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Al Farroukh M, Kiseleva I, Stepanova E, Bazhenova E, Krutikova E, Tkachev A, Chistyakova A, Rekstin A, Puchkova L, Rudenko L. The Effect of Mice Adaptation Process on the Pathogenicity of Influenza A/South Africa/3626/2013 (H1N1)pdm09 Model Strain. Int J Mol Sci 2023; 24:17386. [PMID: 38139214 PMCID: PMC10743444 DOI: 10.3390/ijms242417386] [Citation(s) in RCA: 0] [Impact Index Per Article: 0] [Reference Citation Analysis] [What about the content of this article? (0)] [Affiliation(s)] [Abstract] [Key Words] [MESH Headings] [Grants] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 11/02/2023] [Revised: 11/24/2023] [Accepted: 12/10/2023] [Indexed: 12/24/2023] Open
Abstract
Influenza virus strain A/South Africa/3626/2013 (H1N1)pdm09 (SA-WT) is a non-mouse-adapted model strain that has naturally high pathogenic properties in mice. It has been suggested that the high pathogenicity of this strain for mice could be due to the three strain-specific substitutions in the polymerase complex (Q687R in PB1, N102T in PB2, and E358E/K heterogeneity in PB2). To evaluate the role of these replacements, SA-WT was passaged five times in mouse lungs, and the genome of the mouse-adapted version of the SA-WT strain (SA-M5) was sequenced. SA-M5 lost E358E/K heterogeneity and retained E358, which is the prevalent amino acid at this position among H1N1pdm09 strains. In addition, in the hemagglutinin of SA-M5, two heterogeneous substitutions (G155G/E and S190S/R) were identified. Both viruses, SA-M5 and SA-WT, were compared for their toxicity, ability to replicate, pathogenicity, and immunogenicity in mice. In mice infected with SA-M5 or SA-WT strains, toxicity, virus titer in pulmonary homogenates, and mouse survival did not differ significantly. In contrast, an increase in the immunogenicity of SA-M5 compared to SA-WT was observed. This increase could be due to the substitutions G155G/E and S190S/R in the HA of SA-M5. The prospects for using SA-M5 in studying the immunogenicity mechanisms were also discussed.
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Affiliation(s)
- Mohammad Al Farroukh
- Federal State Budgetary Scientific Institution “Institute of Experimental Medicine”, St. Petersburg 197022, Russia; (E.S.); (E.B.); (E.K.); (A.C.); (A.R.); (L.P.); (L.R.)
- Institute of Biomedical Systems and Biotechnology, Peter the Great St. Petersburg Polytechnic University, St. Petersburg 194021, Russia;
| | - Irina Kiseleva
- Federal State Budgetary Scientific Institution “Institute of Experimental Medicine”, St. Petersburg 197022, Russia; (E.S.); (E.B.); (E.K.); (A.C.); (A.R.); (L.P.); (L.R.)
| | - Ekaterina Stepanova
- Federal State Budgetary Scientific Institution “Institute of Experimental Medicine”, St. Petersburg 197022, Russia; (E.S.); (E.B.); (E.K.); (A.C.); (A.R.); (L.P.); (L.R.)
| | - Ekaterina Bazhenova
- Federal State Budgetary Scientific Institution “Institute of Experimental Medicine”, St. Petersburg 197022, Russia; (E.S.); (E.B.); (E.K.); (A.C.); (A.R.); (L.P.); (L.R.)
| | - Elena Krutikova
- Federal State Budgetary Scientific Institution “Institute of Experimental Medicine”, St. Petersburg 197022, Russia; (E.S.); (E.B.); (E.K.); (A.C.); (A.R.); (L.P.); (L.R.)
| | - Artem Tkachev
- Institute of Biomedical Systems and Biotechnology, Peter the Great St. Petersburg Polytechnic University, St. Petersburg 194021, Russia;
| | - Anna Chistyakova
- Federal State Budgetary Scientific Institution “Institute of Experimental Medicine”, St. Petersburg 197022, Russia; (E.S.); (E.B.); (E.K.); (A.C.); (A.R.); (L.P.); (L.R.)
| | - Andrey Rekstin
- Federal State Budgetary Scientific Institution “Institute of Experimental Medicine”, St. Petersburg 197022, Russia; (E.S.); (E.B.); (E.K.); (A.C.); (A.R.); (L.P.); (L.R.)
| | - Ludmila Puchkova
- Federal State Budgetary Scientific Institution “Institute of Experimental Medicine”, St. Petersburg 197022, Russia; (E.S.); (E.B.); (E.K.); (A.C.); (A.R.); (L.P.); (L.R.)
| | - Larisa Rudenko
- Federal State Budgetary Scientific Institution “Institute of Experimental Medicine”, St. Petersburg 197022, Russia; (E.S.); (E.B.); (E.K.); (A.C.); (A.R.); (L.P.); (L.R.)
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Kiseleva I, Rekstin A, Al Farroukh M, Bazhenova E, Katelnikova A, Puchkova L, Rudenko L. Non-Mouse-Adapted H1N1pdm09 Virus as a Model for Influenza Research. Viruses 2020; 12:v12060590. [PMID: 32485821 PMCID: PMC7354452 DOI: 10.3390/v12060590] [Citation(s) in RCA: 9] [Impact Index Per Article: 2.3] [Reference Citation Analysis] [What about the content of this article? (0)] [Affiliation(s)] [Abstract] [Key Words] [MESH Headings] [Track Full Text] [Download PDF] [Figures] [Journal Information] [Subscribe] [Scholar Register] [Received: 04/30/2020] [Revised: 05/21/2020] [Accepted: 05/27/2020] [Indexed: 12/26/2022] Open
Abstract
The number of lung-adapted influenza viruses is limited. Most of them are not antigenically related to current circulating viruses. Viruses similar to recent strains are required for screening modern antiviral compounds and studying new vaccine candidates against novel influenza viruses. The process by which an influenza virus adapts to a new host is rather difficult. The aim of this study was to select a non-adapted current virus whose major biological properties correspond to those of classical lab-adapted viruses. Mice were inoculated intranasally with non-lung-adapted influenza viruses of subtype H1N1pdm09. They were monitored closely for body weight loss, mortality outcomes and gross pathology for 14 days following inoculation, as well as viral replication in lung tissue. Lung-adapted PR8 virus was used as a control. The tested viruses multiplied equally well in the lower respiratory tract of mice without prior adaptation but dramatically differed in lethality; the differences in their toxicity and pathogenicity in mice were established. A/South Africa/3626/2013 (H1N1)pdm09 virus was found to be an appropriate candidate to replace PR8 as a model virus for influenza research. No prior adaptation to the animal model is needed to reach the pathogenicity level of the classical mouse-adapted PR8 virus.
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Affiliation(s)
- Irina Kiseleva
- Department of Virology, Federal State Budgetary Scientific Institution “Institute of Experimental Medicine”, 197376 St Petersburg, Russia; (A.R.); (M.A.F.); (E.B.); (L.P.); (L.R.)
- Correspondence:
| | - Andrey Rekstin
- Department of Virology, Federal State Budgetary Scientific Institution “Institute of Experimental Medicine”, 197376 St Petersburg, Russia; (A.R.); (M.A.F.); (E.B.); (L.P.); (L.R.)
| | - Mohammad Al Farroukh
- Department of Virology, Federal State Budgetary Scientific Institution “Institute of Experimental Medicine”, 197376 St Petersburg, Russia; (A.R.); (M.A.F.); (E.B.); (L.P.); (L.R.)
| | - Ekaterina Bazhenova
- Department of Virology, Federal State Budgetary Scientific Institution “Institute of Experimental Medicine”, 197376 St Petersburg, Russia; (A.R.); (M.A.F.); (E.B.); (L.P.); (L.R.)
| | - Anastasia Katelnikova
- Department of Toxicology and Microbiology, Institute of Preclinical Research Ltd., 188663 St Petersburg, Russia;
| | - Ludmila Puchkova
- Department of Virology, Federal State Budgetary Scientific Institution “Institute of Experimental Medicine”, 197376 St Petersburg, Russia; (A.R.); (M.A.F.); (E.B.); (L.P.); (L.R.)
| | - Larisa Rudenko
- Department of Virology, Federal State Budgetary Scientific Institution “Institute of Experimental Medicine”, 197376 St Petersburg, Russia; (A.R.); (M.A.F.); (E.B.); (L.P.); (L.R.)
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Abstract
Multicopper blue proteins, composed of several repetitive copper-binding domains similar to one-domain cupredoxin-like proteins, were found in almost all organisms. They are classified into the three different groups, based on their two-, three- or six-domain organization. We found orthologs of chordate six-domain copper-binding proteins in animals, plants, bacteria and archea. The phylogenetic analysis of 183 multicopper blue proteins and their copper-binding sites comparison make us think that all the modern six-domain blue proteins have originated from the common ancestral six-domain protein in the process of gene duplication and copper-binding sites loss as a result of amino acid substitutions.
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Ilyechova E, Skvortsov A, Zatulovsky E, Tsymbalenko N, Shavlovsky M, Broggini M, Puchkova L. Experimental switching of copper status in laboratory rodents. J Trace Elem Med Biol 2011; 25:27-35. [PMID: 20965708 DOI: 10.1016/j.jtemb.2010.08.002] [Citation(s) in RCA: 11] [Impact Index Per Article: 0.8] [Reference Citation Analysis] [What about the content of this article? (0)] [Affiliation(s)] [Abstract] [MESH Headings] [Track Full Text] [Journal Information] [Submit a Manuscript] [Subscribe] [Scholar Register] [Received: 02/12/2010] [Accepted: 08/05/2010] [Indexed: 10/18/2022]
Abstract
There is an emerging link between copper metabolism, tumor growth and efficiency of antitumor treatment with platinum drugs or copper chelators. So there is an urgent need for well-defined and reproduced animal models with different states of copper metabolism. In the present study an animal model (rats and mice) with switching copper status in blood serum (copper concentration, oxidase activity and ceruloplasmin (Cp) protein content) is characterized. The drop of copper status is caused by addition of AgCl to fodder (Ag-animals). In rats and mice, the influence of silver ions on oxidase and ferroxidase activity of blood serum is similar, but copper concentration is reduced by 90% in rats, and by 60% in mice. The absorbed silver ions are transported to liver cells and included to Cp polypeptides, which are secreted to blood serum then. Cp, which circulates in bloodstream of Ag-animals contains silver atoms, and is misfolded, as judged by circular dichroism spectroscopy and differential scanning calorimetry. Single intraperitoneal or per oral injection of Cu(II) salt to Ag-animals causes recovery of oxidase and ferroxidase activity of blood serum within 4 hours in both rodent species, presumably by rapid metabolic insertion of copper into forming Cp in liver. The recovered copper status persists for 3 days under the continuing Ag-diet. The possibilities of use of Ag-rodents with switching copper status in investigation of influence of copper status on tissue-specific intracellular copper metabolism and role of copper in tumor genesis, bone metabolism and neurodegenerative diseases are discussed.
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Affiliation(s)
- Ekaterina Ilyechova
- Biophysics Department, St. Petersburg State Polytechnic University, Politekhnicheskaya str. 29, 195251 St-Petersburg, Russia
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Platonova N, Guolikhandanova N, Tsymbalenko N, Zhiguleva E, Zhivulko T, Vasin A, Evsukova I, Puchkova L. Milk ceruloplasmin is a valuable source of nutrient copper ions for mammalian newborns. J Trace Elem Med Biol 2007; 21:184-93. [PMID: 17697957 DOI: 10.1016/j.jtemb.2007.04.003] [Citation(s) in RCA: 9] [Impact Index Per Article: 0.5] [Reference Citation Analysis] [What about the content of this article? (0)] [Affiliation(s)] [Abstract] [MESH Headings] [Track Full Text] [Journal Information] [Submit a Manuscript] [Subscribe] [Scholar Register] [Received: 09/03/2005] [Accepted: 04/28/2007] [Indexed: 11/24/2022]
Abstract
This research focuses on the role of milk ceruloplasmin (Cp), the main extracellular copper-containing protein of vertebrates, as a source of copper for newborns. In the first part of the study, Cp concentration and Cp-associated copper were measured in human skimmed milk at the 1st and the 5th days postpartum. It was shown that most of the copper was associated with Cp and that the decrease in copper concentration during lactation was related to the drop of Cp levels. The following in vivo experiments demonstrated that milk [(125)I]Cp per os administered to 6-day-old rats (embryonic-type copper metabolism) was transported into their bloodstream. The electrophoretic mobility and relative molecular weight of [(125)I]Cp transferred through the cellular barrier remained unaltered. However, 22-day-old rats (adult-type copper metabolism) digested the administered milk [(125)I]Cp completely. In the final part of the study, newborn rats were fed with baby formula for 8d. It was found that these rats switched their copper metabolism from embryonic type to adult type earlier than their littermates fed by dams. Activation of Cp gene expression in the liver, increased Cp and copper concentrations in the blood, and reduced copper content of the liver were observed in the rats fed with baby formula. In the brain, no copper concentration change was observed, but Cp and copper concentrations were dramatically increased in the cerebrospinal fluid. The role of milk Cp as a source of copper adapted to embryonic-type copper metabolism is discussed.
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Affiliation(s)
- Natalia Platonova
- Department of Molecular Genetics, Research Institute for Experimental Medicine, Pavlov Str, 12, 197376 St Petersburg, Russian Federation
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Abstract
Using the most effective rapid method for the detection of restriction endonucleases (ENases) in microorganisms, 32 thermophilic producers have been isolated. All strains belong to the genus Bacillus. Thermostable isoschizomers of ENases, such as AvaI, BbvI, BbvII, BclI, BsaBI, BsiYI, BsrI, BstEII, BstNI, Cfr10I, ClaI, FspI, HaeIII, HpaII, Ksp632I and SfeI, were isolated.
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Affiliation(s)
- V E Repin
- State Research Center-ESP Vektor, Koltzovo, Novosibirsk region, Russia
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Abstract
The translation of total and individual brome mosaic virus (BMV) RNAs was examined in a wheat germ cell-free system in the presence of various inhibitors. Inhibitors of the initiation of polypeptide synthesis, e.g., potassium ions, 7-methylguanosine 5′ -monophosphate, and aurintricarboxylic acid, were shown not only to inhibit overall BMV protein synthesis but also to change the ratio of BMV polypeptides synthesized. Under conditions restrictive for initiation, the translation of nonstructural BMV genes was suppressed, but coat protein synthesis proceeded at a high rate. A similar discrimination among BMV messengers was exerted by a regulatory protein kinase isolated from wheat germ. These results suggest that the regulation of the expression of BMV genes is based on a difference in the mechanism of formation of initiation complexes for individual BMV messages.
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Affiliation(s)
- J Chroboczek
- Institute of Biochemistry and Biophysics, Polish Academy of Sciences, 02-532 Warsaw, Poland
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