Your search keyword '"Lamp, B."' showing total 41 results

1. Emergence of a bufonid herpesvirus in a population of the common toad Bufo bufo in Germany

Author

Eisenberg, T, primary, Hamann, HP, additional, Reuscher, C, additional, Kwet, A, additional, Klier-Heil, K, additional, and Lamp, B, additional

Published

2021

2. The effect of porcine hydrolysed collagen on gastric ulcer scores, gastric juice pH, gastrin and amino acid concentrations in horses.

Author

Camacho‐Luna, P., Andrews, F. M., Keowen, M. L., Garza, F., Liu, C. ‐C., Lamp, B., and Olijve, J.

Subjects

GASTRIC juice, STOMACH ulcers, OMEPRAZOLE, THOROUGHBRED horse, AMINO acids, HORSES, HORSE breeding

Abstract

Summary: Gastric ulcers are common in horses. The purpose of this study was to test the effect of porcine hydrolysed collagen (PHC) on gastric ulcer scores and gastric juice pH in horses. We hypothesise that PHC‐administration will result in improved gastric lesion scores and act synergistically with omeprazole to improve treatment efficacy. Thoroughbred horses (n = 10) were studied in a 2‐period, 2‐treatment crossover design, where the PHC (45 g) was administered twice daily. Horses were treated for 56 days. Gastroscopy was performed and gastric juice pH measured on Days 0, 14, 28, 42, 49 and 56. Nonglandular gastric ulcer number (NGN) and severity (NGS) and glandular ulcer number (GN) and glandular severity (GS) scores were assigned by an investigator masked to treatment and serum gastrin and amino acid concentrations. By Day 42, 2 weeks after discontinuing omeprazole treatment, NGN and NGS scores returned to pretreatment values and serum gastrin was higher when compared to values measured on Day 28. By Day 49, after the feed‐deprivation period, NGN and NGS were similar to pretreatment values. By Day 56, mean NGN score was significantly lower in PHC‐treated horses, compared to controls. Mean gastric juice pH significantly increased in both groups on Day 28 and the pH was significantly (P = 0.0127) higher in the PHC‐treated horses. Serum amino acid concentrations were not significantly different 2 h after feeding PHC and hydroxyproline was not detected. Serum gastrin concentration did not increase 2 h after feeding in the PHC‐fed horses. The PHC fed to horses enhanced the effects of omeprazole on increased gastric juice pH, inhibited gastrin secretion after feeding and resulted in fewer nonglandular ulcers after long‐term feeding (56 days) in stall‐confined horses undergoing intermittent feeding. [ABSTRACT FROM AUTHOR]

Published

2022

3. The effect of porcine hydrolysed collagen on gastric ulcer scores, gastric juice pH, gastrin and amino acid concentrations in horses

Author

Camacho‐Luna, P., primary, Andrews, F. M., additional, Keowen, M. L., additional, Garza, F., additional, Liu, C. ‐C., additional, Lamp, B., additional, and Olijve, J., additional

Published

2020

4. Cor triatriatum sinister and cryptogenic stroke

Author

Ridjab, D.A., Wittchen, F., Tschishow, W., Buddecke, J., Lamp, B., Manegold, J., Schäbitz, W.R., and Israel, C.W.

Published

2015

5. Posters display III clinical outcome and PET

Author

Baliño, N., Masoli, O., Traverso, S., Grynberg, L., Rappallo, C., Redruello, M., Rosa, D., Cragnolino, D., Meretta, A., Vidal, L., Graf, S., Khorsand, A., Gyongyosi, M., Karanikas, G., Eidherr, H., Kletter, K., Porenta, G., Glogar, D., Sochor, H., Beheshti, M., Poetzi, C., Wadsak, W., Maurer, G., Wolfram, J., Winter, O., Velghe, A., Veire, N., Bondt, P., Buyzere, M., Wiele, C., Backer, G., Gillebert, T., Dierckx, R., Sutter, J., Bernard, D., Langlois, M., Duarte, P., Mastrocolla, L., Sampaio, C., Rossi, J., Smanio, P., Lima, E., Oliveira, C., Pereira, J., Beraldo, P., Rodrigues, F., Thom, A., Yoshinaga, K., Ukkonen, H., Burwash, I., DeKemp, R., Dafoe, W., Davies, R., Haddad, H., Ruddy, T., DaSilva, J., Beanlands, R., Chow, B., Williams, K., Garrard, L., Szeto, A., Aung, M., Sondergaard, H., Bottcher, M., Madsen, M., Schmitz, O., Nielsen, T., Botker, H., Høilund-Carlsen, P., Johansen, A., Christensen, H., Vach, W., Møldrup, M., Haghfelt, T., Kristensen, J., Maeng, M., Mortensen, U., Berg, J., Rehling, M., Elsaban, K., El-Kady, T., El-Gabaly, M., Yehia, A., El-Sayed, M., Naum, A., Laaksonen, M., Tuunanen, H., Oikonen, V., Kemppainen, J., Järvisalo, M., Nuutila, P., Knuuti, J., Vanzetto, G., Jacon, P., Fagret, D., Machecourt, J., Lindner, O., Vogt, J., Kammeier, A., Fricke, E., Wielepp, P., Baller, D., Lamp, B., Holzinger, J., Horstkotte, D., Burchert, W., Nekolla, S., Souvatzoglou, M., Hausleiter, J., Henke, N., Kruschke, K., Bengel, F., Schwaiger, M., Sundaram, P., Padma, S., Haridas, K., Kumar, S., Zachariah, M., Livschitz, S., Zornitzki, T., Vered, S., Oettinger, M., Levy, R., Caspi, A., Faraggi, D., Knobler, H., Mats, I., Solodky, A., Ben-Gal, T., Battler, A., Zafrir, N., Varani, E., Balducelli, M., Severi, S., Patroncini, A., Vecchi, G., Gatti, C., Corbelli, C., Casanova, R., Maresta, A., Cittanti, C., Valgimigli, M., Giganti, M., Malagutti, P., Percoco, G., Bagatin, E., Panareo, S., Avigni, N., Ferrari, R., Feggi, L., Filardi, P., Cuocolo, A., Storto, G., Brevetti, G., Dellegrottaglie, S., Corrado, L., Cafiero, M., Polimeno, M., Zarrilli, A., Chiariello, M., Marcassa, C., Campini, R., Calza, P., Giannuzzi, P., Galassi, A., Grasso, C., Azzarelli, S., Leotta, E., Moshiri, S., Tamburino, C., Acampa, W., Ferro, A., Petretta, M., Salvatore, M., Pieri, P., Berta, R., Moscatelli, G., Buccoliero, F., Inglese, E., Medolago, G., Imperiale, A., Rimini, M., Bertagna, F., Sullo, P., Lupo, M., Cappagli, M., Fukuda, H., Kunimasa, T., Furuhashi, T., Moroi, M., Yasuhi, W., Akihiro, S., Akio, Y., Ryou, K., Kimio, T., Yasunori, W., Yasuhiko, T., Nariaki, E., Watabe, H., Teramoto, N., Ohta, Y., Kou, Y., Hayashi, T., Iida, H., Bom, H., Song, H., Min, J., Heo, Y., Seo, J., Lee, J., Bae, J., Jeong, S., Ahn, B., Chae, S., Lee, K., Popiel, M., Grajek, S., Czepczynski, R., Breborowicz, P., Lesiak, M., Czyz, A., Sawinski, K., Komarnicki, M., Cieslinski, A., Sowinski, J., Ferreira, A., Ventosa, A., Gil, V., Calqueiro, J., Lima, S., Aguiar, C., Couto, R., Raposo, L., Seabra-Gomes, R., Vasconcelos, M., Martins, E., Faria, T., Oliveira, A., Garcia, M., Rocha-Gonçalves, F., Lourenço, C., Roque, C., Ferrer-Antunes, A., Ferreira, M., Providência, L., Lima, J., Medrea, C., Bogdan, R., Lazar, A., Mot, S., Capilneanu, R., Kozulin, V., Berkovich, O., Ivashchenko, T., Larionova, V., Esipovich, I., Gordeev, M., Panov, A., Shlyakhto, E., Burova, N., Baranov, D., Timoshin, V., Chuprova, S., Shkolnikova, M., Zaklyazminskaya, E., Poliakov, A., Sazonova, S., Romero-Farina, G., Arenillas, J., Candell-Riera, J., Aguadè-Bruix, S., Leon, G., Molina, C., Chacon, P., Montaner, J., Rovira, A., Alvarez-Sabin, J., Namdar, M., Siegrist, P., Grathwohl, R., Delaloye, R., Koepfli, P., Wyss, C., Kaufmann, P., Bartenstein, N., Hellermann, J., Pollack, C., Schurr, U., Zellweger, M., Burger, P., Mueller-Brand, J., Pfisterer, M., Gordon, L., Epps, A., Chiarameda, S., Navare, S., Ahlberg, A., Cyr, G., Katten, D., Ausef, A., Heller, G., Darrow, B., Thomas, G., Ip, T., Thompson, R., Kramer, D., Rice, D., Thomas, J., Miyamoto, M., Druz, R., Nichols, K., Akinboboye, O., Reichek, N., Podrasky, E., Tuttle, R., Shaw, L., Hanson, M., Borges-Neto, S., Lundbye, J., Werden, S., Kazi, F., Whalen, A., Noble, G., O'Sullivan, D., Boden, W., Danias, P., Papaioannou, G., Leka, I., Beretta, M., Viňas, S., Gonzalez, A., Vidal, I., and Rener, A.

Published

2018

6. Effects of hydrolyzed collagen on equine gastric ulcers scores and gastric juice pH

Author

Andrews, F., primary, Camacho-Luna, P., additional, Lamp, B., additional, and Olijve, J., additional

Published

2017

7. A Pestivirus Divergent from APPV Associated with Myoclonia Congenita in Piglets

Author

Högler, S., primary, Lamp, B., additional, Schwarz, L., additional, Riedel, C., additional, Sinn, L., additional, Ladinig, A., additional, Rümenapf, T., additional, and Weissenböck, H., additional

Published

2017

8. Pestivirus NS3 helicase

Author

Tortorici, M.A., primary, Duquerroy, S., additional, Kwok, J., additional, Vonrhein, C., additional, Perez, J., additional, Lamp, B., additional, Bricogne, G., additional, Rumenapf, T., additional, Vachette, P., additional, and Rey, F.A., additional

Published

2015

9. Essential role of cis -encoded mature NS3 in the genome packaging of classical swine fever virus.

Author

Lamp B, Barth S, Reuscher C, Affeldt S, Cechini A, Netsch A, Lobedank I, and Rümenapf T

Abstract

Classical swine fever virus (CSFV) is a member of the genus Pestivirus within the family Flaviviridae . The enveloped particles contain a plus-stranded RNA genome encoding a single large polyprotein. The processing of this polyprotein undergoes dynamic changes throughout the infection cycle. The release of mature NS3 from the polyprotein is mediated and regulated by the NS2 autoprotease and a cellular co-factor, restricting efficient cleavage to the early phases of infection. NS3 is a multifunctional viral enzyme exhibiting helicase, NTPase, and protease activities pivotal for viral replication. Hence, the release of mature NS3 fuels replication, whereas unprocessed NS2-3 precursors are vital for progeny virus production in later phases of infection. Thus far, no packaging signals have been identified for pestivirus RNA. To explore the prerequisites for particle assembly, trans -packaging experiments were conducted using CSFV subgenomes and coreless CSFV strains. Intriguingly, we discovered a significant role of mature NS3 in genome packaging, effective only when the protein is encoded by the RNA molecule itself. This finding was reinforced by employing artificially engineered CSFV strains with duplicated NS3 genes, separating uncleavable NS2-3 precursors from mature NS3 molecules. The model for NS2-3/NS3 functions in genome packaging of pestiviruses appears to be much more complicated than anticipated, involving distinct functions of the mature NS3 and its precursor molecule NS2-3. Moreover, the reliance of genome packaging on cis -encoded NS3 may act as a downstream quality control mechanism, averting the packaging of defective genomes and coordinating the encapsidation of RNA molecules before membrane acquisition., Importance: Pestiviruses are economically significant pathogens in livestock. Although genome organization and non-structural protein functions resemble those of other Flaviviridae genera, distinct differences can be observed. Previous studies showed that coreless CSFV strains can produce coreless virions mediated by single compensatory mutations in NS3. In this study, we could show that only RNA molecules encoding these mutations in the mature NS3 are packaged in the absence of the core protein. Unlike this selectivity, a pool of structural proteins in the host cell was readily available for packaging all CSFV genomes. Similarly, the NS2-3-4A precursor molecules required for packaging could also be provided in trans . Consequently, genome packaging in pestiviruses is governed by cis -encoded mature NS3. Reliance on cis -acting proteins restricts the acceptance of defective genomes and establishes packaging specificity regardless of RNA sequence-specific packaging signals. Understanding the role of NS3 in pestiviral genome packaging might uncover new targets for antiviral therapies.

Published

2024

10. Modulation of ADAM17 Levels by Pestiviruses Is Species-Specific.

Author

Chen HW, Zaruba M, Dawood A, Düsterhöft S, Lamp B, Ruemenapf T, and Riedel C

Subjects

Animals, Cattle, Cell Line, Swine, Species Specificity, Pestivirus Infections veterinary, Pestivirus Infections virology, Classical Swine Fever Virus physiology, Viral Envelope Proteins metabolism, Viral Envelope Proteins genetics, Virus Internalization, Host-Pathogen Interactions, ADAM17 Protein metabolism, ADAM17 Protein genetics, Pestivirus genetics, Diarrhea Viruses, Bovine Viral physiology

Abstract

Upon host cell infection, viruses modulate their host cells to better suit their needs, including the downregulation of virus entry receptors. ADAM17, a cell surface sheddase, is an essential factor for infection of bovine cells with several pestiviruses. To assess the effect of pestivirus infection on ADAM17, the amounts of cellular ADAM17 and its presence at the cell surface were determined. Mature ADAM17 levels were reduced upon infection with a cytopathic pestivirus bovis (bovine viral diarrhea virus, cpBVDV), pestivirus suis (classical swine fever virus, CSFV) or pestivirus giraffae (strain giraffe), but not negatively affected by pestivirus L (Linda virus, LindaV). A comparable reduction of ADAM17 surface levels, which represents the bioactive form, could be observed in the presence of E2 of BVDV and CSFV, but not LindaV or atypical porcine pestivirus (pestivirus scrofae) E2. Superinfection exclusion in BVDV infection is caused by at least two proteins, glycoprotein E2 and protease/helicase NS3. To evaluate whether the lowered ADAM17 levels could be involved in superinfection exclusion, persistently CSFV- or LindaV-infected cells were challenged with different pestiviruses. Persistently LindaV-infected cells were significantly more susceptible to cpBVDV infection than persistently CSFV-infected cells, whilst the other pestiviruses tested were not or only hardly able to infect the persistently infected cells. These results provide evidence of a pestivirus species-specific effect on ADAM17 levels and hints at the possibility of its involvement in superinfection exclusion.

Published

2024

11. Characterization of a Molecular Clone of Deformed Wing Virus B.

Author

Barth S, Affeldt S, Blaurock C, Lobedank I, Netsch A, Seitz K, Rümenapf T, and Lamp B

Subjects

Animals, Bees virology, Pupa virology, Virulence, Varroidae virology, RNA, Viral genetics, RNA Viruses genetics, RNA Viruses classification, Phylogeny, Genome, Viral, Virus Replication

Abstract

Honey bees ( Apis mellifera ) play a crucial role in agriculture through their pollination activities. However, they have faced significant health challenges over the past decades that can limit colony performance and even lead to collapse. A primary culprit is the parasitic mite Varroa destructor , known for transmitting harmful bee viruses. Among these viruses is deformed wing virus (DWV), which impacts bee pupae during their development, resulting in either pupal demise or in the emergence of crippled adult bees. In this study, we focused on DWV master variant B. DWV-B prevalence has risen sharply in recent decades and appears to be outcompeting variant A of DWV. We generated a molecular clone of a typical DWV-B strain to compare it with our established DWV-A clone, examining RNA replication, protein expression, and virulence. Initially, we analyzed the genome using RACE-PCR and RT-PCR techniques. Subsequently, we conducted full-genome RT-PCR and inserted the complete viral cDNA into a bacterial plasmid backbone. Phylogenetic comparisons with available full-length sequences were performed, followed by functional analyses using a live bee pupae model. Upon the transfection of in vitro-transcribed RNA, bee pupae exhibited symptoms of DWV infection, with detectable viral protein expression and stable RNA replication observed in subsequent virus passages. The DWV-B clone displayed a lower virulence compared to the DWV-A clone after the transfection of synthetic RNA, as evidenced by a reduced pupal mortality rate of only 20% compared to 80% in the case of DWV-A and a lack of malformations in 50% of the emerging bees. Comparable results were observed in experiments with low infection doses of the passaged virus clones. In these tests, 90% of bees infected with DWV-B showed no clinical symptoms, while 100% of pupae infected with DWV-A died. However, at high infection doses, both DWV-A and DWV-B caused mortality rates exceeding 90%. Taken together, we have generated an authentic virus clone of DWV-B and characterized it in animal experiments.

Published

2024

12. Processing of the 3C/D Region of the Deformed Wing Virus (DWV).

Author

Reuscher CM, Barth S, Gockel F, Netsch A, Seitz K, Rümenapf T, and Lamp B

Subjects

Bees, Animals, Peptide Hydrolases, Polyproteins, RNA Viruses genetics, Varroidae

Abstract

The deformed wing virus (DWV) belongs to the genus Iflavirus and the family Iflaviridae within the order Picornavirales . It is an important pathogen of the Western honey bee, Apis mellifera , causing major losses among honey bee colonies in association with the ectoparasitic mite Varroa destructor. Although DWV is one of the best-studied insect viruses, the mechanisms of viral replication and polyprotein processing have been poorly studied in the past. We investigated the processing of the protease-polymerase region at the C-terminus of the polyprotein in more detail using recombinant expression, novel serological reagents, and virus clone mutagenesis. Edman degradation of purified maturated polypeptides uncovered the C- and N-termini of the mature 3C-like (3CL) protease and RNA-dependent RNA polymerase (3DL, RdRp), respectively. Autocatalytic processing of the recombinant DWV 3CL protease occurred at P1 Q 2118 and P1' G 2119 (KPQ/GST) as well as P1 Q 2393 and P1' S 2394 (HAQ/SPS) cleavage sites. New monoclonal antibodies (Mab) detected the mature 3CL protease with an apparent molecular mass of 32 kDa, mature 3DL with an apparent molecular mass of 55 kDa as well as a dominant 3CDL precursor of 90 kDa in DWV infected honey bee pupae. The observed pattern corresponds well to data obtained via recombinant expression and N-terminal sequencing. Finally, we were able to show that 3CL protease activity and availability of the specific protease cleavage sites are essential for viral replication, protein synthesis, and establishment of infection using our molecular clone of DWV-A.

Published

2023

13. Functional comparisons of the virus sensor RIG-I from humans, the microbat Myotis daubentonii , and the megabat Rousettus aegyptiacus , and their response to SARS-CoV-2 infection.

Author

Schoen A, Hölzer M, Müller MA, Wallerang KB, Drosten C, Marz M, Lamp B, and Weber F

Subjects

Animals, Humans, COVID-19, Receptors, Immunologic chemistry, Receptors, Immunologic genetics, Receptors, Immunologic metabolism, Viruses, Chiroptera metabolism, SARS-CoV-2 physiology, Receptors, Retinoic Acid chemistry, Receptors, Retinoic Acid genetics, Receptors, Retinoic Acid metabolism

Abstract

Importance: A common hypothesis holds that bats (order Chiroptera ) are outstanding reservoirs for zoonotic viruses because of a special antiviral interferon (IFN) system. However, functional studies about key components of the bat IFN system are rare. RIG-I is a cellular sensor for viral RNA signatures that activates the antiviral signaling chain to induce IFN. We cloned and functionally characterized RIG-I genes from two species of the suborders Yangochiroptera and Yinpterochiroptera . The bat RIG-Is were conserved in their sequence and domain organization, and similar to human RIG-I in (i) mediating virus- and IFN-activated gene expression, (ii) antiviral signaling, (iii) temperature dependence, and (iv) recognition of RNA ligands. Moreover, RIG-I of Rousettus aegyptiacus (suborder Yinpterochiroptera ) and of humans were found to recognize SARS-CoV-2 infection. Thus, members of both bat suborders encode RIG-Is that are comparable to their human counterpart. The ability of bats to harbor zoonotic viruses therefore seems due to other features., Competing Interests: The authors declare no conflict of interest.

Published

2023

14. Crude Extracts of Talaromyces Strains (Ascomycota) Affect Honey Bee ( Apis mellifera ) Resistance to Chronic Bee Paralysis Virus.

Author

Vocadlova K, Lamp B, Benes K, Matha V, Lee KZ, and Vilcinskas A

Subjects

Cats, Bees, Animals, Antiviral Agents pharmacology, Paralysis, Mammals, Talaromyces, RNA Viruses, Ascomycota, Coronavirus, Feline

Abstract

Viruses contribute significantly to the global decline of honey bee populations. One way to limit the impact of such viruses is the introduction of natural antiviral compounds from fungi as a component of honey bee diets. Therefore, we examined the effect of crude organic extracts from seven strains of the fungal genus Talaromyces in honey bee diets under laboratory conditions. The strains were isolated from bee bread prepared by honey bees infected with chronic bee paralysis virus (CBPV). The antiviral effect of the extracts was also quantified in vitro using mammalian cells as a model system. We found that three extracts (from strains B13, B18 and B30) mitigated CBPV infections and increased the survival rate of bees, whereas other extracts had no effect (B11 and B49) or were independently toxic (B69 and B195). Extract B18 inhibited the replication of feline calicivirus and feline coronavirus (FCoV) in mammalian cells, whereas extracts B18 and B195 reduced the infectivity of FCoV by ~90% and 99%, respectively. Our results show that nonpathogenic fungi (and their products in food stores) offer an underexplored source of compounds that promote disease resistance in honey bees.

Published

2023

15. A Conserved Stem-Loop Structure within ORF5 Is a Frequent Recombination Hotspot for Porcine Reproductive and Respiratory Syndrome Virus 1 (PRRSV-1) with a Particular Modified Live Virus (MLV) Strain.

Author

Mötz M, Stadler J, Kreutzmann H, Ladinig A, Lamp B, Auer A, Riedel C, and Rümenapf T

Subjects

Animals, Swine, Open Reading Frames, Recombination, Genetic, Phylogeny, Porcine respiratory and reproductive syndrome virus genetics, Porcine Reproductive and Respiratory Syndrome

Abstract

The emergence of recombinant PRRSV strains has been observed for more than a decade. These recombinant viruses are characterized by a genome that contains genetic material from at least two different parental strains. Due to the advanced sequencing techniques and a growing number of data bank entries, the role of PRRSV recombinants has become increasingly important since they are sometimes associated with clinical outbreaks. Chimeric viruses observed more recently are products of PRRSV wild-type and vaccine strains. Here, we report on three PRRSV-1 isolates from geographically distant farms with differing clinical manifestations. A sequencing and recombination analysis revealed that these strains are crossovers between different wild-type strains and the same modified live virus vaccine strain. Interestingly, the recombination breakpoint of all analyzed isolates appears at the beginning of open reading frame 5 (ORF5). RNA structure predictions indicate a conserved stem loop in close proximity to the recombination hotspot, which is a plausible cause of a polymerase template switch during RNA replication. Further research into the mechanisms of the stem loop is needed to help understand the PRRSV recombination process and the role of MLVs as parental strains.

Published

2023

16. DNAJC14-Independent Replication of the Atypical Porcine Pestivirus.

Author

Reuscher CM, Seitz K, Schwarz L, Geranio F, Isken O, Raigel M, Huber T, Barth S, Riedel C, Netsch A, Zimmer K, Rümenapf T, Tautz N, and Lamp B

Subjects

Animals, Cell Line, Coenzymes, Genome, Viral genetics, Host-Pathogen Interactions, RNA, Viral genetics, Swine Diseases virology, Viral Proteases metabolism, Molecular Chaperones genetics, Pestivirus classification, Pestivirus enzymology, Pestivirus growth & development, Pestivirus Infections veterinary, Swine virology, Virus Replication genetics

Abstract

Atypical porcine pestiviruses (APPV; Pestivirus K ) are a recently discovered, very divergent species of the genus Pestivirus within the family Flaviviridae . The presence of APPV in piglet-producing farms is associated with the occurrence of so-called "shaking piglets," suffering from mild to severe congenital tremor type A-II. Previous studies showed that the cellular protein DNAJC14 is an essential cofactor of the NS2 autoprotease of all classical pestiviruses. Consequently, genetically engineered DNAJC14 knockout cell lines were resistant to all tested noncytopathogenic (non-cp) pestiviruses. Surprisingly, we found that the non-cp APPV can replicate in these cells in the absence of DNAJC14, suggesting a divergent mechanism of polyprotein processing. A complete laboratory system for the study of APPV was established to learn more about the replication of this unusual virus. The inactivation of the APPV NS2 autoprotease using reverse genetics resulted in nonreplicative genomes. To further investigate whether a regulation of the NS2-3 cleavage is also existing in APPV, we constructed synthetic viral genomes with deletions and duplications leading to the NS2 independent release of mature NS3. As observed with other pestiviruses, the increase of mature NS3 resulted in elevated viral RNA replication levels and increased protein expression. Our data suggest that APPV exhibit a divergent mechanism for the regulation of the NS2 autoprotease activity most likely utilizing a different cellular protein for the adjustment of replication levels. IMPORTANCE DNAJC14 is an essential cofactor of the pestiviral NS2 autoprotease, limiting replication to tolerable levels as a prerequisite for the noncytopathogenic biotype of pestiviruses. Surprisingly, we found that the atypical porcine pestivirus (APPV) is able to replicate in the absence of DNAJC14. We further investigated the NS2-3 processing of APPV using a molecular clone, monoclonal antibodies, and DNAJC14 knockout cells. We identified two potential active site residues of the NS2 autoprotease and could demonstrate that the release of NS3 by the NS2 autoprotease is essential for APPV replication. Defective interfering genomes and viral genomes with duplicated NS3 sequences that produce mature NS3 independent of the NS2 autoprotease activity showed increased replication and antigen expression. It seems likely that an alternative cellular cofactor controls NS2-3 cleavage and thus replication of APPV. The replication-optimized synthetic APPV genomes might be suitable live vaccine candidates, whose establishment and testing warrant further research.

Published

2022

17. New Emergence of the Novel Pestivirus Linda Virus in a Pig Farm in Carinthia, Austria.

Author

Kiesler A, Schwarz L, Riedel C, Högler S, Brunthaler R, Dimmel K, Auer A, Zaruba M, Mötz M, Seitz K, Ladinig A, Lamp B, and Rümenapf T

Subjects

Animals, Austria epidemiology, Communicable Diseases, Emerging epidemiology, Communicable Diseases, Emerging virology, Disease Outbreaks, Farms, Feces virology, Pestivirus classification, Pestivirus genetics, Pestivirus physiology, Pestivirus Infections epidemiology, Pestivirus Infections virology, Phylogeny, Retrospective Studies, Swine, Swine Diseases epidemiology, Communicable Diseases, Emerging veterinary, Pestivirus isolation & purification, Pestivirus Infections veterinary, Swine Diseases virology

Abstract

Linda virus (LindaV) was first identified in a pig farm in Styria, Austria in 2015 and associated with congenital tremor (CT) type A-II in newborn piglets. Since then, only one more LindaV affected farm was retrospectively discovered 10 km away from the initially affected farm. Here, we report the recent outbreak of a novel LindaV strain in a farrow-to-finish farm in the federal state Carinthia, Austria. No connection between this farm and the previously affected farms could be discovered. The outbreak was characterized by severe CT cases in several litters and high preweaning mortality. A herd visit two months after the onset of clinical symptoms followed by a diagnostic workup revealed the presence of several viremic six-week-old nursery pigs. These animals shed large amounts of virus via feces and saliva, implying an important epidemiological role for within- and between-herd virus transmission. The novel LindaV strain was isolated and genetically characterized. The findings underline a low prevalence of LindaV in the Austrian pig population and highlight the threat when introduced into a pig herd. Furthermore, the results urge the need to better understand the routes of persistence and transmission of this enigmatic pestivirus in the pig population.

Published

2022

18. Characterization of a Cytopathogenic Reporter CSFV.

Author

Reuscher CM, Schmidt L, Netsch A, and Lamp B

Subjects

Animals, Cell Line, Classical Swine Fever diagnosis, Classical Swine Fever virology, Classical Swine Fever Virus physiology, Cytopathogenic Effect, Viral, Gene Expression, Genes, Reporter, Luminescent Proteins genetics, Luminescent Proteins metabolism, Neutralization Tests instrumentation, Peptide Hydrolases genetics, Peptide Hydrolases metabolism, Polyproteins genetics, Polyproteins metabolism, Protein Processing, Post-Translational, Swine, Ubiquitin genetics, Ubiquitin metabolism, Viral Nonstructural Proteins genetics, Viral Nonstructural Proteins metabolism, Virus Replication, Red Fluorescent Protein, Classical Swine Fever Virus genetics

Abstract

Cytopathogenic (cp) pestiviruses frequently emerge in cattle that are persistently infected with the bovine viral diarrhea virus (BVDV) as a consequence of RNA recombination and mutation. They induce apoptosis in infected tissue cultures, are highly attenuated in the immunocompetent host, and unable to establish persistent infections after diaplacental infections. Cp strains of BVDV have been used as naturally attenuated live vaccines and for species-specific plaque reduction tests for the indirect serological detection of BVDV. Here, we present a genetically engineered cp strain of the classical swine fever virus (CSFV). Cytopathogenicity of the strain was induced by the insertion of ubiquitin embedded in a large NS3 to NS4B duplication. The CSFV RNA genome was stabilized by the inactivation of the NS2 autoprotease, hindering the deletion of the insertion and the reversion to a wild-type genome. Additional insertion of a mCherry gene at the 5'-end of the E2 gene allowed fluorescence-verified plaque reduction assays for CSFV, thus providing a novel, cost-efficient diagnostic tool. This genetically stabilized cp CSFV strain could be further used as a basis for potential new modified live vaccines. Taken together, we applied reverse genetics to rationally fixate a typical cp NS3 duplication in a CSFV genome.

Published

2021

19. Prevalence of Linda Virus Neutralizing Antibodies in the Austrian Pig Population.

Author

Kiesler A, Plankensteiner J, Schwarz L, Riedel C, Seitz K, Mötz M, Ladinig A, Lamp B, and Rümenapf T

Subjects

Animals, Austria epidemiology, Female, Male, Pestivirus Infections immunology, Prevalence, Seroepidemiologic Studies, Sus scrofa, Swine, Swine Diseases virology, Antibodies, Neutralizing blood, Antibodies, Viral blood, Pestivirus immunology, Pestivirus Infections epidemiology, Pestivirus Infections veterinary, Swine Diseases immunology

Abstract

A novel pestivirus species, termed Lateral-shaking Inducing Neuro-Degenerative Agent virus (LindaV), was discovered in a piglet-producing farm in Austria in 2015 related to severe congenital tremor cases. Since the initial outbreak LindaV has not been found anywhere else. In this study, we determined the seroprevalence of LindaV infections in the domestic pig population of Austria. A fluorophore labeled infectious cDNA clone of LindaV (mCherry-LindaV) was generated and used in serum virus neutralization (SVN) assays for the detection of LindaV specific neutralizing antibodies in porcine serum samples. In total, 637 sera from sows and gilts from five federal states of Austria, collected between the years 2015 and 2020, were analyzed. We identified a single serum showing a high neutralizing antibody titer, that originated from a farm (Farm S2) in the proximity of the initially affected farm. The analysis of 57 additional sera from Farm S2 revealed a wider spread of LindaV in this pig herd. Furthermore, a second LindaV strain originating from this farm could be isolated in cell culture and was further characterized at the genetic level. Possible transmission routes and virus reservoir hosts of this emerging porcine virus need to be addressed in future studies.

Published

2021

20. Organization of the Structural Protein Region of La Jolla Virus Isolated from the Invasive Pest Insect Drosophila suzukii .

Author

Carrau T, Lamp B, Reuscher CM, Vilcinskas A, and Lee KZ

Subjects

Amino Acid Sequence, Animals, Base Sequence, Female, High-Throughput Nucleotide Sequencing, Phylogeny, RNA Viruses classification, RNA Viruses isolation & purification, RNA Viruses ultrastructure, RNA, Viral, Sequence Analysis, RNA, Viral Load, Viral Structural Proteins chemistry, Drosophila virology, Introduced Species, RNA Viruses genetics, Viral Structural Proteins genetics

Abstract

Drosophila suzukii (Ds) is an invasive pest insect that infests ripening fruit, causing severe economic losses. Control measures based on chemical pesticides are inefficient and undesirable, so biological alternatives have been considered, including native Ds viruses. We previously isolated a strain of La Jolla virus (LJV-Ds-OS20) from Ds in Germany as a candidate biopesticide. Here we characterized the new strain in detail, focusing on the processing of its capsid proteins. We tested LJV growth during Ds development to optimize virus production, and established a laboratory production system using adult flies. This system was suitable for the preparation of virions for detailed analysis. The LJV-Ds-OS20 isolate was cloned by limiting dilution and the complete nucleotide sequence was determined as a basis for protein analysis. The terminal segments of the virus genome were completed by RACE-PCR. LJV virions were also purified by CsCl gradient centrifugation and analyzed by SDS-PAGE and electron microscopy. The capsid proteins of purified LJV virions were resolved by two-dimensional SDS-PAGE for N-terminal sequencing and peptide mass fingerprinting. The N-terminal sequences of VP1 and VP2, together with MS data representing several capsid proteins, allowed us to develop a model for the organization of the LJV structural protein region. This may facilitate the development of new viral strains as biopesticides.

Published

2021

21. Real Time Analysis of Bovine Viral Diarrhea Virus (BVDV) Infection and Its Dependence on Bovine CD46.

Author

Riedel C, Chen HW, Reichart U, Lamp B, Laketa V, and Rümenapf T

Subjects

Animals, Cattle, Cell Line, Endocytosis, Genes, Viral, Luminescent Proteins genetics, Microscopy, Confocal methods, Virus Attachment, Red Fluorescent Protein, Diarrhea Viruses, Bovine Viral genetics, Diarrhea Viruses, Bovine Viral physiology, Membrane Cofactor Protein genetics, Membrane Cofactor Protein metabolism, Receptors, Virus metabolism, Virus Internalization

Abstract

Virus attachment and entry is a complex interplay of viral and cellular interaction partners. Employing bovine viral diarrhea virus (BVDV) encoding an mCherry-E2 fusion protein (BVDV E2-mCherry ), being the first genetically labelled member of the family Flaviviridae applicable for the analysis of virus particles, the early events of infection-attachment, particle surface transport, and endocytosis-were monitored to better understand the mechanisms underlying virus entry and their dependence on the virus receptor, bovine CD46. The analysis of 801 tracks on the surface of SK6 cells inducibly expressing fluorophore labelled bovine CD46 (CD46 fluo ) demonstrated the presence of directed, diffusive, and confined motion. 26 entry events could be identified, with the majority being associated with a CD46 fluo positive structure during endocytosis and occurring more than 20 min after virus addition. Deletion of the CD46 fluo E2 binding domain (CD46 fluo ∆E2bind) did not affect the types of motions observed on the cell surface but resulted in a decreased number of observable entry events (2 out of 1081 tracks). Mean squared displacement analysis revealed a significantly increased velocity of particle transport for directed motions on CD46 fluo ∆E2bind expressing cells in comparison to CD46 fluo . These results indicate that the presence of bovine CD46 is only affecting the speed of directed transport, but otherwise not influencing BVDV cell surface motility. Instead, bovine CD46 seems to be an important factor during uptake, suggesting the presence of additional cellular proteins interacting with the virus which are able to support its transport on the virus surface.

Published

2020

22. Distinct CoREST complexes act in a cell-type-specific manner.

Author

Mačinković I, Theofel I, Hundertmark T, Kovač K, Awe S, Lenz J, Forné I, Lamp B, Nist A, Imhof A, Stiewe T, Renkawitz-Pohl R, Rathke C, and Brehm A

Subjects

Animals, Cell Line, Drosophila melanogaster embryology, Epigenesis, Genetic genetics, Gene Expression Profiling, Histone Deacetylases genetics, Histone-Lysine N-Methyltransferase metabolism, Histones metabolism, Protein Isoforms genetics, Transcription Factors metabolism, Transcriptome genetics, Chromatin metabolism, Co-Repressor Proteins metabolism, Drosophila Proteins metabolism, Gene Expression Regulation genetics, Histone Deacetylases metabolism, Oxidoreductases, N-Demethylating metabolism

Abstract

CoREST has been identified as a subunit of several protein complexes that generate transcriptionally repressive chromatin structures during development. However, a comprehensive analysis of the CoREST interactome has not been carried out. We use proteomic approaches to define the interactomes of two dCoREST isoforms, dCoREST-L and dCoREST-M, in Drosophila. We identify three distinct histone deacetylase complexes built around a common dCoREST/dRPD3 core: A dLSD1/dCoREST complex, the LINT complex and a dG9a/dCoREST complex. The latter two complexes can incorporate both dCoREST isoforms. By contrast, the dLSD1/dCoREST complex exclusively assembles with the dCoREST-L isoform. Genome-wide studies show that the three dCoREST complexes associate with chromatin predominantly at promoters. Transcriptome analyses in S2 cells and testes reveal that different cell lineages utilize distinct dCoREST complexes to maintain cell-type-specific gene expression programmes: In macrophage-like S2 cells, LINT represses germ line-related genes whereas other dCoREST complexes are largely dispensable. By contrast, in testes, the dLSD1/dCoREST complex prevents transcription of germ line-inappropriate genes and is essential for spermatogenesis and fertility, whereas depletion of other dCoREST complexes has no effect. Our study uncovers three distinct dCoREST complexes that function in a lineage-restricted fashion to repress specific sets of genes thereby maintaining cell-type-specific gene expression programmes., (© The Author(s) 2019. Published by Oxford University Press on behalf of Nucleic Acids Research.)

Published

2019

23. A molecular clone of Chronic Bee Paralysis Virus (CBPV) causes mortality in honey bee pupae (Apis mellifera).

Author

Seitz K, Buczolich K, Dikunová A, Plevka P, Power K, Rümenapf T, and Lamp B

Subjects

Animals, Phylogeny, Sequence Analysis, DNA, Virus Replication, Animal Diseases mortality, Animal Diseases virology, Bees virology, Cloning, Molecular, Insect Viruses genetics, Open Reading Frames

Abstract

Among the many diseases compromising the well-being of the honey bee (Apis mellifera) the chronic paralysis syndrome of adult honey bees is one of the best described. The causative agent, chronic bee paralysis virus (CBPV), is a positive sense, single-stranded RNA virus with a segmented genome. Segment 1 encodes three putative open reading frames (ORFs), including the RNA-dependent RNA polymerase and other non-structural protein coding regions. Segment 2 encodes four putative ORFs, which contain the genes of supposed structural proteins. In this study, we established a reverse genetic system for CBPV by molecular cloning of DNA copies of both genome segments. CBPV rescue was studied in imago and honey bee pupae infection models. Virus replication and progeny virus production was only initiated when capped RNAs of both genome segments were injected in honey bees. As injection of these clonal RNAs caused clinical symptoms similar to wild-type CBPV infection, we conclude that the novel molecular clone fulfilled Koch's postulates. Our virus clone will enable in-depth analysis of CBPV pathogenesis and help to increase knowledge about this important honey bee disease.

Published

2019

24. Clinical and Serological Evaluation of LINDA Virus Infections in Post-Weaning Piglets.

Author

Kiesler A, Seitz K, Schwarz L, Buczolich K, Petznek H, Sassu E, Dürlinger S, Högler S, Klang A, Riedel C, Chen HW, Mötz M, Kirkland P, Weissenböck H, Ladinig A, Rümenapf T, and Lamp B

Subjects

Animals, Antibodies, Neutralizing blood, Antibodies, Viral blood, Female, Immunity, Humoral, Male, Pestivirus genetics, Pestivirus Infections immunology, Pestivirus Infections pathology, Pestivirus Infections virology, Spleen immunology, Spleen pathology, Swine, Swine Diseases blood, Swine Diseases immunology, Swine Diseases pathology, Weaning, Pestivirus physiology, Pestivirus Infections veterinary, Swine Diseases virology

Abstract

The novel pestivirus species known as lateral-shaking inducing neuro-degenerative agent (LINDA) virus emerged in 2015 in a piglet-producing farm in Austria. Affected piglets showed strong congenital tremor as a result of severe lesions in the central nervous system. Here, we report the results of a controlled animal infection experiment. Post-weaning piglets were infected with LINDA to determine the susceptibility of pigs, the clinical consequences of infection and the humoral immune response against LINDA. No clinically overt disease signs were observed in the piglets. Viremia was hardly detectable, but LINDA was present in the spleen and several lymphatic organs until the end of the experiment on day 28 post-infection. Oronasal virus shedding together with the infection of one sentinel animal provided additional evidence for the successful replication and spread of LINDA in the piglets. Starting on day 14 post-infection, all infected animals showed a strong humoral immune response with high titers of neutralizing antibodies against LINDA. No cross-neutralizing activity of these sera with other pestiviral species was observed. According to these data, following postnatal infection, LINDA is a rather benign virus that can be controlled by the pig's immune system. However, further studies are needed to investigate the effects of LINDA on the fetus after intrauterine infection.

Published

2019

25. Residual apoptotic activity of a tumorigenic p53 mutant improves cancer therapy responses.

Author

Timofeev O, Klimovich B, Schneikert J, Wanzel M, Pavlakis E, Noll J, Mutlu S, Elmshäuser S, Nist A, Mernberger M, Lamp B, Wenig U, Brobeil A, Gattenlöhner S, Köhler K, and Stiewe T

Subjects

Animals, Carcinogenesis drug effects, Carcinogenesis metabolism, Carcinogenesis pathology, Cell Cycle, Disease Models, Animal, Disease Progression, Female, Gene Expression Regulation, Neoplastic, Leukemia, Myeloid, Acute genetics, Leukemia, Myeloid, Acute pathology, Lymphoma genetics, Lymphoma pathology, Male, Mice, Mice, Inbred C57BL, Mice, Knockout, Tumor Cells, Cultured, Antineoplastic Agents pharmacology, Apoptosis drug effects, Leukemia, Myeloid, Acute prevention & control, Lymphoma prevention & control, Mutation, Proto-Oncogene Proteins c-mdm2 physiology, Tumor Suppressor Protein p53 physiology

Abstract

Engineered p53 mutant mice are valuable tools for delineating p53 functions in tumor suppression and cancer therapy. Here, we have introduced the R178E mutation into the Trp53 gene of mice to specifically ablate the cooperative nature of p53 DNA binding. Trp53 R178E mice show no detectable target gene regulation and, at first sight, are largely indistinguishable from Trp53 -/- mice. Surprisingly, stabilization of p53 R178E in Mdm2 -/- mice nevertheless triggers extensive apoptosis, indicative of residual wild-type activities. Although this apoptotic activity suffices to trigger lethality of Trp53 R178E ;Mdm2 -/- embryos, it proves insufficient for suppression of spontaneous and oncogene-driven tumorigenesis. Trp53 R178E mice develop tumors indistinguishably from Trp53 -/- mice and tumors retain and even stabilize the p53 R178E protein, further attesting to the lack of significant tumor suppressor activity. However, Trp53 R178E tumors exhibit remarkably better chemotherapy responses than Trp53 -/- ones, resulting in enhanced eradication of p53-mutated tumor cells. Together, this provides genetic proof-of-principle evidence that a p53 mutant can be highly tumorigenic and yet retain apoptotic activity which provides a survival benefit in the context of cancer therapy., (© 2019 The Authors. Published under the terms of the CC BY 4.0 license.)

Published

2019

26. Fluorophore labelled BVDV: a novel tool for the analysis of infection dynamics.

Author

Riedel C, Lamp B, Chen HW, Heimann M, and Rümenapf T

Subjects

Animals, Bovine Virus Diarrhea-Mucosal Disease metabolism, Bovine Virus Diarrhea-Mucosal Disease pathology, Cattle, Cell Line, Classical Swine Fever metabolism, Classical Swine Fever pathology, Classical Swine Fever virology, Classical Swine Fever Virus genetics, Classical Swine Fever Virus metabolism, Cryoelectron Microscopy, Membrane Cofactor Protein metabolism, Swine, Virion metabolism, Bovine Virus Diarrhea-Mucosal Disease virology, Diarrhea Viruses, Bovine Viral genetics, Diarrhea Viruses, Bovine Viral metabolism, Microscopy, Fluorescence methods, Viral Envelope Proteins genetics, Viral Envelope Proteins metabolism

Abstract

Genetic labelling of viruses with a fluorophore allows to study their life cycle in real time, without the need for fixation or staining techniques. Within the family Flaviviridae, options for genetic labelling of non-structural proteins exist. Yet, no system to genetically label structural proteins has been put forward to date. Taking advantage of a previously described site within the structural protein E2, a fluorophore was introduced into a cytopathogenic (cpe) BVDV-1 virus (BVDV E2_fluo ). This insertion was well tolerated, resulting in a 2-fold drop in titer compared to the parental virus, and remained stably integrated into the genome for more than 10 passages. The fluorophore E2 fusion protein was readily detectable in purified virus particles by Western blot and fluorescence microscopy and the particle integrity and morphology was confirmed by cryo electron microscopy. The same integration site could also be used to label the related Classical swine fever virus. Also, BVDV E2_fluo particles bound to fluorophore labelled CD46 expressing cells could be resolved in fluorescence microscopy. This underlines the applicability of BVDV E2_fluo as a tool to study the dynamics of the whole life cycle of BVDV in real time.

Published

2019

27. SMARCAD1 ATPase activity is required to silence endogenous retroviruses in embryonic stem cells.

Author

Sachs P, Ding D, Bergmaier P, Lamp B, Schlagheck C, Finkernagel F, Nist A, Stiewe T, and Mermoud JE

Subjects

Animals, DNA Helicases, Heterochromatin metabolism, Histone-Lysine N-Methyltransferase metabolism, Mice, Models, Biological, Protein Binding, Endogenous Retroviruses metabolism, Gene Silencing, Mouse Embryonic Stem Cells metabolism, Nuclear Proteins metabolism

Abstract

Endogenous retroviruses (ERVs) can confer benefits to their host but present a threat to genome integrity if not regulated correctly. Here we identify the SWI/SNF-like remodeler SMARCAD1 as a key factor in the control of ERVs in embryonic stem cells. SMARCAD1 is enriched at ERV subfamilies class I and II, particularly at active intracisternal A-type particles (IAPs), where it preserves repressive histone methylation marks. Depletion of SMARCAD1 results in de-repression of IAPs and adjacent genes. Recruitment of SMARCAD1 to ERVs is dependent on KAP1, a central component of the silencing machinery. SMARCAD1 and KAP1 occupancy at ERVs is co-dependent and requires the ATPase function of SMARCAD1. Our findings uncover a role for the enzymatic activity of SMARCAD1 in cooperating with KAP1 to silence ERVs. This reveals ATP-dependent chromatin remodeling as an integral step in retrotransposon regulation in stem cells and advances our understanding of the mechanisms driving heterochromatin establishment.

Published

2019

28. Drosophila melanogaster tPlus3a and tPlus3b ensure full male fertility by regulating transcription of Y-chromosomal, seminal fluid, and heat shock genes.

Author

Hundertmark T, Kreutz S, Merle N, Nist A, Lamp B, Stiewe T, Brehm A, Renkawitz-Pohl R, and Rathke C

Subjects

Animals, Dimerization, Drosophila Proteins antagonists & inhibitors, Drosophila Proteins genetics, Drosophila melanogaster genetics, Heat-Shock Proteins chemistry, High-Throughput Nucleotide Sequencing, Male, RNA Interference, Sequence Analysis, RNA, Spermatocytes metabolism, Transcription, Genetic, Drosophila Proteins metabolism, Drosophila melanogaster metabolism, Fertility genetics, Heat-Shock Proteins metabolism, Y Chromosome genetics

Abstract

Spermatogenesis in Drosophila melanogaster is characterized by a specific transcriptional program during the spermatocyte stage. Transcription of thousands of genes is regulated by the interaction of several proteins or complexes, including a tTAF-containing TFIID variant, tMAC, Mediator, and chromatin interactors, e.g., bromodomain proteins. We addressed how distinct subsets of target genes are selected. We characterized the highly similar proteins tPlus3a and tPlus3b, which contain a Plus3 domain and are enriched in the testis, mainly in spermatocytes. In tPlus3a and tplus3b deletion mutants generated using the CRISPR/Cas9 system, fertility was severely reduced and sperm showed defects during individualization. tPlus3a and tPlus3b heterodimerized with the bromodomain protein tBRD-1. To elucidate the role of the tPlus3a and tPlus3b proteins in transcriptional regulation, we determined the transcriptomes of tplus3a-tplus3b and tbrd-1 deletion mutants using next-generation sequencing (RNA-seq) and compared them to that of the wild-type. tPlus3a and tPlus3b positively or negatively regulated the expression of nearly 400 genes; tBRD-1 regulated 1,500 genes. Nearly 200 genes were regulated by both tPlus3a and tPlus3b and tBRD-1. tPlus3a and tPlus3b activated the Y-chromosomal genes kl-3 and kl-5, which indicates that tPlus3a and tPlus3b proteins are required for the function of distinct classes of genes. tPlus3a and tPlus3b and tBRD-1 repress genes relevant for seminal fluid and heat shock. We hypothesize that tPlus3a and tPlus3b proteins are required to specify the general transcriptional program in spermatocytes., Competing Interests: The authors have declared that no competing interests exist.

Published

2019

29. The short-chain fatty acid pentanoate suppresses autoimmunity by modulating the metabolic-epigenetic crosstalk in lymphocytes.

Author

Luu M, Pautz S, Kohl V, Singh R, Romero R, Lucas S, Hofmann J, Raifer H, Vachharajani N, Carrascosa LC, Lamp B, Nist A, Stiewe T, Shaul Y, Adhikary T, Zaiss MM, Lauth M, Steinhoff U, and Visekruna A

Subjects

Animals, CD4-Positive T-Lymphocytes drug effects, CD4-Positive T-Lymphocytes metabolism, Colitis drug therapy, Colitis metabolism, Fatty Acids, Volatile physiology, Fatty Acids, Volatile therapeutic use, Interleukin-10 metabolism, Mice, Multiple Sclerosis drug therapy, Multiple Sclerosis metabolism, Th17 Cells drug effects, Th17 Cells metabolism, Valerates therapeutic use, Autoimmunity drug effects, Epigenesis, Genetic drug effects, Epigenesis, Genetic genetics, Lymphocytes drug effects, Lymphocytes metabolism, Valerates pharmacology

Abstract

Short-chain fatty acids (SCFAs) have immunomodulatory effects, but the underlying mechanisms are not well understood. Here we show that pentanoate, a physiologically abundant SCFA, is a potent regulator of immunometabolism. Pentanoate induces IL-10 production in lymphocytes by reprogramming their metabolic activity towards elevated glucose oxidation. Mechanistically, this reprogramming is mediated by supplying additional pentanoate-originated acetyl-CoA for histone acetyltransferases, and by pentanoate-triggered enhancement of mTOR activity. In experimental mouse models of colitis and multiple sclerosis, pentanoate-induced regulatory B cells mediate protection from autoimmune pathology. Additionally, pentanoate shows a potent histone deacetylase-inhibitory activity in CD4 + T cells, thereby reducing their IL-17A production. In germ-free mice mono-colonized with segmented filamentous bacteria (SFB), pentanoate inhibits the generation of small-intestinal Th17 cells and ameliorates SFB-promoted inflammation in the central nervous system. Taken together, by enhancing IL-10 production and suppressing Th17 cells, the SCFA pentanoate might be of therapeutic relevance for inflammatory and autoimmune diseases.

Published

2019

30. Design and evaluation of the immunogenicity and efficacy of a biomimetic particulate formulation of viral antigens.

Author

Riitho V, Walters AA, Somavarapu S, Lamp B, Rümenapf T, Krey T, Rey FA, Oviedo-Orta E, Stewart GR, Locker N, Steinbach F, and Graham SP

Subjects

Dose-Response Relationship, Immunologic, Drug Compounding, Humans, Interferon-gamma metabolism, Polylactic Acid-Polyglycolic Acid Copolymer chemistry, T-Lymphocytes immunology, T-Lymphocytes metabolism, Vaccination, Antigens, Viral chemistry, Antigens, Viral immunology, Biomimetic Materials chemistry, Drug Design

Abstract

Subunit viral vaccines are typically not as efficient as live attenuated or inactivated vaccines at inducing protective immune responses. This paper describes an alternative 'biomimetic' technology; whereby viral antigens were formulated around a polymeric shell in a rationally arranged fashion with a surface glycoprotein coated on to the surface and non-structural antigen and adjuvant encapsulated. We evaluated this model using BVDV E2 and NS3 proteins formulated in poly-(D, L-lactic-co-glycolic acid) (PLGA) nanoparticles adjuvanted with polyinosinic:polycytidylic acid (poly(I:C) as an adjuvant (Vaccine-NP). This Vaccine-NP was compared to ovalbumin and poly(I:C) formulated in a similar manner (Control-NP) and a commercial adjuvanted inactivated BVDV vaccine (IAV), all inoculated subcutaneously and boosted prior to BVDV-1 challenge. Significant virus-neutralizing activity, and E2 and NS3 specific antibodies were observed in both Vaccine-NP and IAV groups following the booster immunisation. IFN-γ responses were observed in ex vivo PBMC stimulated with E2 and NS3 proteins in both vaccinated groups. We observed that the protection afforded by the particulate vaccine was comparable to the licenced IAV formulation. In conclusion, the biomimetic particulates showed a promising immunogenicity and efficacy profile that may be improved by virtue of being a customisable mode of delivery.

Published

2017

31. Novel Pestivirus Species in Pigs, Austria, 2015.

Author

Lamp B, Schwarz L, Högler S, Riedel C, Sinn L, Rebel-Bauder B, Weissenböck H, Ladinig A, and Rümenapf T

Subjects

Animals, Austria epidemiology, Disease Outbreaks, History, 21st Century, Immunohistochemistry, Pestivirus genetics, Pestivirus metabolism, Phenotype, Phylogeny, RNA, Viral, Sus scrofa, Swine, Swine Diseases diagnosis, Swine Diseases history, Pestivirus classification, Pestivirus Infections veterinary, Swine Diseases epidemiology, Swine Diseases virology

Abstract

A novel pestivirus species was discovered in a piglet-producing farm in Austria during virologic examinations of congenital tremor cases. The emergence of this novel pestivirus species, provisionally termed Linda virus, in domestic pigs may have implications for classical swine fever virus surveillance and porcine health management.

Published

2017

32. The core protein of a pestivirus protects the incoming virus against IFN-induced effectors.

Author

Riedel C, Lamp B, Hagen B, Indik S, and Rümenapf T

Subjects

Animals, Classical Swine Fever Virus pathogenicity, DNA Viruses genetics, Pestivirus pathogenicity, Pestivirus Infections virology, Swine virology, Virus Replication genetics, Classical Swine Fever Virus genetics, Pestivirus genetics, Pestivirus Infections genetics, Viral Core Proteins genetics

Abstract

A multitude of viral factors - either inhibiting the induction of the IFN-system or its effectors - have been described to date. However, little is known about the role of structural components of the incoming virus particle in protecting against IFN-induced antiviral factors during or immediately after entry. In this study, we take advantage of the previously reported property of Classical swine fever virus (family Flaviviridae, genus Pestivirus) to tolerate a deletion of the core protein if a compensatory mutation is present in the NS3-helicase-domain (Vp447 ∆c ). In contrast to the parental virus (Vp447), which causes a hemorrhagic-fever-like disease in pigs, Vp447 ∆c is avirulent in vivo. In comparison to Vp447, growth of Vp447 ∆c in primary porcine cells and IFN-treated porcine cell lines was reduced >20-fold. Also, primary porcine endothelial cells and IFN-pretreated porcine cell lines were 8-24 times less susceptible to Vp447 ∆c . This reduction of susceptibility could be partially reversed by loading Vp447 ∆c particles with different levels of core protein. In contrast, expression of core protein in the recipient cell did not have any beneficial effect. Therefore, a protective effect of core protein in the incoming virus particle against the products of IFN-stimulated genes could be demonstrated.

Published

2017

33. Congenital infection with atypical porcine pestivirus (APPV) is associated with disease and viral persistence.

Author

Schwarz L, Riedel C, Högler S, Sinn LJ, Voglmayr T, Wöchtl B, Dinhopl N, Rebel-Bauder B, Weissenböck H, Ladinig A, Rümenapf T, and Lamp B

Subjects

Animals, Animals, Newborn virology, Antibodies, Viral immunology, Austria epidemiology, Disease Outbreaks veterinary, Enzyme-Linked Immunosorbent Assay veterinary, Female, Male, Pestivirus Infections congenital, Pestivirus Infections epidemiology, Pestivirus Infections pathology, Reverse Transcriptase Polymerase Chain Reaction veterinary, Sequence Analysis, DNA veterinary, Swine, Swine Diseases congenital, Swine Diseases epidemiology, Swine Diseases pathology, Viral Load veterinary, Pestivirus genetics, Pestivirus Infections veterinary, Swine Diseases virology

Abstract

In 2013, several Austrian piglet-producing farms recorded outbreaks of action-related repetitive myoclonia in newborn piglets ("shaking piglets"). Malnutrition was seen in numerous piglets as a complication of this tremor syndrome. Overall piglet mortality was increased and the number of weaned piglets per sow decreased by more than 10% due to this outbreak. Histological examination of the CNS of affected piglets revealed moderate hypomyelination of the white substance in cerebellum and spinal cord. We detected a recently discovered pestivirus, termed atypical porcine pestivirus (APPV) in all these cases by RT-PCR. A genomic sequence and seven partial sequences were determined and revealed a 90% identity to the US APPV sequences and 92% identity to German sequences. In confirmation with previous reports, APPV genomes were identified in different body fluids and tissues including the CNS of diseased piglets. APPV could be isolated from a "shaking piglet", which was incapable of consuming colostrum, and passaged on different porcine cells at very low titers. To assess the antibody response a blocking ELISA was developed targeting NS3. APPV specific antibodies were identified in sows and in PCR positive piglets affected by congenital tremor (CT). APPV genomes were detected continuously in piglets that gradually recovered from CT, while the antibody titers decreased over a 12-week interval, pointing towards maternally transmitted antibodies. High viral loads were detectable by qRT-PCR in saliva and semen of infected young adults indicating a persistent infection.

Published

2017

34. Construction and Rescue of a Molecular Clone of Deformed Wing Virus (DWV).

Author

Lamp B, Url A, Seitz K, Eichhorn J, Riedel C, Sinn LJ, Indik S, Köglberger H, and Rümenapf T

Subjects

Animals, Antibodies, Monoclonal immunology, Base Sequence, Bees virology, Blotting, Western, Capsid Proteins immunology, Genome, Viral genetics, Host-Pathogen Interactions, Immunohistochemistry, Insect Viruses metabolism, Insect Viruses physiology, Mice, Inbred BALB C, Microscopy, Electron, Transmission, Phylogeny, Picornaviridae classification, Picornaviridae metabolism, Polyproteins genetics, Polyproteins metabolism, Pupa virology, RNA Viruses metabolism, RNA Viruses ultrastructure, RNA, Viral isolation & purification, Reverse Transcriptase Polymerase Chain Reaction, Sequence Analysis, DNA, Sequence Homology, Nucleic Acid, Viral Proteins metabolism, Wings, Animal virology, Insect Viruses genetics, Picornaviridae genetics, RNA Viruses genetics, RNA, Viral genetics

Abstract

European honey bees are highly important in crop pollination, increasing the value of global agricultural production by billions of dollars. Current knowledge about virulence and pathogenicity of Deformed wing virus (DWV), a major factor in honey bee colony mortality, is limited. With this study, we close the gap between field research and laboratory investigations by establishing a complete in vitro model for DWV pathogenesis. Infectious DWV was rescued from a molecular clone of a DWV-A genome that induces DWV symptoms such as crippled wings and discoloration. The expression of DWV proteins, production of infectious virus progeny, and DWV host cell tropism could be confirmed using newly generated anti-DWV monoclonal antibodies. The recombinant RNA fulfills Koch's postulates circumventing the need of virus isolation and propagation of pure virus cultures. In conclusion, we describe the development and application of a reverse genetics system for the study of DWV pathogenesis., Competing Interests: The authors have declared that no competing interests exist.

Published

2016

35. Emergence of a virulent porcine reproductive and respiratory syndrome virus (PRRSV) 1 strain in Lower Austria.

Author

Sinn LJ, Klingler E, Lamp B, Brunthaler R, Weissenböck H, Rümenapf T, and Ladinig A

Abstract

Background: In spring 2015, an outbreak of porcine reproductive and respiratory syndrome (PRRS) struck Lower Austria caused by a PRRS virus (PRRSV) strain spreading rapidly among both previously PRRSV negative and vaccinated pig herds. This case report describes the first well-documented emergence of the PRRSV strain responsible for this outbreak., Case Presentation: A PRRSV seronegative piglet-producing farm in Lower Austria encountered losses in foetuses and suckling piglets of up to 90 %; clinical signs in sows and nursery piglets included fever and reduced feed intake. Additionally, high percentages of repeat breeders and losses of up to 40 % in nursery piglets occurred. An infection with PRRSV was suggested by the detection of antibodies by enzyme linked immunosorbent assay and confirmed by quantitative real time PCR. The underlying PRRSV strain, termed AUT15-33, was isolated by passage on porcine alveolar macrophages, partially sequenced (ORF2-7) and grouped as PRRSV-1, subtype 1. In phylogenetic analysis of the genome region coding for the structural proteins, ORF2-7, AUT15-33 clustered with Belgian strains but identities were as low as 88 %. In contrast, analysis of ORF7 sequences revealed a close relationship to Croatian strains from 2012 with an identity of 94 - 95 %., Conclusions: In the year following the outbreak, the same PRRSV strain was identified repeatedly in different regions of Austria. It can be speculated that the new strain has novel advantageous properties.

Published

2016

36. Influenza A Virus Infection in Pigs Attracts Multifunctional and Cross-Reactive T Cells to the Lung.

Author

Talker SC, Stadler M, Koinig HC, Mair KH, Rodríguez-Gómez IM, Graage R, Zell R, Dürrwald R, Starick E, Harder T, Weissenböck H, Lamp B, Hammer SE, Ladinig A, Saalmüller A, and Gerner W

Subjects

Animals, CD4-Positive T-Lymphocytes virology, Influenza Vaccines immunology, Interferon-gamma immunology, Interleukin-2 immunology, Lung virology, Swine, Swine Diseases virology, Tumor Necrosis Factor-alpha immunology, CD4-Positive T-Lymphocytes immunology, CD8-Positive T-Lymphocytes immunology, Cross Reactions immunology, Influenza A Virus, H1N2 Subtype immunology, Lung immunology, Orthomyxoviridae Infections immunology, Swine Diseases immunology

Abstract

Unlabelled: Pigs are natural hosts for influenza A viruses and play a critical role in influenza epidemiology. However, little is known about their influenza-evoked T-cell response. We performed a thorough analysis of both the local and systemic T-cell response in influenza virus-infected pigs, addressing kinetics and phenotype as well as multifunctionality (gamma interferon [IFN-γ], tumor necrosis factor alpha [TNF-α], and interleukin-2 [IL-2]) and cross-reactivity. A total of 31 pigs were intratracheally infected with an H1N2 swine influenza A virus (FLUAVsw) and consecutively euthanized. Lungs, tracheobronchial lymph nodes, and blood were sampled during the first 15 days postinfection (p.i.) and at 6 weeks p.i. Ex vivo flow cytometry of lung lymphocytes revealed an increase in proliferating (Ki-67(+)) CD8(+) T cells with an early effector phenotype (perforin(+) CD27(+)) at day 6 p.i. Low frequencies of influenza virus-specific IFN-γ-producing CD4(+) and CD8(+) T cells could be detected in the lung as early as 4 days p.i. On consecutive days, influenza virus-specific CD4(+) and CD8(+) T cells produced mainly IFN-γ and/or TNF-α, reaching peak frequencies around day 9 p.i., which were up to 30-fold higher in the lung than in tracheobronchial lymph nodes or blood. At 6 weeks p.i., CD4(+) and CD8(+) memory T cells had accumulated in lung tissue. These cells showed diverse cytokine profiles and in vitro reactivity against heterologous influenza virus strains, all of which supports their potential to combat heterologous influenza virus infections in pigs., Importance: Pigs not only are a suitable large-animal model for human influenza virus infection and vaccine development but also play a central role in the emergence of new pandemic strains. Although promising candidate universal vaccines are tested in pigs and local T cells are the major correlate of heterologous control, detailed and targeted analyses of T-cell responses at the site of infection are scarce. With the present study, we provide the first detailed characterization of magnitude, kinetics, and phenotype of specific T cells recruited to the lungs of influenza virus-infected pigs, and we could demonstrate multifunctionality, cross-reactivity, and memory formation of these cells. This, and ensuing work in the pig, will strengthen the position of this species as a large-animal model for human influenza virus infection and will immediately benefit vaccine development for improved control of influenza virus infections in pigs., (Copyright © 2016 Talker et al.)

Published

2016

37. Characterization of monoclonal antibodies against feline coronavirus accessory protein 7b.

Author

Lemmermeyer T, Lamp B, Schneider R, Ziebuhr J, Tekes G, and Thiel HJ

Subjects

Animals, Antibodies, Monoclonal genetics, Antibodies, Viral genetics, Binding Sites, Escherichia coli genetics, Glycosylation, Immune Evasion, Recombinant Proteins genetics, Recombinant Proteins immunology, Viral Proteins genetics, Antibodies, Monoclonal metabolism, Antibodies, Viral metabolism, Coronavirus, Feline immunology, Viral Proteins immunology

Abstract

Feline coronaviruses (FCoVs) encode five accessory proteins termed 3a, 3b, 3c, 7a and 7b of unknown function. These proteins are dispensable for viral replication in vitro but are supposed to play a role in virulence. In the current study, we produced and characterized 7b-specific monoclonal antibodies (mAbs). A recombinant form of the 7b protein was expressed as a fusion protein in Escherichia coli, purified by immobilized metal affinity chromatography and used as immunogen. Two hybridoma lines, 5B6 and 14D8, were isolated that expressed mAbs that recognized 7b proteins of both FCoV serotypes. Using an extensive set of N- and C-terminally truncated 7b proteins expressed in E. coli and a synthetic peptide, the binding sites of mAbs 5B6 and 14D8 were mapped to an 18-residue region that comprises the only potential N-glycosylation site of the FCoV 7b protein. The two mAbs were suitable to detect a 24-kDa protein, which represents the nonglycosylated form of 7b in FCoV-infected cells. We speculate that glycosylation of 7b is part of the viral evasion strategy to prevent an immune response against this antigenic site., (Copyright © 2016 Elsevier B.V. All rights reserved.)

Published

2016

38. Characterization of two Austrian porcine reproductive and respiratory syndrome virus (PRRSV) field isolates reveals relationship to East Asian strains.

Author

Sinn LJ, Zieglowski L, Koinig H, Lamp B, Jansko B, Mößlacher G, Riedel C, Hennig-Pauka I, and Rümenapf T

Subjects

Amino Acid Sequence, Animals, Austria epidemiology, Cells, Cultured, Disease Outbreaks veterinary, Asia, Eastern epidemiology, Female, Gene Expression Regulation, Viral, Macrophages, Alveolar physiology, Macrophages, Alveolar virology, Male, Molecular Sequence Data, Phylogeny, Porcine Reproductive and Respiratory Syndrome epidemiology, Porcine respiratory and reproductive syndrome virus classification, Porcine respiratory and reproductive syndrome virus pathogenicity, Swine, Viral Proteins genetics, Viral Proteins metabolism, Viremia, Virulence, Virus Shedding, Porcine Reproductive and Respiratory Syndrome virology, Porcine respiratory and reproductive syndrome virus genetics

Abstract

Porcine reproductive and respiratory syndrome virus (PRRSV) causes major problems for the swine industry worldwide. Due to Austria's central location in Europe, a large number of animals are transported through the country. However, little is known about current PRRSV strains and epidemiology. We determined full-length genome sequences of two Austrian field isolates (AUT13-883 and AUT14-440) from recent PRRSV outbreaks and of a related German isolate (GER09-613). Phylogenetic analysis revealed that the strains belong to European genotype 1 subtype 1 and form a cluster together with a South Korean strain. Remarkably, AUT14-440 infected the simian cell line MARC-145 without prior adaptation. In addition, this isolate showed exceptional deletions in nonstructural protein 2, in the overlapping region of glycoprotein 3 and 4 and in the 3' untranslated region. Both Austrian isolates caused similar lung lesions but only pigs infected with AUT14-440 developed clear clinical signs of infection. Taken together, the genetic and biological characterization of two novel Austrian PRRSV field isolates revealed similarities to East Asian strains. This stresses the necessity for a more detailed analysis of current PRRSV strains in Europe beyond the determination of short ORF5 and ORF7 sequences.

Published

2016

39. PRRSV-infected monocyte-derived dendritic cells express high levels of SLA-DR and CD80/86 but do not stimulate PRRSV-naïve regulatory T cells to proliferate.

Author

Rodríguez-Gómez IM, Käser T, Gómez-Laguna J, Lamp B, Sinn L, Rümenapf T, Carrasco L, Saalmüller A, and Gerner W

Subjects

Animals, B7-1 Antigen immunology, B7-1 Antigen metabolism, B7-2 Antigen immunology, B7-2 Antigen metabolism, Dendritic Cells immunology, Dendritic Cells metabolism, Forkhead Transcription Factors metabolism, Histocompatibility Antigens Class I, Histocompatibility Antigens Class II immunology, Histocompatibility Antigens Class II metabolism, Monocytes metabolism, Porcine Reproductive and Respiratory Syndrome virology, Swine, T-Lymphocytes, Regulatory immunology, T-Lymphocytes, Regulatory metabolism, Forkhead Transcription Factors genetics, Porcine Reproductive and Respiratory Syndrome immunology, Porcine respiratory and reproductive syndrome virus physiology

Abstract

In vitro generated monocyte-derived dendritic cells (moDCs) have frequently been used to study the influence of porcine reproductive and respiratory syndrome virus (PRRSV) infection on antigen presenting cells. However, obtained results have often been conflicting in regard to expression of co-stimulatory molecules and interaction with T cells. In this study we performed a detailed phenotypic characterisation of PRRSV-infected moDCs and non-infected moDCs. For CD163 and CD169, which are involved in PRRSV-entry into host cells, our results show that prior to infection porcine moDCs express high levels of CD163 but only very low levels for CD169. Following infection with either PRRSV-1 or PRRSV-2 strains after 24 h, PRRSV-nucleoprotein (N-protein)(+) and N-protein(-) moDCs derived from the same microculture were analyzed for expression of swine leukocyte antigen-DR (SLA-DR) and CD80/86. N-protein(+) moDCs consistently expressed higher levels of SLA-DR and CD80/86 compared to N-protein(-) moDCs. We also investigated the influence of PRRSV-infected moDCs on proliferation and frequency of Foxp3(+) regulatory T cells present within CD4(+) T cells in in vitro co-cultures. Neither CD3-stimulated nor unstimulated CD4(+) T cells showed differences in regard to proliferation and frequency of Foxp3(+) T cells following co-cultivation with either PRRSV-1 or PRRSV-2 infected moDCs. Our results suggest that a more detailed characterisation of PRRSV-infected moDCs will lead to more consistent results across different laboratories and PRRSV strains as indicated by the major differences in SLA-DR and CD80/86 expression between PRRSV-infected and non-infected moDCs present in the same microculture.

Published

2015

40. Single amino acid substitution (G42E) in the receptor binding domain of mouse mammary tumour virus envelope protein facilitates infection of non-murine cells in a transferrin receptor 1-independent manner.

Author

Konstantoulas CJ, Lamp B, Rumenapf TH, and Indik S

Subjects

Amino Acid Substitution, Animals, Cell Line, Humans, Mutant Proteins genetics, Serial Passage, Viral Envelope Proteins genetics, Virus Replication, Host Specificity, Mammary Tumor Virus, Mouse physiology, Mutant Proteins metabolism, Mutation, Missense, Receptors, Transferrin metabolism, Viral Envelope Proteins metabolism, Virus Internalization

Abstract

Background: Mouse mammary tumour virus (MMTV) is a betaretrovirus that infects rodent cells and uses mouse tranferrin receptor 1 (TfR1) for cell entry. Several MMTV strains have been shown to productively infect, in addition to murine cells, various heterologous cell lines including those of human origin, albeit less efficiently than murine cells. Furthermore, there have been reports that the continued passage of MMTV in heterologous cell lines gives rise to novel variants that are able to infect naive non-murine cells with higher efficiency than the parental virus., Results: We show that MMTV(C3H), like other MMTV strains, that had undergone a number of replication cycles in non-murine cells displayed an increased replication kinetic, as compared to parental virus, when applied on naive human cells. Sequence analysis of several replication kinetic variants and the parental virus, together with calculation of the ratio of non-synonymous to synonymous mutations at individual codons, revealed that several regions within the viral genome were under strong positive selection pressure during viral replication in human cells. The mutation responsible, at least in part, for the phenotypic change was subsequently mapped to the segment of env encoding the receptor binding site (F₄₀HGFR₄₄). Introduction of the identified mutation, leading to single amino acid substitution (G42E), into egfp-containing recombinant MMTV virions enhanced their ability to bind to and infect human cells. Interestingly, neither the replication kinetic mutant nor the parental virus required human TfR1 for infection. Knock-out of TFR1 gene from the human genome did not decrease the susceptibility of Hs578T cells to virus infection. Furthermore, the expression of human TfR1, in contrast to mouse TfR1, did not enhance the susceptibility of MMTV-resistant Chinese hamster ovary cells. Thus, human TfR1 is dispensable for infection and another cell surface molecule mediates the MMTV entry into human cells., Conclusion: Taken together, our data explain the mechanism enabling MMTV to form 'host-range variants' in non-murine cells that has been known for a long time, the basis of which remained obscure. Our findings may expand our understanding of how viruses gain capability to cross species-specific barriers to infect new hosts.

Published

2015

41. X-ray structure of the pestivirus NS3 helicase and its conformation in solution.

Author

Tortorici MA, Duquerroy S, Kwok J, Vonrhein C, Perez J, Lamp B, Bricogne G, Rümenapf T, Vachette P, and Rey FA

Subjects

Cloning, Molecular, Crystallography, X-Ray, Oligonucleotides genetics, Protein Conformation, RNA Helicases chemistry, Scattering, Small Angle, Serine Endopeptidases chemistry, Species Specificity, Models, Molecular, Pestivirus enzymology, Viral Nonstructural Proteins chemistry

Abstract

Unlabelled: Pestiviruses form a genus in the Flaviviridae family of small enveloped viruses with a positive-sense single-stranded RNA genome. Viral replication in this family requires the activity of a superfamily 2 RNA helicase contained in the C-terminal domain of nonstructural protein 3 (NS3). NS3 features two conserved RecA-like domains (D1 and D2) with ATPase activity, plus a third domain (D3) that is important for unwinding nucleic acid duplexes. We report here the X-ray structure of the pestivirus NS3 helicase domain (pNS3h) at a 2.5-Å resolution. The structure deviates significantly from that of NS3 of other genera in the Flaviviridae family in D3, as it contains two important insertions that result in a narrower nucleic acid binding groove. We also show that mutations in pNS3h that rescue viruses from which the core protein is deleted map to D3, suggesting that this domain may be involved in interactions that facilitate particle assembly. Finally, structural comparisons of the enzyme in different crystalline environments, together with the findings of small-angle X-ray-scattering studies in solution, show that D2 is mobile with respect to the rest of the enzyme, oscillating between closed and open conformations. Binding of a nonhydrolyzable ATP analog locks pNS3h in a conformation that is more compact than the closest apo-form in our crystals. Together, our results provide new insight and bring up new questions about pNS3h function during pestivirus replication., Importance: Although pestivirus infections impose an important toll on the livestock industry worldwide, little information is available about the nonstructural proteins essential for viral replication, such as the NS3 helicase. We provide here a comparative structural and functional analysis of pNS3h with respect to its orthologs in other viruses of the same family, the flaviviruses and hepatitis C virus. Our studies reveal differences in the nucleic acid binding groove that could have implications for understanding the unwinding specificity of pNS3h, which is active only on RNA duplexes. We also show that pNS3h has a highly dynamic behavior--a characteristic probably shared with NS3 helicases from all Flaviviridae members--that could be targeted for drug design by using recent algorithms to specifically block molecular motion. Compounds that lock the enzyme in a single conformation or limit its dynamic range of conformations are indeed likely to block its helicase function., (Copyright © 2015, American Society for Microbiology. All Rights Reserved.)

Published

2015