Nutritional And Biochemical Effects OfGum Arabic On The Pathological Changes Reduction OfAlloxan Induced Diabetic Rats

Yassin, EnsafM.

doi:10.21608/enj.2018.144891

Nutritional And Biochemical Effects OfGum Arabic On The Pathological Changes Reduction OfAlloxan Induced Diabetic Rats

Document Type : Original Article

Author

EnsafM. Yassin

Nutrition and Food Science Dept, Faculty ofHome Economics, AI Azhar University, Egypt

10.21608/enj.2018.144891

Abstract

Egyptian J. of Nutrition Vol. XXXIII No.3 (2018) Nutritional And Biochemical Effects OfGum Arabic On The Pathological Changes Reduction OfAlloxan Induced Diabetic Rats EnsafM. Yassin Nutrition and Food Science Dept, Faculty ofHome Economics, AIAzhar University, Egypt Abstract Natural substances have been used as a source of medicinal treatments for several decades and plants-based products playa critical role in the treatment of diabetes mellitus (DM) globally. This study was conducted to acquaintancethe effectiveness of gum Arabic (GA)on experimental rats suffered from diabetes mellitus.Thirty six mature male albino rats "Sprague Dawley" strain weighing (160±10 g), were used and divided into two main groups, one was kept as a negative control group (n =6) (G1), while the other was injected infra peritoneally with alloxan monohydrate by a single"'alose of alloxan (1S0mg/kg/B.W.) in 24 hrs fasting animal. This second main group divided into equal five groups (n =6);. The five diabetic groups were as the following; Group (2): was left as positive control and fed on basal diet only. Group (3): was fed on basal diet supplemented with diamacron drl1g1Smg Ikg diet.Group (4): was fed on basal diet supplemented with SO g GA (S%) Ikg diet. Group (5): was fed on basal diet supplemented with 100 g GA (10%)1 kg diet. Group (6): was fed

Keywords

Nutritional And Biochemical Effects OfGum Arabic On The Pathological Changes Reduction OfAlloxan Induced Diabetic Rats

Full Text

Ensaf M. Yassin on basal diet supplemented with GA (10%) +diamacron drug15mg /kg diet. Biological evaluation; liver enzymes andlipid profile andlipoprotein fractions were evaluatedin addition to blood glucose and antioxidant enzyme (SOD) estimated. Moreover, histopathological investigation of liver carriedout.The obtained results concluded that supplemented diets withGA, especially at 10% of diet, improved the level of blood sugar,liver enzymes and lipid profile levels. Introduction Diabetes Mellitus (OM) is a heterogeneous metabolic disorder characterized byaltered carbohydrate, lipid and protein metabolism which causes hyperglycemiresulting from insufficient insulin secretion, insulin action or both (Mutalik et a/., 2003 and Joseph and Jini, 2011).OM. affects atleast 10% of the population,worldwide. Complications of OM include hypertension, atherosclerosis, microcirculatory disorders, retinopathy, nephropathy, neuropathy andangiopathy (Edem, 2009). Hyperglycemia can cause oxidative stress, which, in turn, may resultin cellular tissue damage. The harmful influence of diabetes on metabolism of tissuesand organs is well known likewise; uncontrolled hyperglycemia can lead todisturbances in the structure and function of organs (Gupta et a/., 2004). ".," : Many hypoglycemic agents, such as the iguanids and sulfonylureas, are usedalone or together with insulin to treat this disease, however these· medications cancause serious side 2

References

Egyptian J. of Nutrition Vol. XXXIII No.3 (2018) References Abd-Allah, A.R.;AI.Majed, A.A.; Mostafa, A.M.; AI-Shabanah, O.A.;Din, A.G. andNagi,M.N.(2002): Protective effect of gum Arabic against cardiotoxicity induced by doxorubicin in mice: a possible mechanism of protection. J. Biochem. Mol. Toxicol., 16: 254-259. Abdel Azim, S.A.; Abdelrahem, M.T.; Said,M. M. and khattab, A. (2017): Protective effect of moringaperegrina leaves extract on acetaminophen -induced liver toxicity in albino rats. Afr. J. Tradit. Complement Altern. Med., 14(2): 206-216. Ahmed, A.A.; Musa, H.H. ;Fedail, J.S.;Sifaldin, A.Z. and Musa T.H.(2015): Gum Arabic decreased visceral adipose tissue associated with downregulation of 11 !3-hydroxysteroid dehydrogenase type I in liver and muscle of mice. Bioact Carbohydrates Diet Fiber, 6(1):31-6. Ahmed, A.S. (2007): TheurapeuticEffects of Leaves Obtained from some Trees in Egypt on the Experimented Rats, M.SC. Thesis, Faculty of Home Economics, MenoufiaUniversity. Ali, B.H.;Alqarawi,A.A. and Ahmed, I.H. (2004): Does treatment with gum Arabic affect· experimental chronic renal failure in rats? Fundam.Clin. Pharmacol., 18(3): 327-9. Ali, B.H.;Ziada, A. and Blunden, G.(2009): Biological effects of gum Arabic: A review of some recent research. Food Chem. Toxicol., 47(1):1-8. 25

Ensaf M. Yassin Ali, B.H.;AI-Qarawi, A.A.; Haroun, E.M.and Mousa HM(2003): The effect of treatment with gum Arabic on gentamicin nephrotoxicity in rats: A preliminary study. Ren.Fail., 25(1 ):15-20. Allain, C.C.; Poon, L.S. and Chan, C.S. (1974): Enzymatic determination of serum total cholesterol.Clin. Chern., 20: 470-475. . AI-Majed, AA.; Abd-Allah, A.R.; AI-Rikabi, A.C.; AI Shabanah, O.A. and Mostafa, A. M. (2003): Effect of oral administration of gum Arabic on cisplatininduced nephrotoxicity in rats. J.8iochem Mol.Toxicol., 17: 146-153. AI-Majed, A.A.et al., (2002): Protective effects of oral Arabic gum administration on gentamicin-induced nephrotoxicity in rats. Pharmacol. . Res.,46 (5): 445-451. Babiker, R.;Merghani, T.H.;Elmusharaf, K.;Badi, RM.; Lang F. and Saeed, A.M. (2012): Effects of gum Arabic ingestion on body mass index and body fat percentage in healthy adult females:Two-arm randomized, placebo controlled, double-blind trial. Nutr J., 11 (1 ):1-7. Campbell, J.A. (1963): . Methodology of Protein Evaluation, PAG. Nutr. Document R. 101 Add. 37, June, Meeting, New York. Edem, D.O. (2009): Hypoglycemic effects of ethanol extracts of alligator pear seed in rats. European Journal of Scientific Research, 33:669-678. 26

Egyptian J. of Nutrition Vol. XXXIII No.3 (2018) Fernandez, M.L.; Ruiz, L.R.;Conde, A.K.; Sun, D.M.; Erickson, S.K. andMcnamara, D.J.(1995): Psyllium reduces plasma LDL in Guinea-pigs by alterting hepatic cholesterol homeostasis. J. Lipid Res., 36 (5): 1128-38. Friedwald, W.T.; Leve, R.I. and Fredrickson, 0.5. (1972): Estimation of the concentration of low-density lipoprotein separated by three different methods. Clin. Chem., 18: 499-502. Gupta,S.; Kataria, M.; Gupta, P.K.;Murganandan, S. and Yashroy, R.C. (2004): Protective role of extracts of neem seeds in diabetes caused by streptozotocin in rats. Journal of Ethnopharmacology, 90:185-189. Hegsted, D.M.; Mills, R.C.; Elvehjen, C.A. and Hart, E.B. (1941): Choline in chicks. J. BioI. Chem., 138:459. Huang, P.H. (2005): Enhanced coronary calcification determined by electron beam CT is strongly related to endothelial dysfunction in patients with suspected coronary artery disease. Chest, 128(2): 810-815. Joseph, B. and Jini, D. (2011): An insight in hypoglycemica effect of traditional Indian herbs used in the treatment of diabetes. Research Journal of Medicinal plant, 5:352-376. 27

Ensaf M. Yassin Kaneto, H.; Xu, G.; Song, K.H.; Suzuma, K.; Bonner-Weir, S.; Sharma, A. and Weir, G.C. (2001): Activation of the hexosamine pathway leads to deterioration of pancreatic beta cell function through the induction of oxidative stress. J. BioI. Chem., 276: 3109931104. Kang, Y.; Mei-Yun, K.; Wen-Hui, L.;Shu-Qin, Z. B. and XiuCai,F. (2014):-. The impact of soluble dietary fibre on gastric emptying, postprandial blood glucose and insulin in patients with type 2 diabetes. Asia Pac. J. Clin.Nutr.,23(2):210-218. Kirby,S. M.; Shroyer, N. and Kohli, R. (2010): Hepatic steatosisin type 2 and type 1 diabetes mellitus is mediated by insulinsignaling via fatty acid transport proteins. Journal of Pediatric Gastroenterology and Nutrition, 51(2): E33-E34. Lopes-Virella, M.F.; Stone, S.; Ellis, S. and Collwell, J. A. (1977): Cholesterol determination in high-density lipoprotein separated by three different methods. Clin. Chem., 23 (5): 882. Lucchesi, A. N.;Cassettari, L. L. and Spadella, C.T(201S): Alloxan-Induced Diabetes Causes Morphological and Ultrastructural Changes in Rat Liver that Resemble the . Natural History of Chronic Fatty Liver Disease in Humans. Journal of Diabetes Research, Volume 2015 (2015). Article 10 494578. 11 pages. Lucchesi, A.N.; Freitas, N.T.; Cassettari,L.L.;Marques, S.F.G. and Spadella, C. T. (2013): Diabetes mellitus triggers oxidative stress in the liver of alloxan-treated rats: a mechanism for diabetic chronic liver disease.ActaCirurgicaBrasileira, 28(7): 502508. 28

Egyptian J. of Nutrition Vol. XXXIII No.3 (2018) Marciani, L.;Gowland, P.; Spiller, R.C.;Manoj, P.; Moore, R.J. and Young, P.et al.,(2000): Gastric response to increased meal viscosity assessed by echo-planar magnetic resonance imaging in humans.J.Nutr.,130(1):122-7. Min, Y.W.; Park, S.U.; Jang, Y.S.; Kim, Y.H.; Rhee, P.L. andKo, S.H.et al., (2012): Effect of composite yogurt enriched with acacia fiber and Bifidobacteriumlactis. World J. Gastroenterol., 18(33):4563-9. Moundras, C; Behr, S.R.;Remesy, C. andDemigne, C. (1997): Fecal losses of sterols and bile acids induced by feeding rat's guar gum are due to greater pool size and liver bile acid secretion. J. Nutr., 127(6):1068-76. Mutalik, S.;Sulochana, B.;Chetana, M.; Udupa, N. and Uma Devi, U.P.(2003): Preliminary studies on acute and subacute toxicity of an antidiabetic herbal preparation, Dianex Indian Journal of Experimental Biology, 4:316-320. . Negri G, (2005): Diabetes melito plantas ativosnaturaishipoglice-miantes. Brazilian e princ-pios Journalof Pharmaceutical Sciences, 41:121-141. OmaimaNasir, SawsanBabiker and Abdel-Moneim M. Salim(2016): Protective effect of gum Arabic supplementation for type 2 diabetes mellitus and its complications.lnt. J.of Multidisciplinary and Current research, 4: 2321-3124. 29

# Ensaf M. Yassin Phillips, G.O.; Ogasawara, T. and Ushida, K(2008): The regulatory and scientific approach to defining gum Arabic(Acacia senegal and Acacia seyal) as a dietary fiber. Food Hydrocolloids, 22(1): 24-35. Rasha, Babiker; Elmusharaf, K.; Keogh, M. B.; Banaga, A. S. I. and Amal M. Saeed (2017): Metabolic effects of gum Arabic (Acacia senegal) in patients with type 2 diabetes mellitus (T2DM): Randomized, placebo controlled double blind trial. Functional Foods in Health and Disease, 7(3): 219-231. Reitman, S. and Frankel, S. (1957): A colorimetric method for the determination of serum glutamic oxaloacetic and glutamic pyruvic transaminases. Am. J. Clin. Path. , 28: 56. Regnell, S. E. and Lernmark, A. (2011): Hepatic ateatosis in type 1 diabetes. Review of Diabetic Studies, 84 (4): 454-467. Schermer, S. (1967): The Blood Morphology of Laboratory Animal. Longmans, Printed in Great Britain, Green and Co.LTd, P. 350. Sohn, E.s.; Kim, J.; Kim, C.S.; Kim, Y.S.; Jang, D.S. and Kim, J.S. (2010): Extract of the aerial par ts of Aster koraiensis reduced development of diabetic nephropathy via antiapoptosis of podocytes in streptozotocin induced diabetic rats. Biochem.Biophys.Res.Commun., 391: 733-738. Soto, C.; Mena, R.; Luna, J.; Cerbon, M.; Larrieta, E.; Vital, P.;Uria, E.; Sanchez, M.; Recoba, R.; Barron, H.; Favri, L. and Lara, A. (2004): Silymarin induces recovery of pancreatic function after alloxan damage in rats. life ScL, 75 (18): 2167-2180. 30