cultivation and adaptation. In this regard, the results of studies of cultural properties, and analysis of the nucleotide sequence of 6 genes of the new isolate, as well as phylogenetic analysis of these genes with already known strains and isolates of the ASF virus are presented. CONCLUSION: A new strain obtained in the process of cell adaptation of ASVF/Znaury/PPK-23 ASF virus by the accelerated passaging method reaches a high level of reproduction in 72 hours with an accumulation titer of 7.07 lg HAdE50/cm3. Primary genetic analysis allowed to establish the main phylogenetic relationships of the newly isolated strain with previously known variants of the current ASF panzootic.

[Characterization of B1-cells during experimental leukomogenesis.]

BACKGROUND: Bovine leukemia causes a significant polyclonal expansion of CD5+, IgM+ B lymphocytes, known as persistent lymphocytosis (PL), in approximately 30% of infected cattle. However, it is not yet clear what happens to this subpopulation of B cells in the early period of infection of animals. PURPOSE: Quantitative characterization of IgM+ and CD5+ B cells during the immune response, which can provide important information on the mechanisms of lymphocyte priming in BLV infection. MATERIAL AND METHODS: The experiment used BLV-negative calves of black-motley breed at the age of 8 months (n = 11). Animals (n = 8) were intravenously injected with blood of a BLV-positive cow. Control calves (n = 3) were injected with saline. Studies were performed before and after infection on days 5, 7, 14, 21, 28 and 65 of the immune response. The determination of the number of B-lymphocytes in the blood was carried out by the method of immunoperoxidase staining based on monoclonal antibodies to IgM, CD5. RESULTS: As a result of the studies, it was found that the level of CD5+ B cells increases on the 14th day of the primary immune response, characterized by polyclonal proliferation of CD5+ B cells, which are the primary target for BLV. Our research data confirm that in the lymphocytes of experimentally infected cattle, surface aggregation of IgM and CD5 molecules on B-lymphocytes is absent. DISCUSSION: It is known that the wave-like nature of IgM synthesis, which was shown in previous studies, depends on a subpopulation of B1 cells. After 7 days of the immune response, IgM+ and CD5+ cells do not correlate, which shows their functional difference. The increase in CD5+ cells is probably not associated with B cells, but with T cells differentiating under the influence of the virus. CONCLUSIONS: A subset of B1 cells is the primary target of cattle leukemia virus. The 65th day of the immune response is characterized by the expansion of IgM+ B cells, a decrease in the number of CD5+ cells and a uniform distribution of receptors around the perimeter of the cells.

[Formation of population gene pools of zoonotic viruses, potentially threatening biosafety].

The possible formation of population gene pools of zoonotic viruses with a respiratory route of transmission and a possibility of a pandemic at different stages of biosphere evolution is analyzed. Forming of Poxviruses  (Entomopoxvirinae) gene pool could be the beginning of transformation from Plants to Arthropoda (Carbon - 375 million years ago) with further evolution connected with Rodentia (Pliocene - 75-70 million years ago) and further separation of genera (500-300 thousand years ago), and respiratory transmission (epidemics) between humans (10-2 thousand years BC). Smallpox comeback would be possible. Orthomyxoviruses relicts (genus Isavirus) were possibly connected with Ichthya (Silurian - 500-410 million years ago), and then close interaction with Aves (the Cretaceous, 125-110 million years ago) with the division of genera and respiratory transmission (epidemics) between humans (10-2 thousand BC). Next pandemic of influenza A could be catastrophic in terms of the number of victims and economic damage.Coronaviruses formed a gene pool by interaction with Amphibia (subfamily Letovirinae) and then with Chiroptera in Tertiary (110-75 million years ago) with transformation to Artiodactyla (Eocene - 70-60 million years ago), and only 10-2 thousand years BC acquired the ability to a respiratory transmission and became Alphaviruses, a seasonal infection of humans. A similar situation is possible in the near future with SARS-CoV-2. Pandemics associated with zoonoses even more serious than COVID-19 are likely. Constant monitoring of  populational gene pools of zoonotic viruses is necessary.

[Detection of specific antibodies of classes G and M to bovine leukemia virus in the blood serum.]

INTRODUCTION: Bovine leukemia is a widespread infection worldwide, the causative agent of which is the bovine leukemia virus (BLV) in structural structure and functional features similar to human T-cell leukemia virus (HTLV-1 and HTLV-2) and It is considered as an actual medical and social problem. The study of the immune response in experimentally infected calves at an early stage of the disease development, synthesis of specific antibodies of classes G and M (IgG and IgM), diagnostic informativeness of detection of IgM in cattle leukemia is relevant and determines the purpose of this study. MATERIAL AND METHODS: Samples of blood and serum of cattle: animals experimentally infected with VLCRS, patients with cattle leukemia; control negative; specific to heterologous pathogens of cattle diseases. Indirect and sandwich variant enzyme-linked immunosorbent assay (ELISA); commercial ELISA kits (IDEXX, USA; Hema LLC, FKP Kursk Biofactory Firm BIOK, Russia) for the detection of specific IgG and IgM for BLV in the agar gel immunodiffusion reaction (RID). RESULTS: The humoral immune response develops shortly after infection - by 1-8 weeks. IgM are detected starting from the 3rd day, and IgG from the 7th day after infection. Up to 97% of coincidence of positive results in RID and indirect variant of TF ELISA based on monoclonal antibodies to cattle IgM (IgMbovine) were found. DISCUSSION: The dynamics of the synthesis of antibodies of classes M and G to the glycoprotein gp 51 BLV has a dosedependent wave-like character, is consistent with the levels of increase / decrease in the absolute and relative number of leukocytes / blood lymphocytes of infected calves. FINDINGS: Serum specific IgM was detected starting 3 days after infection with BLV. Early detection of IgM in serum of cattle can be used as an additional test for the detection of sick animals.

[IDENTIFICATION OF THE INFECTIOUS PANCREATIC NECROSIS VIRUS (IPNV) USING THE ENZYME IMMUNOASSAY].

The infectious pancreatic necrosis (IPN) caused by a non-enveloped virus of the Birnaviridae family is one of the most important loss factors in the salmonid aquaculture. Virus isolation in the sensitive cell cultures has been approved in the Russian Federation as the diagnostic method for determination of IPNV antigen. This work gives the results of the development of the diagnostic test to reveal IPNV using the antigen-bound ELISA (sandwich ELISA). The developed test supplements a new diagnostic method and verifies some disputable results obtained with classical methods.

[Two cases of hydrophobia in the Republic of Tatarstan: in vivo and postmortem laboratory diagnosis].

The results of rabies in vivo and postmortem laboratory detection in two cases registered in the Republic of Tatarstan are reported: a victim bitten by a wolf in 2002 and another one bitten by a stray dog on Goa Island, India, in 2013. In the patient bitten by a wolf cornea imprints studies using the method of fluorescent antibodies (MFA) showed rabies-positive result 6 days before the patient's death. The results were confirmed by postmortem examination of different parts of the brain and salivary glands using the MFA, enzyme-linked immunosorbent assay (ELISA), optical microscopy, and bioassay methods. In the patient bitten by a stray dog the rabies virus specific antigen was detected by eye cornea studies using the MFA method and saliva studies using the ELISA. The rabies virus genome was also isolated from saliva and tear fluid using nested reverse-transcription polymerase chain reaction (RT-PCR) 9 days before the patient's death. The in viva studies results were consistent with the postmortem study of different parts of the brain using the MFA, enzyme-linked immunosorbent assay (ELISA), optical microscopy, and bioassay methods. All the infection-positive results of both in viva and postmortem studies were consistent with the clinical studies, i.e. rabies diagnosis was confirmed. The analysis of the rabies virus gene G fragment nucleotide sequence of 238 nd length showed a slight difference between the studied isolates (2 rabies) and the RABV AY9563I9 (1.68%), difference by 10.5% from the Vnukovo-32 vaccine strains and by 10.9% from the SAD B19 rabies strain, respectively (rabies viruses of 1st genotype). It was also significantly different from the lissaviruses of 2,4,5, and 6 genotypes (21 .0-32.7%). The obtained results indicate phylogenetic closeness of the studied isolates (2 rabies) with the RABV AY956319 rabies virus strain belonging to the 1st genotype.