Abstract
Background: Diabetes mellitus is a prevalent disease, which is caused by deficiency in insulin
secretion or factors that impair its function. Diabetic hyperglycemia and hyperlipidemia are
important risk factors in cardiovascular diseases. The arteriosclerosis and its accompanying
structural changes are in part due to endothelial cell injury and abnormal glycosylation of cell
surface and extra cellular matrix glycoconjugate. These are the first structural changes of
formation of atheromatous plaque. The aim of the present study was to identify the structural and
extra cellular matrix changes of terminal sugars by histochemical methods in aorta and common
carotid arteries in male diabetic rats.
Methods and Materials: A total number of 63 male Sprague Dawley rats with 250 ± 50 gr
weights were chosen and randomly divided into experimental (n=36) and control (n= 27) groups.
Diabetes was induced by IP injection of 60 mg/kg of streptozotocin in experimental group.
Experimental and control groups further divided into 2 week, 2 months and 4 months subgroups.
Animals were preserved in standard condition. After the mentioned time, samples were taken from
carotid and aorta, fixed in Boins and processed routinely. Paraffin blocks were cut with 5-6
micrometer in thickness and stained by H-E, PAS and PNA/Alcian blue pH=2.5, thereafter sections
graded according to staining intensity and data were analyzed by NPAR test of Mann Whitney.
Results: Results of this study showed significant difference only for PAS positive media
components between 2 and 4 months diabetic groups (P<0.007).There were also statistically
significant difference between elastic lamina of 2 and 4 month of diabetic group (P<0.03). PNA
showed the presence of Gal/GalNac in sub endothelial and adventitial components of arteries.
Although there was a slight difference of ECM staining between diabetic groups for the
Gal/GalNac and intense reactivity of 4-month diabetic group in comparison to 2-month and 2-week
diabetic groups, there were no significant difference between them for PAS and lectin staining.
Conclusions: It seems that in diabetes, the rate of glycosylation of cell surface and ECM
components changed slowly. Future studies will probably show the exact role of these components
in pathophysiology of diabetes.
secretion or factors that impair its function. Diabetic hyperglycemia and hyperlipidemia are
important risk factors in cardiovascular diseases. The arteriosclerosis and its accompanying
structural changes are in part due to endothelial cell injury and abnormal glycosylation of cell
surface and extra cellular matrix glycoconjugate. These are the first structural changes of
formation of atheromatous plaque. The aim of the present study was to identify the structural and
extra cellular matrix changes of terminal sugars by histochemical methods in aorta and common
carotid arteries in male diabetic rats.
Methods and Materials: A total number of 63 male Sprague Dawley rats with 250 ± 50 gr
weights were chosen and randomly divided into experimental (n=36) and control (n= 27) groups.
Diabetes was induced by IP injection of 60 mg/kg of streptozotocin in experimental group.
Experimental and control groups further divided into 2 week, 2 months and 4 months subgroups.
Animals were preserved in standard condition. After the mentioned time, samples were taken from
carotid and aorta, fixed in Boins and processed routinely. Paraffin blocks were cut with 5-6
micrometer in thickness and stained by H-E, PAS and PNA/Alcian blue pH=2.5, thereafter sections
graded according to staining intensity and data were analyzed by NPAR test of Mann Whitney.
Results: Results of this study showed significant difference only for PAS positive media
components between 2 and 4 months diabetic groups (P<0.007).There were also statistically
significant difference between elastic lamina of 2 and 4 month of diabetic group (P<0.03). PNA
showed the presence of Gal/GalNac in sub endothelial and adventitial components of arteries.
Although there was a slight difference of ECM staining between diabetic groups for the
Gal/GalNac and intense reactivity of 4-month diabetic group in comparison to 2-month and 2-week
diabetic groups, there were no significant difference between them for PAS and lectin staining.
Conclusions: It seems that in diabetes, the rate of glycosylation of cell surface and ECM
components changed slowly. Future studies will probably show the exact role of these components
in pathophysiology of diabetes.
Keywords
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Copyright
© 2004, Author(s). This is an open-access article distributed under the terms of the Creative Commons Attribution 4.0 International License (CC BY 4.0) (https://creativecommons.org/licenses/by/4.0/) which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.