Risk of endothelial dysfunction in streptozotocin-induced diabetic Sprague-Dawley rats: Nitric oxide in focus

Sokoto journal of medical laboratory science Pub Date : 2023-10-25 DOI:10.4314/sokjmls.v8i3.11

M.L. Jidda, J.M. Bunza, M.K. Dallatu, L.S. Bilbis, A.J. Alhassan, Muhammad Yelwa Gwarzo, A.A. Ngaski, A.F. Chiroma, S.L. Kakako, Maryam Kasimu, B.M. Yale, M. Kasimu, S. Haruna, K.A. Ogunwale, A. K. Bello, Ibrahim Kalle Kwaifa

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Abstract

Endothelial dysfunction in diabetes manifests in part as reduction of nitric oxide (NO) bioavailability, which leads to inadequate relaxation of the vascular smooth muscle and a disparity between the vasoconstrictive and vasorelaxant intracellular pathways which favours a rise in vasoconstriction. In this current work, we evaluated serum Nitric oxide (NO) concentration and the activity of Nitric oxide synthase (NOS) in streptozotocin-induced diabetic male and female rats' serum. Our results showed initial and final fasting blood glucose concentration 5.30±0.16mmol/l and 5.24±.015mmol/l versus 5.68±0.18mmol/l and 5.43±0.15mmol/l in male and female controls. Among the diabetic rats, the initial and final fasting blood glucose concentration was 17.50±1.91mmol/l and 15.68±2.84mmol/l versus 20.50±4.76mmol/l and 19.40±4.13mmol/l in male and female rats respectively. NO concentration was 106.12±7.23μmol/l and 131.81±12.54 μmol/l in male and female control rats compared to 52.38±3.01μmol/l and 65.29±16.19 μmol/l in male and female diabetic rats respectively. Serum activity of NOS were 133.72±10.92μIU/l and 156.06±18.22 μIU/l in control male and female rats compared to 98.01±1.48 μIU/l, 78.89±8.39μIU/l in diabetic male and female rats respectively. The difference in both NO concentration and NOS activity was significant between diabetics and non-diabetic rats as well as between male and female diabetics rats (p< 0.05). The endothelial dysfunction in diabetic animals regardless of gender may be an initial pointer to upcoming pathogenesis and we recommend routine evaluation of NO concentration and NOS activities among diabetics.

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链脲佐菌素诱导的糖尿病大鼠内皮功能障碍的风险:一氧化氮的焦点

糖尿病的内皮功能障碍部分表现为一氧化氮(NO)生物利用度降低，导致血管平滑肌松弛不足，血管收缩和血管松弛的细胞内通路之间存在差异，这有利于血管收缩的增加。本研究对链脲佐菌素诱导的糖尿病大鼠血清一氧化氮(NO)浓度和一氧化氮合酶(NOS)活性进行了测定。结果表明:初、终空腹血糖浓度分别为5.30±0.16mmol/l和5.24±0.16mmol/l。男性和女性对照分别为5.68±0.18mmol/l和5.43±0.15mmol/l。糖尿病大鼠的初始和最终空腹血糖浓度分别为17.50±1.91mmol/l和15.68±2.84mmol/l，而雄性大鼠和雌性大鼠的血糖浓度分别为20.50±4.76mmol/l和19.40±4.13mmol/l。雄性和雌性糖尿病大鼠的NO浓度分别为106.12±7.23μmol/l和131.81±12.54 μmol/l，而雄性和雌性糖尿病大鼠的NO浓度分别为52.38±3.01μmol/l和65.29±16.19 μmol/l。正常雌雄大鼠血清NOS活性分别为133.72±10.92μIU/l和156.06±18.22 μIU/l，而糖尿病雌雄大鼠血清NOS活性分别为98.01±1.48 μIU/l和78.89±8.39μIU/l。NO浓度和NOS活性在糖尿病大鼠和非糖尿病大鼠以及雌雄糖尿病大鼠之间均有显著差异(p<0.05)。无论性别，糖尿病动物的内皮功能障碍可能是即将发生的发病机制的初步指标，我们建议对糖尿病患者进行NO浓度和NOS活性的常规评估。

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Sokoto journal of medical laboratory science

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