Profil Glukosa Darah, Lipid dan Visualisasi Pulau Langerhans sebagai Imunoreaktor Insulin dan Glukagon pada Pankreas Tikus (rattus norvegicus) Obesitas Menggunakan Teknik Imunohistokimia
Dela Ria Nesti(1*), Ahmad Baidlowi(2)
(1) Program Studi Kesehatan Hewan/Departemen Teknologi Hayati dan Veteriner/Sekolah Vokasi, Universitas Gadjah Mada
(2) Program Studi Kesehatan Hewan/Departemen Teknologi Hayati dan Veteriner/Sekolah Vokasi, Universitas Gadjah Mada
(*) Corresponding Author
Abstract
Obesity is not concerned as specific congenital disorder or derived lipid metabolism disorder recently, but more to bod yinability to handle the increase of nutrition intake caused by behavioral changes. Langerhans Islet is a section in the pancreas which play crucial role in producing and regulating metabolism hormones, insulin and glucagon. This research was conducted to observe blood glucose and lipid profile and to visualize Langerhans Islet in rat pancreas which were induced obesity and compared it with normal ones. Ten of male non-genetic obese four weeks old Winstar rats were divided into two groups, normal (K) and induced with obesity (O). Blood plasma samples were collected to determine blood glucose and blood lipid profile. Pancreas (regio splenic) samples were collected and fixated with Bouin solution, blocked by paraffin and cut with 5 μm thickness. Histology preparats were stained with Hematoxylin-Eosin and Immunohistochemistry (IHC) is determined with Labeled Sterptavidin-Biotin (LSAB) method. Staining is act as visual detector with will be analyzed descriptively and quantitatively. The data of Obesity group showed that blood glucose level is 88.59 ± 1.77 mg/dl, blood cholesterol level is 160.62±3.52 mg/dl, triglycerides level is 98.61±2.66 mg/dl, HDL level is 44.68±2.25 mg/dl and LDL level is 67.51±1.81. Pancreas’s topography in obese group spread into three regions, which are: gastrium, duodenum and lien. Langerhans Islet morphology shaped oval and polygonal also surrounded by fine filaments and blood capillary. Insulin and glucagon immunoreactive cell’s morphology in obesity group shaped irregular polygonal with round/oval nucleus placed in central/peripheral. Langerhans Islet’s in obesity group has diameter (154.38±65.56) μm, circumference (373,51±146,69) μm and volume 3241105.96 μm3. Obesity induced rat showed the increase in cholesterol level, triglycerides level, LDL level, blood glucose level and Langerhans Islet’s diameter, volume and circumference compared to normal ones (P<0.05). Decrease of HDL, topography and morphology of pancreas in obesity induced rat did’t showed significant changes compared to normal ones.
Keywords
Full Text:
PDFReferences
Aronoff, S.L., Berkowiz, K., Shreiner, B., & Want, L. (2004). Glucose Metabolism and Regulation: Beyond Insulin and Glucagon. Pharmaceuticals, Inc., 9360 Towne Centre Drive, San Diego, CA 92121. Diabetes Spectrum, 17, 183-190.
Berridge, M.J. (2012). Cell Signalling Biology Module 7. Portland Press Limited. www.cellsignallingbiology.org Accessed 26.02.14
Bonner, W.S., & Sharma, A. (2002). Pancreatic Stem Cell. Journal Pathology, 197, 519-526.
Bonner, W.S., Toschi, E., Inada, A., Reitz, P., Fonseca, S.Y., Aye, T., & Sharma, A. (2004). The Pancreatic Ductal Epithelium as a Potential Pool of Progenitor Cell. Pediatric Diabetic, 5, 16-22.
Cerf, E.M., Chapman, C.S., & Louw, J. (2012). High-fat progamming of hyperglycemia, hyperinsulinemia, insulin resisten, hyperleptinemia, and altered islet architechture in 3-month-old Wistar Rat. ISRN Endocrinology, 1-8. DiaSys Diagnostic System GmBh,
Holzheim Germany. (2008). Dor, Y., Brown, J., & Martinez, O.I. (2004). Adult Pancreatic Beta-cell are Formed by Self-duplication rather than Stemcell Diferentiation. Nature, 429, 41-46.
Dourmashkin, J.T., Chang, G.Q., Gayles, E.C., Hill, J.O., Julien, C., & Leibowitz, S.F. (2005). Different Forms of Obesity as a Function of Diet Composition. International Journal of Obesity; 1-11.
Droomers, M., Gross, R., & Schultin, K.W. (1995). High Socio- Economic Class Preschool Children from Jakarta, Indonesia Are Taler And Heavier Than NCHS Reference Population. European Journal of Clinical Nutrition, 49, 740–744.
Elayat, A.A., Nanggar, M.M., & Tahir, M. (1995). An Immunocytochemical and Morphometric Study of Rat Pancreatic Islet. Journal of Analytical Chemistry, 186, 629-637.
Elmquist, J.K., & Scherer, P.E. (2012). Neuroendocrine and Endocrine Pathway of Obesity. The Journal of the American Medical Association, 308, 1070-1071.
Ganong, W.F. (1995). Fisiologi Kedokteran. (14thed). Jakarta: Penerbit Buku Kedokteran EGC, (313-314).
Guiherme, A., Virbasius, J.V., Puri, V., & Czech, M.P., (2008). Adipocyte Dysfunction Linking Obesity to Insulin Resisten and Type 2 Diabetes. Molecular Cell Biology, 368-370.
Harishankar, N., Kumar, P.U., Sesikeran, B., & Giridharan, N. (2011). Obesity Associated Pathothysiological and Histological Changes in WNIN Obese Mutant Rats. The Indian Journal of Medical Research, 134, 330-340.
Heslet, L., (2002). Kolesterol. Penerjemah: Anton Adiwiyoto. Cetakan VII. Jakarta: Penerbit Megapoint, (63-68). Ikemoto, S., Tomson, P.S., Takahasi, M., Itakura, H., Lane, M.D., & Ezaki, O. (1995). High Fat Diet-Unduce Hyperglycemia: Prevention Buy Low Level Expression of a Glucose Transporter (GLUT 4) Mini Gene In Trangenic Mice. Science USA, 92, 3096-3099.
Johnson, K.E. (1993). Histology and Cell Biology. Cetakan I. Jakarta: Penerbit Binarupa aksara, (311-315).
Junqueira, L.C., & Carneiro, J. (1992). Histologi Dasar. Cetakan III. Jakarta: Penerbit Buku Kedokteran EGC, (430-435).
Kanasaki, K., & Koya, D. (2011). Biology of Obesity: Lesson from Animal Models of Obesity. Journal Biomed Biotechnology, 1-11. Lesson, C.R., Leeson, T.S., & Paparo, A.A. (1996). Histologi. Cetakan V. Jakarta: Penerbit Buku Kedokteran EGC, (380-383).
Lindstrom, P. (2007). The Phisiology of Obese-Hyperglycemic Mice (ob/ob Mice). The Scientific World Journal, 7, 666-685.
Longmire B.E., & Maclaren N.K., (2007). Assesment of Child and Adolescent Overweight and Obesity. Pediatric, 120, 193-228.
Manens, J., Bolognin, M., Bernaerts, F., & Diez, M.N.K. (2012). Effects of obesity on lung function and airway reactivity in healthy dogs. The Veterinary Journal, 193, 217-221.
Martyn, J.J.A., Kaneki, M., & Yasuhara, S. (2008). Obesity-Induced Insulin Resisten and Hyperglycemia: Etiological Factor and Molecular Mechanisms. Anesthesiology, 109, 137-148. 32
Miyaki, T., Nakama, K., Akimoto, T., Kitoh, J., & Ito, H. (1994). Goss Morfology of the Pancreas and Distribution of Pancreas Duct in Rat. Jikken Dobutsu, 43, 257-260.
Slavin, B.G., Zarow, C., Warden, C.H., & Fisler, J.S. (2010). Histological, Immunocytochemical and Morphometrical Analyses of Pancreatic Islet in BSB Mouse Model of Obesity. The Anatomical Record, 293, 108-116.
Subowo. (1992). Histologi Umum. Cetakan II. Jakarta: Penerbit Bumi Aksara, (38-39).
Tambajong, J. (1995). Sinopsis Histologi. Cetakan I. EGC. Jakarta, (138-141).
Tomita, T., Doull, V., Pollock, H.G., & Krizsan, D. (1992). Pankreas Islet of Obese Hyperglycemic Mice Ob/Ob. Publication medical, 367-375.
Tse, O.E., Gregoire, F.M., Reusens, B., Remacle, C., Hoet, J.J., Jhonson, P.R., & Stern, J.S. (1997). Changes of Islet Size and Islet Size Distribution Resulting from Protein-Malnutrition in Lean (Fa/Fa) and Obese (fa/fa) Zucker Rats. Obesity Research, 5, 563-671.
Vicker, P.S., Jackson, H.C., & Cheetham, S.C. (2011). Review the Utility of Animal Model to Evaluate Novel Anti-Obesity Agents. British Journal of Pharmacology, 164, 1248-1262.
Wang, C.Y., & Liao, J.K. (2012). A Mouse Model of Diet-Induced Obesity and Insulin Resistance. Methods Molecular Biology, 821, 421-433.
DOI: https://doi.org/10.22146/jntt.34083
Article Metrics
Abstract views : 4601 | views : 17986Refbacks
- There are currently no refbacks.
Copyright (c) 2017 Jurnal Nasional Teknologi Terapan (JNTT)
This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.
Jurnal Nasional Teknologi Terapan Indexed by: