Academic literature on the topic 'Bovine parvovirus'

Human parvovirus 4 (PARV4), a recently discovered parvovirus found exclusively in human plasma and liver tissue, was considered phylogenetically distinct from other parvoviruses. Here, we report the discovery of two novel parvoviruses closely related to PARV4, porcine hokovirus (PHoV) and bovine hokovirus (BHoV), from porcine and bovine samples in Hong Kong. Their nearly full-length sequences were also analysed. PARV4-like viruses were detected by PCR among 44.4 % (148/333) of porcine samples (including lymph nodes, liver, serum, nasopharyngeal and faecal samples), 13 % (4/32) of bovine spleen samples and 2 % (7/362) of human serum samples that were sent for human immunodeficiency virus and hepatitis C virus antibody tests. Three distinct parvoviruses were identified, including two novel parvoviruses, PHoV and BHoV, from porcine and bovine samples and PARV4 from humans, respectively. Analysis of genome sequences from seven PHoV strains, from three BHoV strains and from one PARV4 strain showed that the two animal parvoviruses were most similar to PARV4 with 61.5–63 % nt identities and, together with PARV4 (HHoV), formed a distinct cluster within the family Parvoviridae. The three parvoviruses also differed from other parvoviruses by their relatively large predicted VP1 protein and the presence of a small unique conserved putative protein. Based on these results, we propose a separate genus, Hokovirus, to describe these three parvoviruses. The co-detection of porcine reproductive and respiratory syndrome virus, the agent associated with the recent ‘high fever’ disease outbreaks in pigs in China, from our porcine samples warrants further investigation.

SUMMARYA bovine enterovirus and a bovine parvovirus seeded into liquid cattle manure were rapidly inactivated by anaerobic digestion under thermophilic conditions (55°C), but the same viruses survived for up to 13 and 8 days respectively under mesophilic conditions (35°C). The enterovirus was inactivated in digested liquid manure heated to 70°C for 30 min, but the parvovirus was not inactivated by this treatment. The enterovirus, seeded into single cell protein (the solids recovered by centrifugation of digested liquid manure), was inactivated by a gamma irradiation dose of 1·0 Mrad, but the parvovirus survived this dose. When single cell protein seeded with bovine enterovirus or bovine parvovirus was ensiled with cracked corn, the enterovirus was inactivated after a period of 30 days, while the parvovirus survived for 30 days in one of two experiments. Neither the enterovirus nor the parvovirus survived composting for 28 days in a thermophilic aerobic environment when seeded into the solid fraction of cattle manure. It was concluded that, of the procedures tested, only anaerobic digestion under thermophilic conditions appeared to be a reliable method of viral inactivation to ensure the safety of single cell protein for refeeding to livestock. Composting appeared to be a suitable method for the disinfection of manure for use as a soil conditioner.

ABSTRACTBovine parvovirus (BPV), the causative agent of respiratory and gastrointestinal disease in cows, is the type member of theBocaparvovirusgenus of theParvoviridaefamily. Toward efforts to obtain a template for the development of vaccines and small-molecule inhibitors for this pathogen, the structure of the BPV capsid, assembled from the major capsid viral protein 2 (VP2), was determined using X-ray crystallography as well as cryo-electron microscopy and three-dimensional image reconstruction (cryo-reconstruction) to 3.2- and 8.8-Å resolutions, respectively. The VP2 region ordered in the crystal structure, from residues 39 to 536, conserves the parvoviral eight-stranded jellyroll motif and an αA helix. The BPV capsid displays common parvovirus features: a channel at and depressions surrounding the 5-fold axes and protrusions surrounding the 3-fold axes. However, rather than a depression centered at the 2-fold axes, a raised surface loop divides this feature in BPV. Additional observed density in the capsid interior in the cryo-reconstructed map, compared to the crystal structure, is interpreted as 10 additional N-terminal residues, residues 29 to 38, that radially extend the channel under the 5-fold axis, as observed for human bocavirus 1 (HBoV1). Surface loops of various lengths and conformations extend from the core jellyroll motif of VP2. These loops confer the unique surface topology of the BPV capsid, making it strikingly different from HBoV1 as well as the type members of otherParvovirinaegenera for which structures have been determined. For the type members, regions structurally analogous to those decorating the BPV capsid surface serve as determinants of receptor recognition, tissue and host tropism, pathogenicity, and antigenicity.IMPORTANCEBovine parvovirus (BPV), identified in the 1960s in diarrheic calves, is the type member of theBocaparvovirusgenus of the nonenveloped, single-stranded DNA (ssDNA)Parvoviridaefamily. The recent isolation of human bocaparvoviruses from children with severe respiratory and gastrointestinal infections has generated interest in understanding the life cycle and pathogenesis of these emerging viruses. We have determined the high-resolution structure of the BPV capsid assembled from its predominant capsid protein VP2, known to be involved in a myriad of functions during host cell entry, pathogenesis, and antigenicity for other members of theParvovirinae. Our results show the conservation of the core secondary structural elements and the location of the N-terminal residues for the known bocaparvovirus capsid structures. However, surface loops with high variability in sequence and conformation give BPV a unique capsid surface topology. Similar analogous regions in otherParvovirinaetype members are important as determinants of receptor recognition, tissue and host tropism, pathogenicity, and antigenicity.

ABSTRACT Adeno-associated virus serotype 5 (AAV5) requires sialic acid on host cells to bind and infect. Other parvoviruses, including Aleutian mink disease parvovirus (ADV), canine parvovirus (CPV), minute virus of mice, and bovine parvovirus, also bind sialic acid. Hence, structural homology may explain this functional homology. The amino acids required for CPV sialic acid binding map to a site at the icosahedral twofold axes of the capsid. In contrast to AAV5, AAV2 does not bind sialic acid, but rather binds heparan sulfate proteoglycans at its threefold axes of symmetry. To explore the structure-function relationships among parvoviruses with respect to cell receptor attachment, we determined the structure of AAV5 by cryo-electron microscopy (cryo-EM) and image reconstruction at a resolution of 16 Å. Surface features common to some parvoviruses, namely depressions encircling the fivefold axes and protrusions at or surrounding the threefold axes, are preserved in the AAV5 capsid. However, even though there were some similarities, a comparison of the AAV5 structure with those of ADV and CPV failed to reveal a feature which could account for the sialic acid binding phenotype common to all three viruses. In contrast, the overall surface topologies of AAV5 and AAV2 are similar. A pseudo-atomic model generated for AAV5 based on the crystal structure of AAV2 and constrained by the AAV5 cryo-EM envelope revealed differences only in surface loop regions. Surprisingly, the surface topologies of AAV5 and AAV2 are remarkably similar to that of ADV despite only exhibiting ∼20% identity in amino acid sequences. Thus, capsid surface features are shared among parvoviruses and may not be unique to their replication phenotypes, i.e., whether they require a helper or are autonomous. Furthermore, specific surface features alone do not explain the variability in carbohydrate requirements for host cell receptor interactions among parvoviruses.

ABSTRACT The Bocavirus bovine parvovirus generated a single pre-mRNA from a promoter at its left-hand end; however, the pattern of its alternative polyadenylation and splicing was different from that of other parvoviruses. A large left-hand-end open reading frame (ORF) encoded a nonstructural protein of approximately 95 kDa. An abundant, spliced, internally polyadenylated transcript encoded the viral NP1 protein from an ORF in the center of the genome. Transcripts encoding the capsid proteins were polyadenylated in the right-hand terminal palindrome. This is the first published transcription map of a member of the Bocavirus genus of the Parvovirinae.

Although it has previously been shown that bovine parvovirus (BPV) attaches to the sialated glycoprotein glycophorin A on erythrocytes, the nature of virus-binding moieties on mammalian nucleated cells is less clear. Buffalo lung fibroblasts (Bu), primary bovine embryonic kidney cells, Madin–Darby bovine kidney cells and bovine embryonic trachea (EBTr) cells were assessed for molecules capable of binding BPV. Competition studies were carried out on both erythrocyte and nucleated cell targets using a variety of sialated compounds and sialic acid-negative compounds. Glycophorin A was found to inhibit BPV binding, while mucin exhibited low-level inhibition. These two sialated compounds also blocked attachment of BPV-modified microsphere carriers to the Bu cell membrane. Influenza A virus was used as a sialic acid competitor and interfered with BPV attachment to erythrocytes and replication in Bu cells. Significantly, the enzyme sialidase removed BPV-binding sites from Bu and EBTr cells. The binding sites could be reconstituted on sialidase-treated cells by the enzymes α-2,3-O-sialyltransferase and α-2,3-N-sialyltransferase. These results indicated that BPV can attach to sialic acid on cell membranes and that the sialylglycoproteins available for virus attachment appear to contain both N- and O-linked carbohydrate moieties, but that not all members of the sialic acid family can bind BPV. Moreover, there may be other moieties that can bind BPV, which may act as either primary or secondary receptors.

The genome of bovine parvovirus (BPV) has been cloned by blunt end ligation of double-stranded virion DNA into the plasmid pUC8. The resulting genomic clones were infectious after transfection into bovine fetal lung (BFL) cells. Sequencing of the plasmids demonstrated that deletions were common at both ends of the cloned BPV genome. Deletions of up to 34 bases at the 3’ end lowered but did not abolish infectivity, while a deletion of 52 bases eliminated infectivity, End label analysis demonstrated the repair of deletions of up to 34 bases at the 3’ end or 35 bases at the 5’ end to the wild type length. Mutually inverted sequence orientations of the palindromic termini, known as the flip and flop forms, can occur during replication of parvovirus DNA. Cloning of BPV terminal sequences permitted the identification of the 3’ flop sequence inversion as a natural component of BPV DNA. This is the first report of sequence inversions within the 3’ end of an autonomous parvovirus. Clones with the 3’ flop or flip conformations were equally infectious. Wild type virion DNA was shown to have predominantly the 3’ flip conformation but a significant amount of 3’ flop was also detected. At the 5’ end, both the flip and flop sequence conformations were identified in nearly equal amounts. The progeny virion DNA from transfection of genomic clones had the same ratio of flip to flop as did wild type at both the 3’ and 5’ ends, regardless of the starting terminal conformations of the genomic clone. These data suggest that, while sequence inversion occurs at both termini during BPV DNA replication, some mechanism exists for the preferential replication of the 3’ flip conformation. Replicative form DNA from BPV infected cells had the same ratio of flip and flop at each end and the same termini as virion DNA. A set of deletion and frameshift mutants affecting each of the coding regions of BPV was constructed using one of the genomic clones. None of these mutants was infectious when transfected into BFL cells, which demonstrates that all three of the major open reading frames are essential for the production of infectious virus.
Ph. D.
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Bovine parvovirus (BPV) is a helper-independent parvovirus. It has a small icosahedral capsid with a single stranded DNA genome. It is a highly stable virus with a narrow host range. It causes acute gastroenteritis in calves. It is considered to be a cytolytic virus because it kills the host cells. However, the mechanism by which the virus causes cell death is not known. The work described in this thesis assessed different parameters of cell death in BPV infected embryonic bovine tracheal (EBTr) cells. There are several ways for viruses to induce cell death. Viruses can induce apoptosis in the infected cell. They can also kill the host cell by necrosis. Several approaches were used in this work to look for evidence of apoptosis and necrosis. Cells undergoing apoptosis exhibit cardinal signs that distinguish them from other dying cells. Among these signs are the exposure of phosphatidylserine to the outer surface of the plasma membrane, DNA fragmentation into non-random DNA sections that are multimers of 180bp, nuclear morphology changes and caspase activation. These signs were studied in this research and data collected from these experiments did not show any positive sign of apoptosis in infected cells due to virus infection. Cells undergoing a necrotic cell death have a different pattern. The cells swell then burst releasing their cytoplasmic contents. The DNA is fragmented in a random fashion. Cellular morphology was studied in this research and the data suggested that BPV infected cells swell, then shrink and detach from the surface of the culture vessel. Moreover, formation of apoptotic bodies was not detected in dying infected cells. Release of cytoplasmic contents was also assessed by looking at concentrations of LDH enzyme, viral haemagglutinin, and the number of infectious viral particles in the media of infected cells. Data from the different approaches employed in this study do not support the hypothesis that BPV kills the infected EBTr cell by apoptosis, rather, infected cells in culture become necrotic, swell, release their cytoplasmic contents, and detach.

Im Zuge der Überarbeitung der DVG-Richtlinie zur Prüfung der Viruzidie chemischer Desinfektionsmittel in der Nutztierhaltung wurden BVDV, EAV und PPV auf ihre Eignung als potentielle Prüfviren getestet. Das bisher vorgeschriebene Newcastle-Disease-Virus und das Vacciniavirus sollen mit anderen behüllten Viren wie BVDV oder EAV verglichen werden. Beweggründe für einen möglichen Austausch sind die derzeitige Situation in der Tierseuchenbekämpfung, die Erhöhung der Anwendersicherheit durch Wegfall des zoonotischen Potentials, die einfachere Kultivierung und Handhabung der Prüfviren sowie speziell bei NDV die höhere Aussagekraft der gewonnenen Ergebnisse. Die Desinfektionsmittelversuche wurden gemäß DVG-Richtlinie auf Pappelholzkeimträgern durchgeführt, wobei das jeweilige, mit fetalem Kälberserum vermischte, Virus auf die Keimträger aufgetragen und angetrocknet wurde. Die DVG schreibt eine Trocknung im Brutschrank von 60 Minuten bei 37°C vor. Um die Trocknungsverluste der eingesetzten Viren zu untersuchen, wurden vergleichende Trocknungsversuche wie vorgeschrieben im Brutschrank und im Exsikkator bei Raumtemperatur durchgeführt. Die nach der Trocknung im Brutschrank durchgeführten Desinfektionsmittelversuche wurden mit chemischen Grundsubstanzen kommerziell erhältlicher Desinfektionsmittel durchgeführt. Dabei kamen verschiedene Anwendungskonzentrationen von Ameisensäure, Glutaraldehyd, Natriumhypochlorit, Natronlauge und Peressigsäure zum Einsatz. Bei der vorgeschriebenen Trocknung im Brutschrank kam es zu Titerverlusten von 0,8 bis zu 2,75 log10KID50/ml. Durch eine Trocknung der Holzkeimträger von 30 Minuten bei Raumtemperatur im Exsikkator konnten die Titerverluste auf 0,3 bis 1,0 log10KID50/ml reduziert werden. In den nachfolgenden Desinfektionsversuchen zeigte sich die besonders hohe Tenazität von PPV. Es war den eingesetzten Desinfektionsmitteln gegenüber deutlich resistenter als alle anderen untersuchten Viren. In den Trocknungsversuchen zeigte PPV mit Abstand die niedrigsten Titerverluste. Mit BVDV und EAV konnten zwar ausreichend hohe Titer erzielt werden, allerdings waren die Trocknungsverluste beider Viren sehr hoch. In den Keimträgerversuchen konnte nur in wenigen Versuchen eine Titerreduktion von mehr als 3 Logarithmusstufen erreicht werden. Hier könnte zukünftig die Trocknung im Exsikkator Abhilfe schaffen, um die Trocknungsverluste zu minimieren und eine höhere Titerreduktion zu ermöglichen. Die Ergebnisse einer früheren Arbeit zeigen identische Ergebnisse von NDV und BVDV im Keimträgertest. Ein Ersatz von NDV durch BVDV ist somit zu empfehlen. Eine Verwendung der untersuchten Viren gemäß den derzeitigen DVG-Richtlinien ist möglich, allerdings müssten im Zuge der weiteren Harmonisierung von CEN- und DVG-Richtlinie die Kontrolltiter entsprechend erhöht werden, um die von der CEN geforderte Titerreduktion von vier Logarithmusstufen für eine vollständige Virusinaktivierung einzuhalten. Die Vermehrung der untersuchten Viren zu höheren Ausgangs-, bzw. Kontrolltitern sollte daher Gegenstand weiterer Forschungsarbeit sein. Einer weiteren Verwendung der bisherigen Prüfviren BEV und REOV steht nichts im Wege. Aufgrund der Ergebnisse der vergleichenden Trocknungsversuche wird für alle untersuchten Viren zukünftig eine 30 minütige Trocknung im Exsikkator empfohlen.

Bovine Parvovirus (BPV) belongs to the genus Bocavirus, family Parvoviridae. BPV is the leading etiologic agent among the pathogens that cause primary gastroenteritis of cattle. Many of the intracellular events associated with virus replication are unknown. In this research project, we investigated BPV internalization into the host cell and trafficking in the cytosol. Preliminarily, EBTr cells had abundant clathrin, virus attached to purified clathrin, and EM micrographs revealed virus in endocytic vacuoles. Assays detecting virus infectivity (i.e. viral protein synthesis), virus production (completion of the replication cycle), and quantitative PCR (qPCR) to detect viral transcripts were used to evaluate virus uptake and subsequent trafficking events in the presence of selective inhibitors. Cell toxicity mediated by the drugs was evaluated by the MTT test. Virucidal effects of the drugs were assessed. A control virus was used to verify the inhibitor technology. Immunofluoresceinated virus particles were found in clathrin-rich early endosomes. Clathrin-mediated endocytosis (CME) was examined by clathrin polymerization inhibiting agent (chloropromazine), lysosomotropic agents (ammonium chloride and chloroquine), a vacuolar ATPase inhibitor (bafilomycin A1), and a blocker of transition between endosomes (brefeldin A). Caveosome pathway inhibitors included phorbol 12-myristate 13-acetate (a suppressor of caveolae formation), nystatin and methyl-beta-cyclodextrin (lipid raft blockers), and genistein (a tyrosine kinase phosphorylation inhibitor). Trafficking of BPV was investigated using specific inhibitors of proteasomal activity, actin-myosin function, and microtubule-dynein function. The proteasomal protease suppressor (lactacystin), and a proteasomal chymotrypsin inhibitor (epoxomicin) were used. The role of actin was probed by cytochlasin D, latrunculin A, and ML-7. The microtubule inhibitors nocodazole, vanadate, and EHNA were used to probe microtubule function. The inhibitors of CME reduced virus production and reduced infectivity, a result confirmed by qPCR. The blockers of caveolin-mediated entry did not interfere with virus production nor virus infectivity. Proteasome activity blockage did not affect the virus replication. But the virus cycle was affected by actin blockage and by microtubule blockage detected by qPCR. Taken together these data indicate that BPV uptake is mediated by clathrin coated pits and is acid-dependent. Further processing of BPV in the cytosol does not require proteasomal enzymes. Actin-associated vesicular transport appears to be essential to virus replication and trafficking to the nucleus appears to be mediated by microtubules.

Desinfektionsmittel sind ein elementarer Bestandteil der Tierseuchenbekämpfung und damit auch der Lebensmittelsicherheit. Die Prüfung chemischer Desinfektionsmittel ist Voraussetzung für deren zuverlässige Wirksamkeit und zielgerichteten Einsatz. In Deutschland geschieht dies nach den Richtlinien der Deutschen Veterinärmedizinischen Gesellschaft e.V. (DVG). Seit der ersten Fassung sind die Richtlinien einem ständigen Anpassungsprozess unterworfen. Im Zuge der europäischen Harmonisierung gilt es nun, sich gesamteuropäischen Richtlinien, verfasst durch das europäische Komitee für Normung (Comité Européen de Normalisation) (CEN) anzupassen. Das Thema dieser Arbeit entwickelte sich im Kontext der derzeitigen Diskussion über Verbesserungsvorschläge zu den bestehenden Richtlinien und deren Anpassung an die europäischen Normen. Es wurden je zwei Testviren für die Bereiche Tierhaltung und tierärztliche Praxis ausgewählt, um sie auf Eignung für die Viruzidieprüfung zu testen und gegebenenfalls zu etablieren. Des Weiteren wurde in einem zweiten Teil, in Anlehnung an die Forderungen der europäischen Normen die Prüfung zu vereinfachen, ein alternatives Zellkulturnachweissystem für das Newcastle-Disease-Virus (NDV) geprüft. Die Prüfung der viruziden Wirksamkeit erfolgte mit fünf verschiedenen Grundsubstanzen, gewählt um ein möglichst breites Spektrum an Desinfektionsmittelwirkstoffen abzudecken. Es wurden Glutaraldehyd, Ethanol, Natronlauge, Natriumhypochlorit und Peressigsäure verwendet. Die Versuche wurden mit einer niedrigen Eiweißbelastung und bei einer Temperatur von 20°C durchgeführt. Um eine praxisnahe Situation zu simulieren wurde auf, bereits in den DVG-Richtlinien, verankerten Stahl- und Holzkeimträgertests zurückgegriffen. Als mögliche Prüfviren für die Tierhaltung wurden das Equine Arteritis-Virus (EAV) und das Bovine Virus Diarrhoe Virus verwendet. Bei beiden Viren handelt es sich um weit verbreitete Tierseuchenerreger mit einer großen epidemiologischen Bedeutung. Die Untersuchung von fünf verschiedenen Desinfektionsmitteln erfolgte im Keimträgertest auf Holz. Sowohl EAV als auch BVD stellen ein weniger geeignetes Prüfvirus dar, da beide Viren enorme Titerverluste im Trocknungsvorgang der Holzkeimträger zeigten. Die Viren ließen sich zwar leicht vermehren, aber die erzielten Ausgangstiter reichten nicht aus um die Trocknungsverluste zu kompensieren und aussagekräftige Ergebnisse zu produzieren. Für den Bereich tierärztliche Praxis wurden das Feline Coronavirus (FCoV) und das Murine Parvovirus (MPV) genutzt. FCoV ist ein weltweit in Hauskatzenpopulationen vorkommendes Virus mit einer hohen Seroprävalenz und wurde daher ausgewählt. MPV wurde als Stellvertreter für die, in der Praxis häufig vorkommenden Parvovirusinfektionen gewählt. Es schien ein ideales Modellvirus aufgrund seiner weiten Verbreitung in der Forschung zu sein. Bei beiden Viren erfolgte die Prüfung auf Stahlkeimträgern. Unter Laborbedingungen konnte FCoV ohne Probleme zu hohen Titern vermehrt werden. Es gab keine nennenswerten Trocknungsverluste. FCoV erwies sich als geeignetes Prüfvirus. MPV hingegen ist bedingt durch die langen Versuchszeiten und schwierig auszuwertenden Zellkulturen, sowie wegen der niedrigen Ausgangstiter weniger geeignet als Modellvirus für die Desinfektionsmittelprüfung. Die Anzucht von NDV in Allantoisflüssigkeit von SPF Hühnereiern erschien sehr aufwendig und mit hohem Eiweißfehler belastet. In den Versuchen konnte ein deutlich höherer Eiweißgehalt als in den vergleichend geprüften, in Zellkultur angezogenen Viren nachgewiesen werden. Infolge der Probleme mit der Kultivierung der LMH-Zelllinie und den damit verbundenen langen Wartezeiten bis zur eigentlichen Versuchsdurchführung kann nur eine teilweise Empfehlung, von auf Zellkultur vermehrtem NDV (NDV (ZK)) gegeben werden. Nach Behebung dieser Probleme ist durchaus eine Ablösung, von in Allantoisflüssigkeit angezüchtetem NDV durch NDV (ZK) zu empfehlen. Die Verfälschung der Ergebnisse durch die höheren Eiweißgehalte bei Desinfektionsmitteln mit deutlichem Eiweißfehler könnten so vermieden werden.

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The present study reports a serologic survey of the main viral infections of dogs in Santa Maria, RS, Brazil, and the production of cell lines of canine, swine and leporine origin resistant to bovine viral diarrhea virus (BVDV). Canine distemper virus (CDV), parvovirus (CPV), adenovirus (CAV) and coronavirus (CCoV) infections have been associated with significant morbidity and mortality among dogs worldwide. The aim of this study was to determine the prevalence of antibodies against these viruses in the canine population of Santa Maria. To this purpose, 817 blood samples were collected from non-vaccinated dogs of 14 neighborhoods and tested by virus neutralization (CDV, CAV and CCoV) and by hemagglutining inhibition (CPV). Specific antibodies to CDV were detected in 27.3% (223/817) of the samples, to CPV in 68.7% (561/817), to CAV in 43% (353/817) and to CCoV in 50.4% (412/817) of the dogs. These results indicate that CDV, CPV, CAV and CCoV infections are spread among dogs in Santa Maria. However, a significant part of the population is seronegative and therefore unprotected against these viruses. This indicates a need for extending the vaccination programs against these viruses. During the standardization of serologic tests and expansion of cell cultures for virus amplification, the canine MDCK cell line was found to be contaminated with BVDV, the main viral contaminant of cultured cells. The inadverted contamination of cultured cells with BVDV may represent a serious problem for diagnostic virology, research and production of biologicals. The second part of this dissertation reports the production and characterization of three cell lines resistant BVDV, obtained out of each parental cell line (canine MDCK, porcine PK-15 and leporine RK-13) that were contaminated with BVDV. Initially, the cells were submitted to four rounds of infection with a highly cytolytic BVDV strain. The cells surviving infection were then cloned out, expanded and assayed for their susceptibility to BVDV. The resistance to BVDV was investigated by search for viral proteins by immunofluorescence and by cocultivation with susceptible cells following inoculation of BVDV at high titers. All three cell lines were resistant to three standard BVDV strains (Singer, NADL e Oregon) and 10 field isolates. Inoculation of these cells with BVDV at a multiplicity of infection of 10 TCID50/cell resulted in frequencies of infection of <10-5 for MDCK-R and PK-15R cells and of 3,3x10-4 for RK- 13R. Compared to the parental ones, the resistant cells were >10.000 (MDCK-R), >20.000 (PK-15R) and 600 (RK-13R) times less susceptible to BVDV. The inoculation of virus in the resistant cells in the presence of polyethylene-glicol (PEG) resulted in an increase in susceptibility in the order of >437 (MDCK-R), >346 (PK-15R) and 87 (RK-13R) times. These results indicate that the resistance of these cell lines is probably due to a block in viral entry which can be overcome by addition of PEG. On the other hand, each resistant cell line retained the susceptibility to other three viruses of interest which replicate in the parental cells. Thus, these cells may be useful for virology diagnostic, virus propagation and for vaccine production, without the risk of being inadvertedly contaminated with BVDV.
O presente trabalho relata um inquérito sorológico das principais infecções víricas de cães em Santa Maria, RS, Brasil e a obtenção de linhagens celulares de origem canina, suína e leporina resistentes ao vírus da Diarréia Viral Bovina (BVDV). As infecções pelo vírus da cinomose (CDV), parvovírus (CPV), adenovírus (CAV) e coronavírus (CCoV) são importantes causas de morbidade e de mortalidade em cães em todo o mundo. Com o objetivo de determinar a prevalência de anticorpos contra esses vírus na população canina da cidade de Santa Maria, coletou-se amostras de sangue de 817 cães não-vacinados, em 14 bairros. Estas foram testadas pela técnica de soroneutralização (CDV, CAV e CCoV) ou inibição da hemaglutinação (CPV). Anticorpos específicos contra o CDV foram detectados em 27,3% (223/817) das amostras, contra o CPV em 68,7% (561/817), contra o CAV em 43% (353/817) e contra o CCoV em 50,4% (412/817) dos cães. Esses resultados demonstram que esses vírus estão difundidos na população canina dos bairros da cidade. Por outro lado, demonstram também que uma parte considerável da população é soronegativa e, portanto está desprotegida contra esses agentes, indicando a necessidade de se ampliar os programas de vacinação para essas infecções. Durante a padronização das técnicas sorológicas e expansão dos cultivos celulares para amplificação dos vírus, detectou-se a contaminação da linhagem de células caninas MDCK com o BVDV, o principal vírus contaminante de cultivos celulares. A contaminação inadvertida de cultivos celulares com o BVDV pode representar um sério problema para o diagnóstico virológico, pesquisa e produção de imunobiológicos. A segunda parte dessa dissertação descreve a produção e caracterização de três linhagens celulares resistentes ao BVDV, obtidas a partir das células parentais de origem canina (MDCK), suína (PK-15) e leporina (RK-13) que estavam contaminadas com o BVDV. Essas células foram submetidas a quatro ciclos de infecção com uma cepa citolítica de BVDV. As células que sobreviveram a infecção lítica foram clonadas, expandidas e testadas para a sua susceptibilidade ao BVDV e outros vírus de interesse. A resistência ao BVDV foi investigada pela pesquisa de antígenos virais por imunofluorescência indireta e por cocultivo com células susceptíveis após a inoculação do vírus em altos títulos. As três linhagens celulares demonstraram ser resistentes a três cepas-padrão (Singer, NADL e Oregon) e a 10 isolados de campo do BVDV. A inoculação do BVDV nessas células com uma multiplicidade de infecção de 10 DICC50/célula resultou em freqüências de infecção de <10-5 para as células MDCK-R e PK-15R; e de 3,3x10-4 para as células RK-13R. Comparando-se com as células parentais, verificou-se que as linhagens resistentes são >10.000 (MDCK-R), >20.000 (PK-15R) e 600 (RK-13R) vezes menos susceptíveis ao BVDV. A inoculação do vírus nas células resistentes na presença de polietilenoglicol (PEG) resultou em um aumento na susceptibilidade dessas células na ordem de >437 (MDCK-R), >346 (PK-15R) e 87 vezes (RK-13R). Esses resultados indicam que a resistência dessas linhagens ao BVDV reside em um bloqueio na penetração do vírus, que pode ser parcialmente revertido pela adição do PEG. Por outro lado, cada linhagem resistente conservou a susceptibilidade a outros três vírus que replicam nas células parentais. Essas características tornam essas linhagens celulares potencialmente úteis para o diagnóstico, amplificação de vírus e produção de vacinas, sem o risco de contaminação acidental com o BVDV.

Desinfektionsmittel sind ein elementarer Bestandteil der Tierseuchenbekämpfung und damit auch der Lebensmittelsicherheit. Die Prüfung chemischer Desinfektionsmittel ist Voraussetzung für deren zuverlässige Wirksamkeit und zielgerichteten Einsatz. In Deutschland geschieht dies nach den Richtlinien der Deutschen Veterinärmedizinischen Gesellschaft e.V. (DVG). Seit der ersten Fassung sind die Richtlinien einem ständigen Anpassungsprozess unterworfen. Im Zuge der europäischen Harmonisierung gilt es nun, sich gesamteuropäischen Richtlinien, verfasst durch das europäische Komitee für Normung (Comité Européen de Normalisation) (CEN) anzupassen. Das Thema dieser Arbeit entwickelte sich im Kontext der derzeitigen Diskussion über Verbesserungsvorschläge zu den bestehenden Richtlinien und deren Anpassung an die europäischen Normen. Es wurden je zwei Testviren für die Bereiche Tierhaltung und tierärztliche Praxis ausgewählt, um sie auf Eignung für die Viruzidieprüfung zu testen und gegebenenfalls zu etablieren. Des Weiteren wurde in einem zweiten Teil, in Anlehnung an die Forderungen der europäischen Normen die Prüfung zu vereinfachen, ein alternatives Zellkulturnachweissystem für das Newcastle-Disease-Virus (NDV) geprüft. Die Prüfung der viruziden Wirksamkeit erfolgte mit fünf verschiedenen Grundsubstanzen, gewählt um ein möglichst breites Spektrum an Desinfektionsmittelwirkstoffen abzudecken. Es wurden Glutaraldehyd, Ethanol, Natronlauge, Natriumhypochlorit und Peressigsäure verwendet. Die Versuche wurden mit einer niedrigen Eiweißbelastung und bei einer Temperatur von 20°C durchgeführt. Um eine praxisnahe Situation zu simulieren wurde auf, bereits in den DVG-Richtlinien, verankerten Stahl- und Holzkeimträgertests zurückgegriffen. Als mögliche Prüfviren für die Tierhaltung wurden das Equine Arteritis-Virus (EAV) und das Bovine Virus Diarrhoe Virus verwendet. Bei beiden Viren handelt es sich um weit verbreitete Tierseuchenerreger mit einer großen epidemiologischen Bedeutung. Die Untersuchung von fünf verschiedenen Desinfektionsmitteln erfolgte im Keimträgertest auf Holz. Sowohl EAV als auch BVD stellen ein weniger geeignetes Prüfvirus dar, da beide Viren enorme Titerverluste im Trocknungsvorgang der Holzkeimträger zeigten. Die Viren ließen sich zwar leicht vermehren, aber die erzielten Ausgangstiter reichten nicht aus um die Trocknungsverluste zu kompensieren und aussagekräftige Ergebnisse zu produzieren. Für den Bereich tierärztliche Praxis wurden das Feline Coronavirus (FCoV) und das Murine Parvovirus (MPV) genutzt. FCoV ist ein weltweit in Hauskatzenpopulationen vorkommendes Virus mit einer hohen Seroprävalenz und wurde daher ausgewählt. MPV wurde als Stellvertreter für die, in der Praxis häufig vorkommenden Parvovirusinfektionen gewählt. Es schien ein ideales Modellvirus aufgrund seiner weiten Verbreitung in der Forschung zu sein. Bei beiden Viren erfolgte die Prüfung auf Stahlkeimträgern. Unter Laborbedingungen konnte FCoV ohne Probleme zu hohen Titern vermehrt werden. Es gab keine nennenswerten Trocknungsverluste. FCoV erwies sich als geeignetes Prüfvirus. MPV hingegen ist bedingt durch die langen Versuchszeiten und schwierig auszuwertenden Zellkulturen, sowie wegen der niedrigen Ausgangstiter weniger geeignet als Modellvirus für die Desinfektionsmittelprüfung. Die Anzucht von NDV in Allantoisflüssigkeit von SPF Hühnereiern erschien sehr aufwendig und mit hohem Eiweißfehler belastet. In den Versuchen konnte ein deutlich höherer Eiweißgehalt als in den vergleichend geprüften, in Zellkultur angezogenen Viren nachgewiesen werden. Infolge der Probleme mit der Kultivierung der LMH-Zelllinie und den damit verbundenen langen Wartezeiten bis zur eigentlichen Versuchsdurchführung kann nur eine teilweise Empfehlung, von auf Zellkultur vermehrtem NDV (NDV (ZK)) gegeben werden. Nach Behebung dieser Probleme ist durchaus eine Ablösung, von in Allantoisflüssigkeit angezüchtetem NDV durch NDV (ZK) zu empfehlen. Die Verfälschung der Ergebnisse durch die höheren Eiweißgehalte bei Desinfektionsmitteln mit deutlichem Eiweißfehler könnten so vermieden werden.