PROTEINOGRAMA DE OVEJAS AFECTADAS POR CASOS NATURALES DE TOXEMIA DE LA PRENHEZ

Autores/as

  • Alexandre Tadeu Mota Macedo
  • Rodolfo José Cavalcanti Souto
  • Carla Lopes Mendonça
  • José Jurandir Fagliari
  • Paulo César Silva
  • Pierre Castro Soares
  • José Augusto Bastos Afonso

Palabras clave:

Rumiantes clínica, transtorno metabólico, electroforesis, las ovejas, las proteínas de fase aguda.

Resumen

Los estudios sobre la toxemia de la prenhez (TP) en ovejas han sido constantes y
inovadoradores en algunos conceptos, pero no hay estudios en Brasil sobre las
concentraciones de proteína de casos clínicos naturales de la enfermedad en esta especie. Por
lo tanto, el objetivo de este estudio fue evaluar las concentraciones de proteína en sangre de
casos clínicos naturales de TP en ovejas y comparar los resultados de acuerdo a la presencia
sólo de TP y TP con enfermedades infecciosas intercurrentes. Evaluamos 35 ovejas se
reunieron en la Clínica Bovina, Campus Garanhuns/UFRPE diagnosticado con TP en el
período de 2007 a 2013. Los animales fueron sometidos a un examen clínico y ultrasonido,
seguida de la recogida de sangre y orina para análisis de laboratorio. Todos los animales
mostraron síntomas clínicos compatibles con un marco de TP. Los niveles séricos de betahidroxibutirato (BHB) y ácidos grasos no esterificados (NEFA) que se encuentran a ser altos
en todas las ovejas. Cortisol sérico y la glucosa también eran altas, mientras que la insulina
reducida, además, todos los animales mostraron cetonuria. Entre las ovejas 35 evaluados, 25
manifestaron sólo el marco TP (G1), y 10 más allá de la TP también tenía otras enfermedades
infecciosas concomitantes (G2). En proteinograma, hubo un aumento en la haptoglobina
sérica, glucoproteína α1-ácido y transferrina en ambos grupos experimentales. Por lo tanto,
llegamos a la conclusión de que el trastorno metabólico grave complejidad, provocada por TP
en ovejas provoca una respuesta de fase aguda, independientemente de si los animales
muestran enfermedades infecciosas intercurrentes.

Citas

Marteniuk JV, Herdt TH. Pregnancy toxemia and ketosis of ewes and does. Vet. Clin. North Am., Food Anim. Pract. 1988; 4(2):307-315.

Schild AL. Cetose. In: Riet-Correa F, Schild, AL, Lemos RAA, Borges JR. Doenças de ruminantes e eqüideos. 3ª ed. Santa Maria: Editora Pallotti, 2007. cap. 4, p. 281-289.

Smith MC, Sherman D. Goat medicine. 2nd ed. Lea and Febiger, Philadelphia; 2009.

Campos AGS, Afonso JAB, Santos RA, Mendonça CL, Guimarães JA. 2010. Estudo clínico-laboratorial da toxemia da prenhez em ovelhas: análise retrospectiva. Ciênc. Anim. Bras. 2010; 11(3):623-628.

CBG – Clínica de Bovinos, Campus Garanhuns da Universidade Federal Rural de Pernambuco. Livro de registro dos animais atendidos, ano 2008.

Pugh DG. Clínica de ovinos e caprinos. 1ª Ed.São Paulo: Roca; 2005.

Santos FCO, Mendonça CL, Silva Filho AP, Carvalho CCD, Soares PC, Afonso JAB. 2011. Indicadores bioquímicos e hormonais de casos naturais de toxemia da prenhez em ovelhas. Pesq Vet Bras. 2011; 31(11):974-980.

Souto RJC, Afonso JAB, Mendonça CL, Carvalho CCD, Filho APS, Cajueiro JFP, Lima EHF, Soares PC. Achados bioquímicos, eletrolíticos e hormonais de cabras acometidas com toxemia da prenhez. Pesq. Vet. Bras. 2013; 33(10):1174-1182.

Kronfeld DS. Ketosis in pregnancy sheep and lactating in ewes: A review. Aust. Vet. J. 1972; 48:301-307.

Andrews A. Pregnancy toxaemia in the ewe. In Practice. 1997; 19:306-312.

Corrêa MN, González FHD, Silva SC. Transtornos metabólicos nos animais domésticos. Editora e Gráfica Universitária PREC-UFPel; 2010.

Hefnawy AE, Shousha S, Youssef S. Hematobiochemical profile of pregnant and experimentally pregnancy toxemic goats. Journal of Basic and Applied Chemistry. Egypt. 2011; 1: 65-69.

González FHD, Hernández F, Madrid J, Martínez–Subiela S, Tvarijonaviciute A, Céron JJ, Tecles F. Acute phase proteins in experimentally induced pregnancy toxemia in goats. Journal Veterinary of Diagnostic Investigation. 2011; 23: 57-62.

Jain NC. Essentials of veterinary hematology. Philadelphia: Lea & Febinger; 1993.

Murata H, Shimada N, Yoshioka M. Current research on acute phase proteins in veterinary diagnosis: an overview. The Veterinary Journal, London. 2044;168: 28-40.

Murata H. Stress and acute phase protein response: an inconspicuous but essential linkage. The Veterinary Journal, London. 2007; 173: 473-474.

Diegnan T, Alwan A, Kelly J, McNair J, Warren T, O’farrelly, C. Serum haptoglobin: an objective indicator of experimentally-induced Salmonella infection in calves. Research in Veterinary Science. 2000; 69: 153-158.

Radostits OM, Gay CC, Hinchcliff KW, Constable PD. Veterinary medicine: A textbook of the diseases of cattle, horses, sheep, pigs and goats. 10th ed. W.B. Saunders, Edinburgh; 2007.

Kaneko JJ, Harvey JW, Bruss ML. Clinical biochemistry of domestic animals. 6th ed. Academic Press, San Diego; 2008.

Laemmli UK. Cleavage of structural proteins during the assembly of the head of bacteriophage T4. Nature. 1970; 227:680-685.

Fagliari JJ, Silva SL. Hemograma e proteinograma plasmático de eqüinos hígidos e de eqüinos acometidos por abdômem agudo antes e após laparotomia. Arq. Bras. Med. Vet. Zootec. 2002; 54(6):559-586.

Dirksen G, Grunder HD, Stober M. Rosenberger: Exame clinico dos bovinos. 3ª ed Guanabara Koogan, Rio de Janeiro; 1993.

Curi PR. Metodologia e análise da pesquisa em ciências biológicas. Tipomic, Botucatu; 1997.

Carvalho CCD. Indicadores preditivos para o diagnóstico e controle da toxemia da prenhez em ovelhas [Tese]. Recife: Universidade Federal Rural de Pernambuco; 2013.

Costa NA, Simão LCV, Santos RA, Afonso JAB, Fagliari JJ, Cardoso EC, Soares PC, Mendonça, CL. Proteinograma e teores de cobre, ferro e zinco no soro de ovelhas da raça Santa Inês com mastite experimental por Staphylococcus aureus. Pesquisa Veterinária Brasileira, Rio de Janeiro. 2010; 30: 435-442.

Lemos VF. Proteinograma do soro sanguíneo e lácteo de ovelhas da raça Santa Inês em diferentes fases da lactação [Dissertação]. Recife: Universidade Federal Rural de Pernambuco; 2011.

Campos AGS. Estudo hematológico e proteinograma sanguíneo e do colostro de ovelhas suplementadas com propilenoglicol e com cobalto associado à vitamina b12 e de suas respectivas crias [Tese]. Recife: Universidade Federal Rural de Pernambuco; 2014.

Bruére NA, West DM. The sheep: health, disease and production. Massey University, Palmerston North, New Zealand; 1993.

Rook JS. Pregnancy toxemia of ewes, does and beef cows. Vet. Clin. North. Am. Food Anim. Pract. 2000; 16(2): 293-317.

Ametaj BN. A new understanding of the causes of fatty liver in dairy cows. Advances in Dairy Technology. 2005; 17: 97-112.

El-Deeb WM. Novel biomarkers for Pregnancy Toxemia in Ewes: Acute Phase Proteins and Pro-inflammatory Cytokines. Open Access Scientific Reports. 2012; 1: 243.

Yoshino K, Katoh N, Takahashi K, Yuasa A. Possible involvement of protein kinase C with induction of haptoglobin in cows by treatment with dexamethasone and by starvation. Am J Vet Med Sci. 1993; 64: 51-55.

Eckersall PD, Bell R. Biomarkers of infection and inflammation in veterinary medicine. The Veterinary Journal, London. 2010; 185: 23-27.

Gatzka C, Bremerich D, Kaufmann M, Ahr A. Isolated decrease in haptoglobin during pregnancy: diagnosis by chance or pathological? Zentralblatt fur Gynakologie. 2002; 124: 120-122.

Sordillo LM, Contreras GA, Aitken SL. Metabolic factors affecting the inflammatory response of periparturient dairy cows. Animal Health Research Review. 2009; 10: 53-63.

Yaqoob P, Calder PC. Fatty acids and immune functions: new insights into mechanisms. British Journal of Nutrition. 2007; 98: 41-45.

Tothova C, Nagy O, Kovac G. Acute phase proteins and their use in the diagnosis of diseases in ruminants: a review. Veterinarni Medicina. 2014; 4: 163–180.

Tothova CS, Nagy O, Kovac G. Changes in the concentrations of selected acute phase proteins and variables of energetic profile in dairy cows after parturition. Journal of Applied Animal Science. 2013. Doi: 10.1080/09712119.2013.842485.

Bernabucci U, Ronchi B, Lacetera N, Nardone A. Influence of body condition score on relationships between metabolic status and oxidative stress in periparturient dairy cows. Journal of Dairy Science. 2005; 88: 2017-2026.

Bastos BL. Cinética das proteínas de fase aguda durante a gestação e pós-parto de ovelhas da raça Santa Inês como ferramenta auxiliar no monitoramento da saúde gestacional [Dissertação]. Bahia: Escola de Medicina Veterinária, Universidade Federal da Bahia; 2008.

Azib DM, Taha MB. Effect of dystocias on serum haptoglobin in Awassi ewes. Theriogenology. 1997; 48: 559-562.

Akoum A, Lemay A, Brunet C, Hebert J. Cytokine-induced secretion of monocyte chemotactic protein-1 by human endometriotic cells in culture. The Group d`Investigation en Ginecologie. Am J Obstet Gynecol. 1995; 172: 594-600.

Redman CW, Sargent IL. Latest advances in understanding preeclampsia. Science. 2005; 308: 1592-1594.

Sacks G, Sargent I, Redman C. In innate view of human pregnancy. Immunology Today. 1999; 20:114-118.

Sargent IL, Germain SJ, Sacks GP, Kumar S, Redman CW. Trophoblast deportation and the maternal inflammatory response in pre-eclampsia. J Reprod Immunol. 2003; 59: 153-160.

Benyo DF, Miles TM, Conrad KP. Hypoxia stimulates cytokine production by villous explants from the human placenta. J Clin Endocrinol and Metab. 1997; 82: 1582-1588.

Berkova N, Lemay A, Dresser DW, Fontaine J, Kerizit J, Goupil, S. Haptoglobin is present in human endometrium and shows elevated levels in the decídua during pregnancy. Molecular Human Reproduction. 2001; 7:747-754.

Fournier T, Medjoubi N, Porquet D. Alpha-1 Acid glycoprotein. Biochimica et Biophysica Acta. 2000; 1482: 157-171.

Hochepied T, Berger FG, Baumann, H.; Libert, C. a1-Acid glycoprotein: an acute phase protein with inflammatory and immunomodulating properties. Cytokine Growth Factor Review. 2003; 14: 25-34.

Saut JPE, Souza RM, Birgel DB, Pogliani FC, Cavalcante CZ, Miyashiro SI, Fagliari JJ, Júnior EHB. Influência do puerpério sobre o proteinograma sérico de caprinos da raça Saanen obtido por eletroforese em gel de poliacrilamida. Semina: Ciências Agrárias. 2009; 30 (3): 661-670.

Sheldon, IM, Noakes DE, Rycroft H, Dobson H. Acute phase protein responses to uterine bacterial contamination in cattle after calving. Veterinary Record, London. 2001; 148 (6): 172-175.

Tizard IR. Imunologia veterinária – uma introdução. 6 ªed. Roca: São Paulo; 2002.

Wick M, Pinggera W, Lehmann P. Ferritin im Eisenstoffwechsel – Diagnostische Strategien. Springer Verlag, Wien, New York; 1991.

Weinberg ED. Iron withholding: a defense against infection and neoplasia. Physiological Reviews, Baltimore. 1984; 64 (1): 65-102.

De Jong G, Van Dijk, JP, Van Eijk, HG. The biology of transferrin. Clínica Chimica Acta, Amsterdam. 1990; 190:1-46.

Eckersall PD. Proteins, Proteomics, and the Dysproteinemia, In: Kaneko JJ, Harvey JW, Bruss ML. Clinical biochemistry of domestic animals, 6ªed. San Diego: Academic Press, 2008. p. 117-155.

Moser M, Pfister H, Bruckmaier RM. Blood serum transferrin concentration in cattle in various physiological states, in veal calves fed different amounts of iron, and in cattle affected by infectious and non-infectious diseases. Zentralbl Veterinarmed A. 1994; 41:413-420.

Rocha TG. Eletroforetograma das proteínas do soro lácteo de vacas canchim primíparas e pluríparas. In: Anais do 8º Congresso Brasileiro de Buiatria; 2009. Belo Horizonte: Ciência Animal Brasileira; 2009. Suplemento 1.

Lacetera N, Bernabucci U, Ronchi B, Nardone A. Effects of subclinical pregnancy toxemia on immune responses in sheep. American Journal of Veterinarian Research. 2001; 62(7): 1020-1024.

Hefnawy AE, Youssef S, Shousha S. Some immunohormonal changes in experimentally pregnant toxemic goats. Veterinary Medicine International; 2010.

Sartorelli P, Paltrinieri S, Agnes F. Non-specific immunity and ketone bodies. I: in vitro studies on chemotaxis and phagocytosis in ovine neutrophils. Journal of Veterinary Medicine. 1999; 46(10): 613-619.

Ropstad E, Larsen HJ, Refsdal AO. Immune function in dairy cows related to energy balance and metabolic status in early lactation. Acta Veterinaria Scandinavica. 1989; 30(2): 209-219.

Cole DJ, Roussel AJ, Whitney MS. Interpreting a bovine CBC: evaluating the leukon and acute-phase proteins. The Veterinary Clinics of North America – Food Animal Practice, Philadelphia. 1997; 92(5):v470-478.

Borges NC, Vieira D, Silva LAF, Fioravanti MCS. Valores leucocitários e nível de fibrinogênio plasmático de bovinos com pododermatite. Ciência Animal Brasileira, Goiânia. 2006; 7(1): 97-102.

Cantley CEL, Ford CM, Heath MF. Serum fructosamine in ovine pregnancy toxaemia: A possible prognostic index. Vet. Rec. 1991; 128(6):525-526.

Andrews AH, Holland-Howes VE, Wilkinson JID. Naturally occurring pregnancy toxaemia in the ewe and treatment with recombinant bovine somatotropin. Small Rum. Res. 1996; 23:191-197.

Van Saun RJ. Pregnancy toxemia in a flock of sheep. J. Am. Vet. Med. Assoc. 2000; 21(10):1536-1539.

Yarin GF, Ciftci G. Serum pattern in ewe with pregnancy toxemia. Vet. Res. Commun. 2009; 33:431-438.

González F, Muiño R, Pereira V, Campos R, Castellote JLB. Indicadores sanguíneos de lipomobilização e função hepática no início da lactação em vacas leiteiras de alta produção. Anais do 8ª Congresso Brasileiro de Buiatria; 2009. Belo Horizonte: Ciênc. Anim. Bras.; 2009. 1:64-69.

Aldred AR, Schreiber G. The negative acute phase protein. In: Mackiewicz I, Kushner I, Baumann H (eds.): Acute Phase Proteins. Molecular Biology, Biochemistry, and Clinical Applications. CRC Press, Boca Raton, Florida. 1993; 21–37.

Gabay C, Kushner I. Acute-phase proteins and other systemic responses to inflammation. The New England Journal of Medicine. 1999; 340(6): 448-454.

Kincaid RL, White CL. The effects of ammonium tetrathiomolybdate intake of tissue copper and molybdenum in pregnant ewes and lambs. Journal of Animal Science. 1988; 66: 3252-3258.

Chassagne M, Barnouin J, Chacornac JP. 1998. Biological predictors of early clinical mastitis occurence in Holstein cows under field conditions in France. Preventive Veterinary Medicine. 1998; 35: 29-38.

Fagliari JJ, Weiss DJ, Mcclenanhan D, Evanson OA. Serum protein concentrations in calves with experimentally induced pneumonic pasteurellosis. Arquivo Brasileiro de Medicina Veterinaria e Zootecnia. 2003; 55: 4.

Nonnecke BJ, Franklin ST, Young JW. Effects of ketones, acetate, and glucose on in vitro immunoglobulin secretion by bovine lymphocytes. Journal of Dairy Science. 1992; 75(4): 982-990, 1992.

Kaneko JJ, Harvey JW, Bruss ML. Clinical Biochemistry of Domestic Animals. 5ªed. New York: Academic Press; 1997.

Janciauskiene SM, Bals R, Koczulla R, Vogelmeier C, Köhnlein T, Welte T. 2011. The discovery of α1antitrypsin and its role in health and disease. Respiratory Medicine. 2011; 105: 1129-1139.

Descargas

Publicado

2022-01-24

Cómo citar

1.
Macedo ATM, Souto RJC, Mendonça CL, Fagliari JJ, Silva PC, Soares PC, Afonso JAB. PROTEINOGRAMA DE OVEJAS AFECTADAS POR CASOS NATURALES DE TOXEMIA DE LA PRENHEZ. RVZ [Internet]. 24 de enero de 2022 [citado 12 de mayo de 2024];24(1):159-73. Disponible en: https://rvz.emnuvens.com.br/rvz/article/view/712

Número

Vol. 24 Núm. 1 (2017)

Sección

Artículos Originales

Licencia

Licença Creative Commons
Este obra está licenciado com uma Licença Creative Commons Atribuição-NãoComercial 4.0 Internacional.

Artículos más leídos del mismo autor/a