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Böttcher J, Bauer BU, Ambros C, Alex M, Domes U, Roth S, Boll K, Korneli M, Bogner KH, Randt A, Janowetz B. The immune response to a Coxiella burnetii vaccine in sheep varies according to their natural pre-exposure. Vaccine 2024; 42:1993-2003. [PMID: 38388237 DOI: 10.1016/j.vaccine.2024.02.048] [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] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 12/20/2023] [Revised: 02/02/2024] [Accepted: 02/14/2024] [Indexed: 02/24/2024]
Abstract
Q fever in humans is caused by Coxiella (C.) burnetii. In 2008 and 2012, cases of Q fever in humans were linked to an infected flock of approximately 650 ewes. Since 2013 gimmers (G'13, G'14, G'15 etc.) were primary vaccinated (two doses) with an inactivated C.burnetii vaccine without any revaccination. In 2013, 30 ewes were primary vaccinated (A'13). Shedding was annually monitored by qPCR-testing of vaginal and nasal swabs collected at lambing. Animals were tested for Phase I- (PhI) and PhII-antibodies (Ab) and for PhII-specific-interferon-γ (IFN-γ) before and after vaccination. The effect of a revaccination was determined in 2018 and 2023. Groups of randomly selected gimmers primary vaccinated in 2015, 2016 and 2017 and a mixed group of older animals (A'13, G'13 and G'14) were revaccinated once in 2018. The trial was repeated in 2023 on groups primary vaccinated in 2019-2023. Major shedding after the outbreak in 2012 ceased in 2014. Thereafter C.burnetii was only sporadically detected at low-level in 2018, 2021 and 2023. Sheep naturally exposed to C.burnetii during the outbreak in 2012 (A'13, G'13) mounted a strong and complete (PhI, PhII, IFN-γ) recall immune response after vaccination. A serological PhI+/PhII+ pattern dominated after vaccination. In contrast, since 2014 a weaker immune response (PhII-titre, IFN-γ) and a dominance of the PhI-/PhII+ pattern was observed in vaccinated gimmers. The number of serologically non-responding gimmers to vaccination increased to 25.0 % in G'16/G'17 and 40.4 % in G'19/G'20. But revaccination even three (G'15 in 2018) and four (G'19 in 2023) years after primary vaccination resulted in a strong and complete immune response. No difference of the immune response nor to more recently primary vaccinated animals (G'23 in 2023) nor to those animals that were present during the outbreak (A'13/G'13/G'14 in 2018) was observed.
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Affiliation(s)
- Jens Böttcher
- Animal Health Service, Bavaria, Senator-Gerauer-Str. 23, 85586 Poing, Germany.
| | - Benjamin U Bauer
- Animal Health Service, Bavaria, Senator-Gerauer-Str. 23, 85586 Poing, Germany
| | - Christina Ambros
- Animal Health Service, Bavaria, Senator-Gerauer-Str. 23, 85586 Poing, Germany
| | - Michaela Alex
- Animal Health Service, Bavaria, Senator-Gerauer-Str. 23, 85586 Poing, Germany
| | - Ursula Domes
- Animal Health Service, Bavaria, Senator-Gerauer-Str. 23, 85586 Poing, Germany
| | - Sabine Roth
- Staatl. Veterinäramt, Landratsamt Main-Spessart, Würzburger Str. 9 a, D-97753 Karlstadt, Germany
| | - Kerstin Boll
- Bavarian Health and Food Safety Authority, Eggenreuther Weg 43, 91058 Erlangen, Germany
| | - Martin Korneli
- Staatl. Veterinäramt, Landratsamt Main-Spessart, Würzburger Str. 9 a, D-97753 Karlstadt, Germany
| | - Karl-Heinz Bogner
- Bavarian Health and Food Safety Authority, Eggenreuther Weg 43, 91058 Erlangen, Germany
| | - Andreas Randt
- Animal Health Service, Bavaria, Senator-Gerauer-Str. 23, 85586 Poing, Germany
| | - Britta Janowetz
- Animal Health Service, Bavaria, Senator-Gerauer-Str. 23, 85586 Poing, Germany
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Böttcher J, Bauer BU, Ambros C, Alex M, Domes U, Roth S, Boll K, Korneli M, Bogner KH, Randt A, Janowetz B. Long-term control of Coxiellosis in sheep by annual primary vaccination of gimmers. Vaccine 2022; 40:5197-5206. [PMID: 35914960 DOI: 10.1016/j.vaccine.2022.07.029] [Citation(s) in RCA: 3] [Impact Index Per Article: 1.5] [Reference Citation Analysis] [What about the content of this article? (0)] [Affiliation(s)] [Abstract] [Key Words] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 05/25/2022] [Revised: 07/14/2022] [Accepted: 07/21/2022] [Indexed: 12/01/2022]
Abstract
Coxiella (C.) burnetii, a Gram-negative intracellular bacterium, causes Q fever in humans and Coxiellosis in animals. Ruminants are a primary source of human infection with C.burnetii. In 2013, vaccination was implemented in a sheep flock with 650 ewes associated with two outbreaks of Q fever in humans in 2008 and 2012. Only gimmers (yearlings) received two doses of a commercial C.burnetii phase I whole cell vaccine three weeks apart (primary vaccination) without any revaccination. Vaginal and nasal swabs collected shortly after lambing were tested by qPCR. Additionally, a group of non-vaccinated sentinels was serologically monitored for phase I (PhI), II (PhII) antibodies and for Interferon γ (IFN-γ) after stimulation of whole blood cells with PhII-antigen with and without an IL-10-neutralizing monoclonal antibody. In 2021, 679 sera collected in 2014-2021 were retested retrospectively with three commercial ELISA kits and one batch of an in-house PhI/PhII-ELISA. A low-level shedding of C.burnetii (<103 mean C.burnetii/swab) was observed until 2014. In 2021 C.burnetii was detected in two animals (<103.1C.burnetii/swab), but vaginal swabs collected at two subsequent lambing seasons remained negative. Seroconversion of sentinels was detected until 2017. However, the retrospective analysis of sentinels in 2021 revealed additional single seropositive animals from 2018 to 2021. IFN-γ reactivity was observed during the whole study period; it peaked in 2014 and in 2018 and decreased thereafter. The sporadic detection of C.burnetii and the immune responses of sentinels suggested that a subliminal infection persisted despite vaccination. Nevertheless, vaccination of gimmers prevented the development of a major outbreak, it controlled the infection and reduced the risk of human infection.
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Affiliation(s)
- Jens Böttcher
- Animal Health Service, Bavaria, Senator-Gerauer-Str. 23, 85586 Poing, Germany.
| | - Benjamin U Bauer
- Animal Health Service, Bavaria, Senator-Gerauer-Str. 23, 85586 Poing, Germany; Current address: University of Veterinary Medicine Hannover, Foundation, Clinic for Swine and Small Ruminants, Forensic Medicine and Ambulatory Service, Bischofsholer Damm 15, 30173 Hannover, Germany
| | - Christina Ambros
- Animal Health Service, Bavaria, Senator-Gerauer-Str. 23, 85586 Poing, Germany
| | - Michaela Alex
- Animal Health Service, Bavaria, Senator-Gerauer-Str. 23, 85586 Poing, Germany
| | - Ursula Domes
- Animal Health Service, Bavaria, Senator-Gerauer-Str. 23, 85586 Poing, Germany
| | - Sabine Roth
- Staatl. Veterinäramt, Landratsamt Main-Spessart, Würzburger Str. 9 a, D-97753 Karlstadt
| | - Kerstin Boll
- Bavarian Health and Food Safety Authority, Eggenreuther Weg 43, 91058 Erlangen, Germany
| | - Martin Korneli
- Staatl. Veterinäramt, Landratsamt Main-Spessart, Würzburger Str. 9 a, D-97753 Karlstadt
| | - Karl-Heinz Bogner
- Bavarian Health and Food Safety Authority, Eggenreuther Weg 43, 91058 Erlangen, Germany
| | - Andreas Randt
- Animal Health Service, Bavaria, Senator-Gerauer-Str. 23, 85586 Poing, Germany
| | - Britta Janowetz
- Animal Health Service, Bavaria, Senator-Gerauer-Str. 23, 85586 Poing, Germany
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Bauer BU, Răileanu C, Tauchmann O, Fischer S, Ambros C, Silaghi C, Ganter M. Anaplasma phagocytophilum and Anaplasma ovis-Emerging Pathogens in the German Sheep Population. Pathogens 2021; 10:1298. [PMID: 34684247 PMCID: PMC8537415 DOI: 10.3390/pathogens10101298] [Citation(s) in RCA: 4] [Impact Index Per Article: 1.3] [Reference Citation Analysis] [What about the content of this article? (0)] [Affiliation(s)] [Abstract] [Key Words] [Track Full Text] [Download PDF] [Figures] [Journal Information] [Subscribe] [Scholar Register] [Received: 08/11/2021] [Revised: 10/04/2021] [Accepted: 10/06/2021] [Indexed: 11/16/2022] Open
Abstract
Knowledge on the occurrence of pathogenic tick-borne bacteria Anaplasma phagocytophilum and Anaplasma ovis is scarce in sheep from Germany. In 2020, owners from five flocks reported ill thrift lambs and ewes with tick infestation. Out of 67 affected sheep, 55 animals were clinically examined and hematological values, blood chemistry and fecal examinations were performed to investigate the underlying disease causes. Serological tests (cELISA, IFAT) and qPCR were applied to all affected sheep to rule out A. phagocytophilum and A. ovis as a differential diagnosis. Ticks were collected from selected pastures and tested by qPCR. Most animals (n = 43) suffered from selenium deficiency and endoparasites were detected in each flock. Anaplasma spp. antibodies were determined in 59% of examined sheep. Seventeen animals tested positive for A. phagocytophilum by qPCR from all flocks and A. phagocytophilum was also detected in eight pools of Ixodes ricinus. Anaplasma phagocytophilum isolates from sheep and ticks were genotyped using three genes (16S rRNA, msp4 and groEL). Anaplasma ovis DNA was identified in six animals from one flock. Clinical, hematological and biochemical changes were not significantly associated with Anaplasma spp. infection. The 16S rRNA analysis revealed known variants of A. phagocytophilum, whereas the msp4 and groEL showed new genotypes. Further investigations are necessary to evaluate the dissemination and health impact of both pathogens in the German sheep population particularly in case of comorbidities.
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Affiliation(s)
- Benjamin Ulrich Bauer
- Clinic for Swine and Small Ruminants, Forensic Medicine and Ambulatory Service, University of Veterinary Medicine Hannover, Foundation, Bischofsholer Damm 15, 30173 Hannover, Germany;
| | - Cristian Răileanu
- Institute of Infectiology, Friedrich-Loeffler-Institut, Suedufer 10, 17493 Greifswald Isle of Riems, Germany; (C.R.); (O.T.); (S.F.); (C.S.)
| | - Oliver Tauchmann
- Institute of Infectiology, Friedrich-Loeffler-Institut, Suedufer 10, 17493 Greifswald Isle of Riems, Germany; (C.R.); (O.T.); (S.F.); (C.S.)
| | - Susanne Fischer
- Institute of Infectiology, Friedrich-Loeffler-Institut, Suedufer 10, 17493 Greifswald Isle of Riems, Germany; (C.R.); (O.T.); (S.F.); (C.S.)
| | - Christina Ambros
- Sheep Health Service, Bavarian Animal Health Service, Senator-Gerauer-Straße 23, 85586 Poing-Grub, Germany;
| | - Cornelia Silaghi
- Institute of Infectiology, Friedrich-Loeffler-Institut, Suedufer 10, 17493 Greifswald Isle of Riems, Germany; (C.R.); (O.T.); (S.F.); (C.S.)
- Faculty of Mathematics and Natural Sciences, University of Greifswald, Domstraße 11, 17489 Greifswald, Germany
| | - Martin Ganter
- Clinic for Swine and Small Ruminants, Forensic Medicine and Ambulatory Service, University of Veterinary Medicine Hannover, Foundation, Bischofsholer Damm 15, 30173 Hannover, Germany;
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Torner H, Ghanem N, Ambros C, Hölker M, Tomek W, Phatsara C, Alm H, Sirard MA, Kanitz W, Schellander K, Tesfaye D. Molecular and subcellular characterisation of oocytes screened for their developmental competence based on glucose-6-phosphate dehydrogenase activity. Reproduction 2008; 135:197-212. [PMID: 18239049 DOI: 10.1530/rep-07-0348] [Citation(s) in RCA: 79] [Impact Index Per Article: 4.9] [Reference Citation Analysis] [What about the content of this article? (0)] [Affiliation(s)] [Abstract] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Indexed: 11/08/2022]
Abstract
Oocyte selection based on glucose-6-phosphate dehydrogenase (G6PDH) activity has been successfully used to differentiate between competent and incompetent bovine oocytes. However, the intrinsic molecular and subcellular characteristics of these oocytes have not yet been investigated. Here, we aim to identify molecular and functional markers associated with oocyte developmental potential when selected based on G6PDH activity. Immature compact cumulus-oocyte complexes were stained with brilliant cresyl blue (BCB) for 90 min. Based on their colouration, oocytes were divided into BCB(-) (colourless cytoplasm, high G6PDH activity) and BCB(+) (coloured cytoplasm, low G6PDH activity). The chromatin configuration of the nucleus and the mitochondrial activity of oocytes were determined by fluorescence labelling and photometric measurement. The abundance and phosphorylation pattern of protein kinases Akt and MAP were estimated by Western blot analysis. A bovine cDNA microarray was used to analyse the gene expression profiles of BCB(+) and BCB(-) oocytes. Consequently, marked differences were found in blastocyst rate at day 8 between BCB(+) (33.1+/-3.1%) and BCB(-) (12.1+/-1.5%) oocytes. Moreover, BCB(+) oocytes were found to show higher phosphorylation levels of Akt and MAP kinases and are enriched with genes regulating transcription (SMARCA5), cell cycle (nuclear autoantigenic sperm protein, NASP) and protein biosynthesis (RPS274A and mRNA for elongation factor 1alpha, EF1A). BCB(-) oocytes, which revealed higher mitochondrial activity and still nucleoli in their germinal vesicles, were enriched with genes involved in ATP synthesis (ATP5A1), mitochondrial electron transport (FL405), calcium ion binding (S100A10) and growth factor activity (bone morphogenetic protein 15, BMP15). This study has evidenced molecular and subcellular organisational differences of oocytes with different G6PDH activity.
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Affiliation(s)
- Helmut Torner
- Department of Animal Breeding and Husbandry, Institute of Animal Science, University of Bonn, Endenicher allee 15, 53115 Bonn, Germany
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Torner H, Ghanem N, Ambros C, Hoelker M, Tomek W, Phatsara C, Alm H, Kanitz W, Sirard MA, Schellander K, Tesfaye D. 254 MOLECULAR AND SUBCELLULAR CHARACTERIZATION OF OOCYTES SCREENED FOR THEIR DEVELOPMENTAL COMPETENCE BASED ON G6PDH ACTIVITY. Reprod Fertil Dev 2008. [DOI: 10.1071/rdv20n1ab254] [Citation(s) in RCA: 0] [Impact Index Per Article: 0] [Reference Citation Analysis] [What about the content of this article? (0)] [Abstract] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Indexed: 11/23/2022] Open
Abstract
Oocyte selection based on glucose-6-phosphate dehydrogenase (G6PDH) activity has been successfully used to differentiate between competent and incompetent bovine oocytes (Alm 2005 Theriogenology 63, 2194–2205). However, the intrinsic molecular and subcellular characteristics of these oocytes have not yet been investigated. Here we aim to compare the developmental, molecular, and subcellular characteristics of oocytes selected using brilliant cresyl blue (BCB) staining based on G6PDH activity. Immature compact cumulus–oocyte complexes (COCs) were stained with 26 µm BCB (B-5388, Sigma-Alderich, Taufenkirchen, Germany) for 90 min. Based on their coloration, oocytes were divided into BCB– (colorless cytoplasm, high G6PDH activity) and BCB+ (colored cytoplasm, low G6PDH activity). The chromatin configuration and the mitochondrial activity of oocytes were determined by fluorescence labelling and photometric measurement (n = 337). The abundance and phosphorylation pattern of protein kinases Akt and MAP kinase were estimated by western blot analysis (n = 500). A bovine cDNA microarray with 2000 clones was used to analyze the gene expression profiles of BCB+ and BCB– oocytes (n = 580). BCB+ oocytes were found to result in a higher blastocyst rate (33.1 � 3.1%) until Day 8 of in vitro culture compared to BCB– ones (12.1 � 1.5%). Moreover, BCB+ oocytes showed higher phosphorylation levels of Akt and MAP kinase compared to the BCB– oocytes. After array data analysis, BCB+ oocytes were found to be enriched with genes regulating transcription (SMARCA5), cell cycle (NASP), and protein biosynthesis (RPS274A and EEF1A1), while the BCB– oocytes had a higher level of genes involved in ATP synthesis (ATP5A1), mitochondrial electron transport (FL405), calcium ion binding (S100A10), and growth factor activity (BMP-15). Independent real-time quantitative PCR validated 90% (9/10) of the genes investigated to be in agreement with the array expression profile. The study has shown evidence of differences in molecular and subcellular organization of oocytes with different G6PDH activity.
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