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http://dx.doi.org/10.14405/kjvr.2018.58.1.9

Preliminary assessment of correlation between T-lymphocyte responses and control of porcine reproductive and respiratory syndrome virus (PRRSV) in piglets born after in-utero infection of a type 2 PRRSV  

Cha, Sang-Ho (Animal and Plant Quarantine Agency)
Bandaranayaka-Mudiyanselage, Carey (VMRD Inc.)
Bandaranayaka-Mudiyanselage, Chandima B. (VMRD Inc.)
Ajiththos, Dharani (Department of Veterinary Microbiology and Pathology, Washington State University)
Yoon, Kyoung-Jin (Department of Veterinary Diagnostic and Production Animal Medicine, College of Veterinary Medicine, Iowa State University)
Gibson, Kathleen A. (Department of Veterinary Diagnostic and Production Animal Medicine, College of Veterinary Medicine, Iowa State University)
Yu, Ji-Eun (Animal and Plant Quarantine Agency)
Cho, In-Soo (Animal and Plant Quarantine Agency)
Lee, Stephen S. (University of Idaho)
Chung, Chungwon J. (VMRD Inc.)
Publication Information
Korean Journal of Veterinary Research / v.58, no.1, 2018 , pp. 9-16 More about this Journal
Abstract
A preliminary study into the protective mechanisms of adaptive immunity against porcine reproductive and respiratory syndrome virus (PRRSV) in piglets (n = 9) born to a gilt challenged intranasally with a type-2 PRRSV. Immune parameters (neutralizing antibodies, $CD3^+CD4^+$, $CD3^+CD8^+$, $CD3^+CD4^+CD8^+$ T-lymphocytes, and PRRSV-specific interferon $(IFN)-{\gamma}$ secreting T-lymphocytes) were compared with infection parameters (macro- and microscopic lung lesion, and PRRSV-infected porcine alveolar macrophages ($CD172{\alpha}^+PRRSV-N^+\;PAM$) as well as with plasma and lymphoid tissue viral loads. Percentages of three T-lymphocyte phenotypes in 14-days post-birth (dpb) peripheral blood mononuclear cell (PBMC) had significant negative correlations with percentages of $CD172{\alpha}^+PRRSV-N^+\;PAM$ (p < 0.05) as well as with macroscopic lung lesion (p < 0.01). Plasma and tissue viral loads had significant (p < 0.05) negative correlations with $CD3^+CD4^+CD8^+$ T-lymphocyte percentage in PBMC. Frequencies of $CD3^+CD8^+$ and $CD3^+CD4^+$ T-lymphocytes in 14-dpb PBMC had significant negative correlations with of lymph node (p = 0.04) and lung (p = 0.002) viral loads. $IFN-{\gamma}$-secreting T-lymphocytes frequency had a significant negative correlation with gross lung lesion severity (p = 0.002). However, neutralizing antibody titers had no significant negative correlation (p > 0.1) with infection parameters. The results indicate that T-lymphocytes contribute to controlling PRRSV replication in young piglets born after in-utero infection.
Keywords
T-lymphocyte; neutralizing antibodies; porcine reproductive and respiratory syndrome virus;
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1 Botner A, Strandbygaard B, Sorensen KJ, Have P, Madsen KG, Madsen ES, Alexandersen S. Appearance of acute PRRS-like symptoms in sow herds after vaccination with a modified live PRRS vaccine. Vet Rec 1997, 141, 497-499.   DOI
2 Cano JP, Dee SA, Murtaugh MP, Trincado CA, Pijoan C. Effect of vaccination with a modified-live porcine reproductive and respiratory syndrome virus vaccine on dynamics of homologous viral infection in pigs. Am J Vet Res 2007, 68, 565-571.   DOI
3 Choi K, Lee J, Park C, Jeong J, Chae C. Comparison of the pathogenesis of single or dual infections with type 1 and type 2 porcine reproductive and respiratory syndrome virus. J Comp Pathol 2015, 152, 317-324.   DOI
4 Choi K, Park C, Jeong J, Chae C. Comparison of protection provided by type 1 and type 2 porcine reproductive and respiratory syndrome field viruses against homologous and heterologous challenge. Vet Microbiol 2016, 191, 72-81.   DOI
5 Chung CJ, Cha SH, Grimm AL, Chung G, Gibson KA, Yoon KJ, Parish SM, Ho CS, Lee SS. Recognition of highly diverse type-1 and -2 porcine reproductive and respiratory syndrome viruses (PRRSVs) by T-lymphocytes induced in pigs after experimental infection with a type-2 PRRSV strain. PLoS One 2016, 11, e0165450.   DOI
6 Chung C, Lee W, Loffredo, JT, Burwitz B, Friedrich TC, Giraldo Vela JP, Napoe G, Rakasz EG, Wilson NA, Allison DB, Watkins DI. Not all cytokine-producing $CD8^{+}$ T cells suppress simian immunodeficiency virus replication. J Virol 2007, 81, 1517-1523.   DOI
7 Collins JE, Benfield DA, Christianson WT, Harris L, Hennings JC, Shaw DP, Goyal SM, McCullough S, Morrison RB, Joo HS, Gorcyca D, Chladek D. Isolation of swine infertility and respiraoty syndrome virus (isolate ATCC VR-2332) in North America and experimental reproduction of the disease in gnotobiotic pigs. J Vet Diagn Invest 1992, 4, 117-126.   DOI
8 Costers S, Lefebvre DJ, Goddeeris B, Delputte PL, Nauwynck HJ. Functional impairment of PRRSV-specific peripheral $CD3^{+}CD^{8high}$ cells. Vet Res 2009, 40, 46.   DOI
9 Delputte PL, Nauwynck HJ. Porcine arterivirus infection of alveolar macrophages is mediated by sialic acid on the virus. J Virol 2004, 78, 8094-8101.   DOI
10 Done SH, Paton DJ. Porcine reproductive and respiratory syndrome: clinical disease, pathology and immunosuppression. Vet Rec 1995, 136, 32-35   DOI
11 Feng W, Laster SM, Tompkins M, Brown T, Xu JS, Altier C, Gomez W, Benfield D, McCaw MB. In utero infection by porcine reproductive and respiratory syndrome virus is sufficient to increase susceptibility of piglets to challenge by Streptococcus suis type II. J Virol 2001, 75, 4889-4895.   DOI
12 Halbur PG, Paul PS, Frey ML, Landgraf J, Eernisse K, Meng XJ, Lum MA, Andrews JJ, Rathje JA. Comparison of the pathogenicity of two US porcine reproductive and respiratory syndrome virus isolates with that of the Lelystad virus. Vet Pathol 1995, 32, 648-660.   DOI
13 Han K, Seo HW, Shin JH, Oh Y, Kang I, Park C, Chae C. Effect of the modified live porcine reproductive and respiratory syndrome virus (PRRSV) vaccine on European and North American PRRSV shedding in semen from infected boars. Clin Vaccine Immunol 2011, 18, 1600-1607.   DOI
14 Karniychuk UU, De Spiegelaere W, Nauwynck HJ. Porcine reproductive and respiratory syndrome virus infection is associated with an increased number of Sn-positive and CD8-positive cells in the maternal-fetal interface. Virus Res 2013, 176, 285-291.   DOI
15 Kim HS, Kwang J, Yoon IJ, Joo HS, Frey ML. Enhanced replication of porcine reproductive and respiratory syndrome (PRRS) virus in a homogeneous subpopulation of MA-104 cell line. Arch Virol 1993, 133, 477-483.   DOI
16 Kranker S, Nielsen J, Bille-Hansen V, Botner A. Experimental inoculation of swine at various stages of gestation with a Danish isolate of porcine reproductive and respiratory syndrome virus (PRRSV). Vet Microbiol 1998, 61, 21-31.   DOI
17 Lowe JE, Husmann R, Firkins LD, Zuckermann FA, Goldberg TL. Correlation of cell-mediated immunity against porcine reproductive and respiratory syndrome virus with protection against reproductive failure in sows during outbreaks of porcine reproductive and respiratory syndrome in commercial herds. J Am Vet Med Assoc 2005, 226, 1707-1711.   DOI
18 Li X, Galliher-Beckley A, Pappan L, Trible B, Kerrigan M, Beck A, Hesse R, Blecha F, Nietfeld JC, Rowland RR, Shi J. Comparison of host immune responses to homologous and heterologous type II porcine reproductive and respiratory syndrome virus (PRRSV) challenge in vaccinated and unvaccinated pigs. Biomed Res Int 2014, 2014, 416727.
19 Lohse L, Nielsen J, Eriksen L. Temporary $CD8^{+}$ T-cell depletion in pigs does not exacerbate infection with porcine reproductive and respiratory syndrome virus (PRRSV). Viral Immunol 2004, 17, 594-603.   DOI
20 Lopez Fuertes L, Domenech N, Alvarez B, Ezquerra A, Dominguez J, Castro JM, Alonso F. Analysis of cellular immune response in pigs recovered from porcine respiratory and reproductive syndrome infection. Virus Res 1999, 64, 33-42.   DOI
21 Meier WA, Husmann RJ, Schnitzlein WM, Osorio FA, Lunney JK, Zukermann FA. Cytokines and synthetic double-stranded RNA augment the T helper 1 immune response of swine to porcine reproductive and respiratory syndrome virus. Vet Immunol Immunopathol 2004, 102, 299-314.   DOI
22 Molina RM, Cha SH, Chittick W, Lawson S, Murtaugh MP, Nelson EA, Christopher-Hennings J, Yoon KJ, Evans R, Rowland RRR, Zimmerman JJ. Immune response against porcine reproductive and respiratory syndrome virus during acute and chronic infection. Vet Immunol Immunopathol 2008, 126, 283-292.   DOI
23 Murtaugh MP, Xiao Z, Zuckermann F. Immunological responses of swine to porcine reproductive and respiratory syndrome virus infection. Viral Immunol 2002, 15, 533-547.   DOI
24 Reed LJ, Muench H. A simple method of estimating fifty percent endpoints. Am J Hygiene 1938, 27, 493-497.
25 Nielsen HS, Oleksiewicz MB, Forsberg R, Stadejek T, Botner A, Storgaard T. Reversion of a live porcine reproductive and respiratory syndrome virus vaccine investigated by parallel mutations. J Gen Virol 2001, 82, 1263-1272.   DOI
26 Osorio FA, Galeota JA, Nelson E, Brodersen B, Doster A, Wills R, Zuckermann F, Laegreid WW. Passive transfer of virus-specific antibodies confers protection against reproductive failure induced by a virulent strain of porcine reproductive and respiratory syndrome virus and establishes sterilizing immunity. Virology 2002, 302, 9-20.   DOI
27 Park C, Seo HW, Kang I, Jeong J, Choi K, Chae C. A new modified live porcine reproductive and respiratory syndrome vaccine improves growth performance in pigs under field conditions. Clin. Vaccine Immunol 2014, 21, 1350-1356.   DOI
28 Rowland RRR. The interaction between PRRSV and the late gestation pig fetus. Virus Res 2010, 154, 114-122.   DOI
29 Thanawongnuwech R, Rungsipipat A, Disatian S, Saiyasombat R, Napakanaporn S, Halbur PG. Immunohistochemical staining of IFN-${\gamma}$ positive cells in porcine reproductive and respiratory syndrome virus-infected lungs. Vet Immunol Immunopathol 2003, 91, 73-77.   DOI
30 Thanawongnuwech R, Thacker EL. Interleukin-10, interleukin-12, and interferon-${\gamma}$ levels in the respiratory tract following Mycoplasma hyopneumoniae and PRRSV infection in pigs. Viral Immunol 2003, 16, 357-367.   DOI
31 Zuckermann FA, Martin S, Husmann RJ, Brandt J. Use of interleukin 12 to enhance the cellular immune response of swine to an inactivated herpesvirus vaccine. Adv Vet Med 1999, 41, 447-461.
32 Wensvoort G, Terpstra C, Pol JMA, ter Laak EA, Bloemraad M, de Kluyver EP, Kragten C, van Buiten L, den Besten A, Wagenaar F, Broekhuijsen JM, Moonen PLJM, Zetstra T, de Boer EA, Tibben HJ, de Jong MF, van 't Veld P, Greenland GJR, van Gennep JA, Voets MTh, Verheijden JHM, Braamskamp J. Mystery swine disease in The Netherlands: the isolation of Lelystad virus. Vet Q 1991, 13, 121-130.   DOI
33 Wu WH, Fang Y, Farwell R, Steffen-Bien M, Rowland RRR, Christopher-Hennings J, Nelson, EA. A 10-kDa structural protein of porcine reproductive and respiratory syndrome virus encoded by ORF2b. Virology 2001, 287, 183-191.   DOI
34 Xiao Z, Batista L, Dee S, Halbur P, Murtaugh MP. The level of virus-specific T-cell and macrophage recruitment in porcine reproductive and respiratory syndrome virus infection in pigs is independent of virus load. J Virol 2004, 78, 5923-5933.   DOI
35 Yoon IJ, Joo HS, Goyal SM, Molitor TW. A modified serum neutralization test for the detection of antibody to porcine reproductive and respiratory syndrome virus in swine sera. J Vet Diagn Invest 1994, 6, 289-292.   DOI
36 Zhang Q, Yoo D. PRRS virus receptors and their role for pathogenesis. Vet Microbiol 2015, 177, 229-241.   DOI