Interactions between the regulatory peptide 26RFa (QRFP) and insulin in the regulation of glucose homeostasis in two complementary models: The high fat 26RFa-deficient mice and the streptozotocin insulin-deficient mice

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2023-04-01 DOI:10.1016/j.npep.2023.102326
Marie-Anne Le Solliec , Arnaud Arabo , Saloua Takhlidjt , Julie Maucotel , Mélodie Devère , Hind Berrahmoune , Alexandre Bénani , Emmanuelle Nedelec , Benjamin Lefranc , Jérôme Leprince , Marie Picot , Nicolas Chartrel , Gaëtan Prévost
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Abstract

The regulatory peptide 26RFa (QRFP) is involved in the control of glucose homeostasis at the periphery by acting as an incretin, and in the brain by mediating the central antihyperglycemic effect of insulin, indicating the occurrence of a close relationship between 26RFa and insulin in the regulation of glucose metabolism. Here, we investigated the physiological interactions between 26RFa and insulin in two complementary models i.e. a model of obese/hyperglycemic mice deficient for 26RFa and a model of diabetic mice deficient for insulin. For this, transgenic 26RFa-deficient mice were made obese and chronically hyperglycemic by a 3-month high fat diet (HFD) and second group of mice was made diabetic by destruction of the β cells of the pancreatic islets using a single injection of streptozotocin. Our data reveal that 26RFa deficiency does not impact significantly the “glycemic” phenotype of the HFD mice. The pancreatic islets, liver, white adipose tissue masses are not altered by the lack of 26RFa production but the brown adipose tissue (BAT) weight is significantly increased in these animals. In diabetic insulin-deficient mice, the injection of 26RFa does not exhibit any beneficial effect on the impaired glucose homeostasis characterizing this model. Finally, we show that streptozotocin diabetic mice display lowered plasma 26RFa levels as compared to untreated mice, whereas the expression of the peptide in the duodenum is not affected.

Taken together, the present results indicate that dysregulation of glucose homeostasis in obese/hyperglycemic mice is not aggravated by the absence of 26RFa that may be compensated by the increase of BAT mass. In diabetic insulin-deficient mice, the antihypergycemic effect of 26RFa is totally blunted probably as a result of the impaired insulin production characterizing this model, avoiding therefore the action of the peptide.

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调节肽26RFa (QRFP)和胰岛素在两种互补模型中调节葡萄糖稳态的相互作用:高脂26RFa缺陷小鼠和链脲佐菌素胰岛素缺陷小鼠
调节肽26RFa(QRFP)通过充当肠促胰岛素参与外周血糖稳态的控制,并通过介导胰岛素的中枢抗高血糖作用参与大脑中的血糖稳态控制,表明26RFa和胰岛素在葡萄糖代谢调节中存在密切关系。在此,我们在两个互补模型中研究了26RFa和胰岛素之间的生理相互作用,即26RFa缺乏的肥胖/高血糖小鼠模型和胰岛素缺乏的糖尿病小鼠模型。为此,转基因26RFa缺陷小鼠通过3个月的高脂饮食(HFD)使其肥胖和慢性高血糖,第二组小鼠通过单次注射链脲佐菌素破坏胰岛β细胞使其患糖尿病。我们的数据显示,26RFa缺乏对HFD小鼠的“血糖”表型没有显著影响。胰岛、肝脏和白色脂肪组织块不会因缺乏26RFa而改变,但这些动物的棕色脂肪组织(BAT)重量显著增加。在糖尿病胰岛素缺乏小鼠中,注射26RFa对该模型的葡萄糖稳态受损没有表现出任何有益作用。最后,我们发现,与未治疗的小鼠相比,链脲佐菌素糖尿病小鼠的血浆26RFa水平降低,而十二指肠中肽的表达没有受到影响。总之,目前的结果表明,肥胖/高血糖小鼠的葡萄糖稳态失调并没有因26RFa的缺乏而加剧,而26RFa可以通过BAT质量的增加来补偿。在糖尿病胰岛素缺乏小鼠中,26RFa对高血糖的作用完全减弱,这可能是由于该模型的胰岛素产生受损,从而避免肽的作用。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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