[Homeostatic mechanisms of biological systems: development homeostasis].

Homeostasis as an ability to maintain structural-functional parameters of the system at the required level is a basic characteristic for providing the stability of any biological system (from biosphere and separate ecosystems to communities, populations, and individuals). The study of homeostatic-mechanisms that provide the stability ofbiological systems is the main task for solving many theoretical and practical questions. The search for criteria of homeostasis estimation and study of homeostatic mechanism ratio at different levels are principally important in this direction. Estimation of the role of homeostatic mechanisms of the organism and population for providing the stability of biological systems of different levels when using the approach based on estimation of the population state from ontogenetic positions (population developmental biology) seems promising.

European Pharmacopoeia foot-and-mouth disease vaccine potency testing in cattle: between test variability and its consequences.

In the event of a foot-and-mouth (FMD) outbreak in a densely populated livestock area within the European Community, emergency vaccination will most likely be employed. The objective of the present study was to support the European FMD control policy by evaluating the between test variability of the European accepted method for assessing the potency, a major determinant in vaccine choice, of an FMD vaccine batch. The test system suffers from low in vivo repeatability and reproducibility (67.6 and 58.8%, respectively). Consequently, the results of 10 identical, individual vaccine potency tests using an FMD virus O1 Manisa vaccine batch indicate that the obtained potency of a vaccine with an overall 50% protective dose (PD(50)) value of 9.99 may vary from 4.59 to 24.25 PD(50).

[Differentiation of capripoxvirus species and strains by polymerase chain reaction].

A fast and simple method for capripoxvirus species identification has been developed. The method is based on multiplex polymerase chain reaction (MPCR) with species-specific primers and does not require nucleotide sequencing or restriction analysis of PCR products. To differentiate vaccine stains used in Russia and countries of the former Soviet Union from epizootic isolates of sheep pox virus, a method based on restriction analysis of the ankyrin-repeat protein gene fragment amplified by PCR has been developed. Being highly specific, both methods may be used for routine diagnosis of capripoxvirus-associated diseases.

Selection of foot and mouth disease vaccine strains--a review.

The choice of the most appropriate strains of foot and mouth disease (FMD) virus vaccines to use in FMD control programmes and to store in vaccine antigen reserves is based on the matching of representative field isolates from outbreaks around the world to available vaccine strains. However, those involved in FMD control at a national level do not always give this work a high priority, while in countries without effective control of FMD there is little incentive to collect samples or to overcome the constraints on submission to international reference laboratories. In the short term, specific initiatives for targeted collection can provide samples on a periodic basis, but a long-term solution requires the development of FMD control measures. This must be underpinned by the strengthening of local Veterinary Services and laboratories, and by demand-driven provision of sufficient amounts of high-quality vaccine. Difficulties may be increased by commercial constraints on disclosure of the strains used for vaccine production and on the supply of reagents needed for matching tests. Vaccine matching tests are mainly based on in vitro methods - such as virus neutralisation, enzyme-linked immunosorbent assay with polyclonal antibodies and complement fixation - and are performed in a relatively small number of laboratories around the world. In addition to the difficulties of gathering representative field and vaccine strains, neither the reagents nor the methods used for vaccine matching are fully harmonised. Consequently, there is no strict equivalence in the results obtained. Alternative approaches using monoclonal antibody panels and/or viral capsid gene sequencing are being developed and could complement the currently employed serological tests. However, there is limited in vivo cross-protection information, more of which is essential for future validation of the vaccine matching methods. In response to the funding and leadership deficit for vaccine strain selection, a network of World Organisation for Animal Health (OIE) and Food and Agriculture Organization FMD reference laboratories has been established; this gives these laboratories the potential to strengthen the coordination of their work and reporting and thereby improve recommendations on vaccine strain selection.

[Estimate of cytogenetic homeostasis in natural populations of some small murid rodents]. / Otsenka tsitogeneticheskogo gomeostaza v prirodnykh populiatsiiakh necotorykh vidov melkikh myshevidnykh gryzunov.

Cytogenetic homeostasis in natural populations under natural conditions and anthropogenic stress was estimated according to the frequency of chromosome aberrations in somatic cells for six species of small mammals. Cytogenetic homeostasis was disturbed under the stress effect of increased density during population cycles, at the ecological periphery, and in the case of environmental chemical and radiation contamination. Cytogenetic homeostasis disturbances were related to changes in other indices of homeostasis, such as developmental stability and immune status, suggesting the use of the cytogenetic approach for estimating the general state of individuals in natural populations.

[Ontogenesis and population: evaluation of developmental stability in natural populations]. / Ontogenez i populiatsiia:otsenka stabil'nosti razvitiia v prirodnykh populiatsiiakh.

Ontogenetic and population studies traditionally develop independently. At the same time, the relevance of specific analysis of a specimen as ontogenesis for both correct assessment of populations and their dynamics in time and space and understanding the mechanisms underlying population processes is becoming more and more clear. Developmental stability serves as the most general description of the developing organism status. The level of developmental noise commonly evaluated by fluctuating asymmetry is the main index of developmental stability. High developmental stability is maintained on the basis of genetic coadaptation under optimal developmental conditions. Coordinated changes in developmental stability and other homeostatic indices, including genetic, physiological, biochemical, and immune indices suggest that we consider the general status of the organism by evaluating its developmental stability. Evaluation of developmental stability as a measure of environmental stress, apparently, is the most promising. In practical terms, this allows us to evaluate and monitor environmental health under both natural and various anthropogenic conditions. Outlooks of this approach as relates to studies of developmental stability are discussed.

[Natural killers and cytotoxic lymphocytes in classical hog cholera]. / Estestvennye killery i tsitotoksicheskie limfotsity pri klassicheskoi chume svinei.

The formation of immune mechanisms directed at elimination of infected cells and including the activity of natural killers and cytotoxic lymphocytes was assessed in pigs infected with hog cholera virus. In acute disease natural killer activity in the blood is reduced, while in vaccinal process it is increased. Vaccination in parallel with cyclophosphamide immunodepression lead to inhibition of natural killer activity. Leukocytes and lymphocytes of immunized pigs can cause cytolysis of autologous targets infected with hog cholera virus.

[Use of fluorescent probes for identifying certain animal viruses and antibodies to them]. / Ispol'zovanie fliuorestsentnykh zondov dlia identifikatsii nekotorykh virusov zhivotnykh i antitel k nim.

Virus adsorption on cell receptors changed the state of cellular membranes, as was shown on a model of 25 viruses belonging to 13 families. This is indicated by an increase in the fluorescence of the DSM probe. Homologous antibodies block the virus adsorption on the cell membrane, this permitting identification of viruses and detection of antibodies to them.