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Ceapro Inc V.CZO

Ceapro Inc. is a Canada-based biotechnology company. The Company is involved in the development of extraction technology and the application of this technology to the production of extracts and active ingredients from oats and other renewable plant resources. Its primary business activities relate to the development and commercialization of natural products for personal care, cosmetic, human, and animal health industries using technology, natural, renewable resources, and developing products, technologies, and delivery systems. The Company's products include a commercial line of natural active ingredients, including beta glucan, avenanthramides (colloidal oat extract), oat powder, oat oil, oat peptides, and lupin peptides, a commercial line of natural anti-aging skincare products, utilizing active ingredients, including beta glucan and avenanthramides and veterinary therapeutic products, including an oat shampoo, an ear cleanser, and a dermal complex/conditioner.


TSXV:CZO - Post by User

Comment by prophetoffactzon Jan 01, 2023 10:34am
186 Views
Post# 35198916

RE:An avenanthramide pill to manage diabetes

RE:An avenanthramide pill to manage diabetesDose-dependent relationship or nullified when CZO's potent pill will be tested at up to very high doses. Diabetics managing glucose levels with a neutraceutical. 

"The presence of avenanthramide reduced the glucose uptake in a dose-dependent manner in Caco-2 cells. Glucose uptake in oocytes expressing either GLUT2 or SGLT1 was nullified by oat avenanthramide."


"Based on our results, we have confirmed for the first time that the glucose uptake is indeed inhibited by the presence of avenanthramides, suggesting the possibility of incorporating avenanthramides in foods to enhance postprandial glucose response, and ultimately improve the management of diabetes."

prophetoffactz wrote:

The inhibition of intestinal glucose absorption by oat-derived avenanthramides

Affiliations 

Abstract

Avenanthramides are phenolic compounds unique to oats and may contribute to health-promoting properties associated with oat consumption. This study used Xenopus laevis oocytes expressing the glucose transporters, glucose transporter 2 (GLUT2) or sodium-glucose transport protein 1 (SGLT1) and human Caco-2 cells models to investigate the effect of oat avenanthramides on human intestinal glucose transporters. The presence of avenanthramide reduced the glucose uptake in a dose-dependent manner in Caco-2 cells. Glucose uptake in oocytes expressing either GLUT2 or SGLT1 was nullified by oat avenanthramide. There was no significant difference between the inhibition potencies of avenanthramides C and B. Thus, our results suggest that avenanthramides may contribute to the antidiabetic properties of oats. PRACTICAL APPLICATIONS: The present research focus on the antidiabetic properties of avenanthramides, which are unique phenolic compounds found in oats. Inhibiting the activities of the glucose transport proteins expressed in the small intestine is a known strategy to improve the control of postprandial glucose level. We therefore examined the inhibitory effects of avenanthramides on two glucose transporters, glucose transporter 2 and sodium-glucose transport protein 1, predominantly found in the small intestine using the human small intestinal cell model Caco-2 cell line and by heterologously expressing these two transporters in the Xenopus laevis oocytes. Based on our results, we have confirmed for the first time that the glucose uptake is indeed inhibited by the presence of avenanthramides, suggesting the possibility of incorporating avenanthramides in foods to enhance postprandial glucose response, and ultimately improve the management of diabetes. Therefore, future research could consider utilizing this evidence in the development of diabetic-friendly functional foods or nutraceuticals containing avenanthramides.




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