The Lymphocytes Number in the Blood of Kwashiorkor Rat Model Induced by Oral Immunization with 38-kDa Mycobacterium tuberculosis Protein
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The Lymphocytes Number in the Blood of Kwashiorkor Rat Model Induced by Oral Immunization with 38-kDa Mycobacterium tuberculosis Protein

Authors: Novi Khila Firani, Elisa Nesdyaningtyas

Abstract:

Kwashiorkor is one of nutritional problem in Indonesia, which lead to decrease immune system. This condition causes susceptibility to infectious disease, especially tuberculosis. Development of new tuberculosis vaccine will be an important strategy to eliminate tuberculosis in kwashiorkor. Previous research showed that 38-kDa Mycobacterium tuberculosis protein is one of the potent immunogen. However, the role of oral immunization with 38- kDa Mycobacterium tuberculosis protein to the number of lymphocytes in the rat model of kwashiorkor is still unknown. We used kwashiorkor rat model groups with 4% and 2% low protein diet. Oral immunization with 38-kDa Mycobacterium tuberculosis protein given with 2 booster every week. The lymphocytes number were measured by flowcytometry. There was no significant difference between the number of lymphocytes in the normal rat group and the kwashiorkor rat groups. It may reveal the role of 38-kDa Mycobacterium tuberculosis protein as a potent immunogen that can increase the lymphocytes number from kwashiorkor rat model same as normal rat.

Keywords: kwashiorkor rat, lymphocytes, 38-kDa Mycobacterium tuberculosis protein

Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1076018

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References:


[1] Ministry of Health of the Republic Indonesia. "Report of Child Malnutrition Response in Indonesia on 2005." Unpublished.
[2] J. Chan, Y. Tian, K.E. Tanaka, M.S. Tsang, K. Yu, P. Salgame, D. Carrol, Y. Kress, R. Teitelbaum, and B.R. Bloom, "Effects of protein calorie malnutrition on tuberculosis in mice". Proc. Natl. Acad. Sci. USA.1996, vol. 93, pp.14857-14861.
[3] T.Y. Aditama, "Diagnosis of pulmonary tuberculosis". In Recent advances on Tuberculosis and Chronic Obstructive Pulmonary Disease. Bandung, Indonesia, pp 21-22. Unpublished.
[4] Q.N. Myrvik. "Immunology and Nutrition". In: M.E. Shils, J.A. Olson, M. Shike, Modern Nutrition in Health and Disease. 8th ed. vol. 1, Philadelphia, PA: Lea & Febiger, 1994, pp.623-662.
[5] World Health Organization Indonesia. "World Tuberculosis Day 2010."
[http://ino.searo.who.int/EN/Section9_293.htm].
[6] R.K. Chandra, "Nutrition and immunity: lessons from the past and new insights into the future." Am J Clin Nutr, 1991,53: pp.1087-1101.
[7] J.P. Cegielski, D.N. McMurray, "The relationship between malnutrition and tuberculosis: evidence from studies in humans and experimental animals." INT J TUBERC LUNG DIS. 2004,8(3): pp.286-298
[8] P.L. Ogra, H. Faden, and R.C. Welliver, "Vaccination strategies for mucosal immune responses." Clin Microbiol Rev. 2001,14 (2): pp. 432- 433.
[9] A. Sjolander, J.C. Cox, and I.G. Barr. "ISCOMs: an adjuvant with multiple functions." Journal of Leukocyte Biology, 1998, Abstract.
[10] F.W. van Ginkel, H.H. Nguyen, and J.R. McGhee, "Attenuated viral vaccine for mucosal immunity to combat emerging infectious diseases." Emerg Infect Dis, 2000, Abstract.
[11] A.A. Gani, T.M. Andyastanti, S. Winarsih, M.Z. Arthamin, "The 38- kDa Adhesin Protein of Mycobacterium tuberculosis Per Oral Increases T CD4+ Cells Number in The Lung and Intestine of Balb Mice." In The 2nd International Conference and Workshop from Molecular to Clinical Aspects of HIV/AIDS, Tuberculosis and Malaria, 2011. proceeding. pp.46.
[12] D.S. Hanggara, P. Primawardani, S. Winarsih, M.Z. Arthamin, "The effect of 38- kDa Adhesin Protein of Mycobacterium tuberculosis Orally in Induction Number of CD8+ T Lymphocyte in Intestine and Lung of Balb Mice." In The 2nd International Conference and Workshop from Molecular to Clinical Aspects of HIV/AIDS, Tuberculosis and Malara, 2011, proceeding. pp. 45.
[13] M. Kaladhar and S.N. Rao, "Experimental protein and energy deficiencies : effects on brain free amino acid composition in rats." Br. J. Nutr. 1977, 38, pp. 141.
[14] S.R. Shah, S. Shenai, D.C. Desai, A. Joshi, P. Abraham, C. Rodrigues, "Comparison of Mycobacterium tuberculosis culture using liquid culture medium and Lowenstein Jensen medium in abdominal tuberculosis. " Indian J Gastroenterol, 2010, 29:pp.237-239.
[15] A.C. Grabski and R.R. Burgess, "Preparation of protein samples for SDS-polyacrylamide gel electrophoresis: procedures and tips. " inNovations, pp. 10-12.
[16] E. Harlow and D. Lane, "Antibodies : A. Laboratory Manual." Cold Spring Harbor Laboratory, USA . 1989, pp. 61,150,309,564,597
[17] K.C. Obimba, "Utilization of dietary therapies in the alleviation of protein energy malnutrition in kwashiokor-induced rats."African Journal of Biochemistry Research , 2011, 5(4), pp. 137-142.
[18] Menezes, J. da Silva, "Stimulation by Food Proteins Play A Critical Role in The Maturation of The Immune System," (Online) (http://www.mail-intimm. oxfordjournals. Org / cgt / content / full/15/3/447, accesed May 7th, 2009.
[19] S. Kew, S.M. Wells, P. Yaqoob, F.A. Wallace, A.M. Elizabeth, and P.C. Calder, "Dietary Glutamine Enhances Murine T-Lymphocyte Responsiveness", J. Nutr. 1999, 129: pp. 1524-1531
[20] H. Arifin, "The Role of Glutamine on Neonatus". Majalah Kedokteran Nusantara, 2009, 42 (1): pp. 67-69.
[21] M.A. Masrizal, "Effects of Protein-Energy Malnutrition on The Immune System." MAKARA, SAINS, 2003, 7: 2, pp. 69-72.