Md Anamul Haque, Md. Sanower Hossain, Nur Muhammad Abu Sayed, Mohammad Touhidul Islam, Md. Robin Khan, F. Ahmmed, F. T. Zohora, D. Ağagündüz, L. Ming, R. Capasso
{"title":"Abelmoschus esculentus(L.)Moench Pod提取物对葡萄糖诱导的高血糖小鼠同时给予二甲双胍和阿卡波糖的协同抗糖尿病活性显示拮抗作用","authors":"Md Anamul Haque, Md. Sanower Hossain, Nur Muhammad Abu Sayed, Mohammad Touhidul Islam, Md. Robin Khan, F. Ahmmed, F. T. Zohora, D. Ağagündüz, L. Ming, R. Capasso","doi":"10.3390/biologics2020010","DOIUrl":null,"url":null,"abstract":"Abelmoschus esculentus (L.) Moench, commonly known as okra, is one of the most widely used vegetable crops currently used for diabetes treatment as well. It is thought that the large amount of soluble dietary fibers present in okra is responsible for the slowing of the absorption of glucose from the gut. However, its role in concomitant administration with commonly prescribed medications, including metformin (MET) and acarbose (ACR) for diabetes, is unclear. Therefore, this study assessed the effect of A. esculentus pod extract (AEE) administered concomitantly with MET and ACR in the glucose-induced hyperglycemic mice model. The AEE was prepared using green okra pods. In this experiment, each male Swiss Webster mouse was administered a 2.5 gm/kg/BW dose of glucose via gastric lavage to induce hyperglycemia. The experimental animals were divided into five groups: (i) negative control, (ii) positive control, (iii) MET only, (iv) MET and ACR, and (v) MET, ACR, and AEE. The orally administered doses of the MET, ACR, and the extract were 150 mg/kg/BW, 15 mg/kg/BW, and 0.2 mL/kg/BW, respectively. We found that MET only and a combination of MET and ACR reduced glucose levels significantly (p < 0.01) compared to the positive control. On the other hand, when MET, ACR, and AEE were administered simultaneously, the synergistic antihyperglycemic action of the MET and ACR was diminished. After 150 min, the blood glucose level was 4.50 ± 0.189 mmol/L (iv) and 6.58 ± 0.172 mmol/L (v). This study suggests that taking AEE concurrently with MET and ACR would reduce the effectiveness of antidiabetic drugs; thereby, concomitant administration of these antidiabetic agents is not recommended. This study provides an essential basis for decision-making about the consumption of AEE with conventional medicine. Further study is required to find the molecular insight of drug interactions in combination therapy of medicinal plants for diabetes.","PeriodicalId":93526,"journal":{"name":"Biologics (Basel, Switzerland)","volume":null,"pages":null},"PeriodicalIF":0.0000,"publicationDate":"2022-05-10","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"10","resultStr":"{\"title\":\"Abelmoschus esculentus (L.) 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Therefore, this study assessed the effect of A. esculentus pod extract (AEE) administered concomitantly with MET and ACR in the glucose-induced hyperglycemic mice model. The AEE was prepared using green okra pods. In this experiment, each male Swiss Webster mouse was administered a 2.5 gm/kg/BW dose of glucose via gastric lavage to induce hyperglycemia. The experimental animals were divided into five groups: (i) negative control, (ii) positive control, (iii) MET only, (iv) MET and ACR, and (v) MET, ACR, and AEE. The orally administered doses of the MET, ACR, and the extract were 150 mg/kg/BW, 15 mg/kg/BW, and 0.2 mL/kg/BW, respectively. We found that MET only and a combination of MET and ACR reduced glucose levels significantly (p < 0.01) compared to the positive control. On the other hand, when MET, ACR, and AEE were administered simultaneously, the synergistic antihyperglycemic action of the MET and ACR was diminished. After 150 min, the blood glucose level was 4.50 ± 0.189 mmol/L (iv) and 6.58 ± 0.172 mmol/L (v). This study suggests that taking AEE concurrently with MET and ACR would reduce the effectiveness of antidiabetic drugs; thereby, concomitant administration of these antidiabetic agents is not recommended. This study provides an essential basis for decision-making about the consumption of AEE with conventional medicine. 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引用次数: 10
摘要
绿毛鼠(L.)秋葵,俗称秋葵,是目前用于糖尿病治疗的最广泛使用的蔬菜作物之一。据认为,秋葵中存在的大量可溶性膳食纤维是减缓肠道对葡萄糖吸收的原因。然而,它在与常用处方药物(包括治疗糖尿病的二甲双胍(MET)和阿卡波糖(ACR))同时用药中的作用尚不清楚。因此,本研究评估了沙豆荚提取物(AEE)与MET和ACR同时给药对葡萄糖诱导的高血糖小鼠模型的影响。AEE采用绿色秋葵豆荚制备。在本实验中,每只雄性瑞士韦氏小鼠灌胃给予2.5 gm/kg/BW剂量的葡萄糖诱导高血糖。实验动物分为5组:(i)阴性对照组,(ii)阳性对照组,(iii)仅MET组,(iv) MET + ACR组,(v) MET + ACR + AEE组。MET、ACR和提取物的口服剂量分别为150 mg/kg/BW、15 mg/kg/BW和0.2 mL/kg/BW。我们发现,与阳性对照相比,仅MET和MET与ACR联合使用可显著降低血糖水平(p < 0.01)。另一方面,当MET、ACR和AEE同时使用时,MET和ACR的协同降糖作用减弱。150min后,血糖水平分别为4.50±0.189 mmol/L (iv)和6.58±0.172 mmol/L (v)。本研究提示AEE与MET、ACR同时服用会降低降糖药物的疗效;因此,不建议同时使用这些抗糖尿病药物。本研究为常规药物使用AEE的决策提供了重要依据。药用植物联合治疗糖尿病中药物相互作用的分子机制有待进一步研究。
Abelmoschus esculentus (L.) Moench Pod Extract Revealed Antagonistic Effect against the Synergistic Antidiabetic Activity of Metformin and Acarbose upon Concomitant Administration in Glucose-Induced Hyperglycemic Mice
Abelmoschus esculentus (L.) Moench, commonly known as okra, is one of the most widely used vegetable crops currently used for diabetes treatment as well. It is thought that the large amount of soluble dietary fibers present in okra is responsible for the slowing of the absorption of glucose from the gut. However, its role in concomitant administration with commonly prescribed medications, including metformin (MET) and acarbose (ACR) for diabetes, is unclear. Therefore, this study assessed the effect of A. esculentus pod extract (AEE) administered concomitantly with MET and ACR in the glucose-induced hyperglycemic mice model. The AEE was prepared using green okra pods. In this experiment, each male Swiss Webster mouse was administered a 2.5 gm/kg/BW dose of glucose via gastric lavage to induce hyperglycemia. The experimental animals were divided into five groups: (i) negative control, (ii) positive control, (iii) MET only, (iv) MET and ACR, and (v) MET, ACR, and AEE. The orally administered doses of the MET, ACR, and the extract were 150 mg/kg/BW, 15 mg/kg/BW, and 0.2 mL/kg/BW, respectively. We found that MET only and a combination of MET and ACR reduced glucose levels significantly (p < 0.01) compared to the positive control. On the other hand, when MET, ACR, and AEE were administered simultaneously, the synergistic antihyperglycemic action of the MET and ACR was diminished. After 150 min, the blood glucose level was 4.50 ± 0.189 mmol/L (iv) and 6.58 ± 0.172 mmol/L (v). This study suggests that taking AEE concurrently with MET and ACR would reduce the effectiveness of antidiabetic drugs; thereby, concomitant administration of these antidiabetic agents is not recommended. This study provides an essential basis for decision-making about the consumption of AEE with conventional medicine. Further study is required to find the molecular insight of drug interactions in combination therapy of medicinal plants for diabetes.