Cloning Changes the Response to Obesity of Innate Immune Factors in Blood, Liver, and Adipose Tissues in Domestic Pigs

Overview

Journal Cell Reprogram

Date 2013 May 15

PMID 23668862

Citations 1

Authors

Tina Rodgaard

Kerstin Skovgaard

Jan Stagsted

Peter M H Heegaard

Affiliations

Soon will be listed here.

Abstract

The objective of this study was to evaluate the usefulness of cloned pigs as porcine obesity models reflecting obesity-associated changes in innate immune factor gene expression profiles. Liver and adipose tissue expression of 43 innate immune genes as well as serum concentrations of six immune factors were analyzed in lean and diet-induced obese cloned domestic pigs and compared to normal domestic pigs (obese and lean). The number of genes affected by obesity was lower in cloned animals than in control animals. All genes affected by obesity in adipose tissues of clones were downregulated; both upregulation and downregulation were observed in the controls. Cloning resulted in a less differentiated adipose tissue expression pattern. Finally, the serum concentrations of two acute-phase proteins (APPs), haptoglobin (HP) and orosomucoid (ORM), were increased in obese clones as compared to obese controls as well as lean clones and controls. Generally, the variation in phenotype between individual pigs was not reduced in cloned siblings as compared to normal siblings. Therefore, we conclude that cloning limits both the number of genes responding to obesity as well as the degree of tissue-differentiated gene expression, concomitantly with an increase in APP serum concentrations only seen in cloned, obese pigs. This may suggest that the APP response seen in obese, cloned pigs is a consequence of the characteristic skewed gene response to obesity in cloned pigs, as described in this work. This should be taken into consideration when using cloned animals as models for innate responses to obesity.

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References

Park M, Cho S, Lee S, Choi Y, Park J, Kwon D . A rare and often unrecognized cerebromeningitis and hemodynamic disorder: a major cause of sudden death in somatic cell cloned piglets. Proteomics. 2005; 5(7):1928-39. DOI: 10.1002/pmic.200401079. View

Hotamisligil G . Inflammation and metabolic disorders. Nature. 2006; 444(7121):860-7. DOI: 10.1038/nature05485. View

Alfadda A, Fatma S, Chishti M, Al-Naami M, Elawad R, Mendoza C . Orosomucoid serum concentrations and fat depot-specific mRNA and protein expression in humans. Mol Cells. 2011; 33(1):35-41. PMC: 3887744. DOI: 10.1007/s10059-012-2181-9. View

Hwang K, Cho S, Lee S, Park J, Kwon D, Choi Y . Depigmentation of skin and hair color in the somatic cell cloned pig. Dev Dyn. 2009; 238(7):1701-8. DOI: 10.1002/dvdy.21986. View

Whitworth K, Li R, Spate L, Wax D, Rieke A, Whyte J . Method of oocyte activation affects cloning efficiency in pigs. Mol Reprod Dev. 2008; 76(5):490-500. DOI: 10.1002/mrd.20987. View

Litten-Brown J, Corson A, Clarke L . Porcine models for the metabolic syndrome, digestive and bone disorders: a general overview. Animal. 2012; 4(6):899-920. DOI: 10.1017/S1751731110000200. View

Skovgaard K, Mortensen S, Boye M, Poulsen K, Campbell F, Eckersall P . Rapid and widely disseminated acute phase protein response after experimental bacterial infection of pigs. Vet Res. 2009; 40(3):23. PMC: 2695040. DOI: 10.1051/vetres/2009006. View

Carter D, Lai L, Park K, Samuel M, Lattimer J, Jordan K . Phenotyping of transgenic cloned piglets. Cloning Stem Cells. 2002; 4(2):131-45. DOI: 10.1089/153623002320253319. View

Renard J, Chastant S, Chesne P, Richard C, Marchal J, Cordonnier N . Lymphoid hypoplasia and somatic cloning. Lancet. 1999; 353(9163):1489-91. DOI: 10.1016/S0140-6736(98)12173-6. View

10.

Federico A, DAiuto E, Borriello F, Barra G, Gravina A, Romano M . Fat: a matter of disturbance for the immune system. World J Gastroenterol. 2010; 16(38):4762-72. PMC: 2955245. DOI: 10.3748/wjg.v16.i38.4762. View

11.

Fain J, Madan A, Hiler M, Cheema P, Bahouth S . Comparison of the release of adipokines by adipose tissue, adipose tissue matrix, and adipocytes from visceral and subcutaneous abdominal adipose tissues of obese humans. Endocrinology. 2004; 145(5):2273-82. DOI: 10.1210/en.2003-1336. View

12.

Gil A, Aguilera C, Gil-Campos M, Canete R . Altered signalling and gene expression associated with the immune system and the inflammatory response in obesity. Br J Nutr. 2007; 98 Suppl 1:S121-6. DOI: 10.1017/S0007114507838050. View

13.

Vandesompele J, De Preter K, Pattyn F, Poppe B, Van Roy N, De Paepe A . Accurate normalization of real-time quantitative RT-PCR data by geometric averaging of multiple internal control genes. Genome Biol. 2002; 3(7):RESEARCH0034. PMC: 126239. DOI: 10.1186/gb-2002-3-7-research0034. View

14.

Mendall M, Patel P, Asante M, Ballam L, Morris J, Strachan D . Relation of serum cytokine concentrations to cardiovascular risk factors and coronary heart disease. Heart. 1997; 78(3):273-7. PMC: 484930. DOI: 10.1136/hrt.78.3.273. View

15.

Tataranni P, Ortega E . A burning question: does an adipokine-induced activation of the immune system mediate the effect of overnutrition on type 2 diabetes?. Diabetes. 2005; 54(4):917-27. DOI: 10.2337/diabetes.54.4.917. View

16.

Keefer C, Baldassarre H, Keyston R, Wang B, Bhatia B, Bilodeau A . Generation of dwarf goat (Capra hircus) clones following nuclear transfer with transfected and nontransfected fetal fibroblasts and in vitro-matured oocytes. Biol Reprod. 2001; 64(3):849-56. DOI: 10.1095/biolreprod64.3.849. View

17.

Kragh P, Vajta G, Corydon T, Purup S, Bolund L, Callesen H . Production of transgenic porcine blastocysts by hand-made cloning. Reprod Fertil Dev. 2004; 16(3):315-8. DOI: 10.10371/RD04007. View

18.

Schmidt M, Kragh P, Li J, Du Y, Lin L, Liu Y . Pregnancies and piglets from large white sow recipients after two transfer methods of cloned and transgenic embryos of different pig breeds. Theriogenology. 2010; 74(7):1233-40. DOI: 10.1016/j.theriogenology.2010.05.026. View

19.

Wells D, Misica P, Tervit H . Production of cloned calves following nuclear transfer with cultured adult mural granulosa cells. Biol Reprod. 1999; 60(4):996-1005. DOI: 10.1095/biolreprod60.4.996. View

20.

Clausen M, Christensen K, Hedemann M, Liu Y, Purup S, Schmidt M . Metabolomic phenotyping of a cloned pig model. BMC Physiol. 2011; 11:14. PMC: 3174869. DOI: 10.1186/1472-6793-11-14. View