Natural Products as Lead Compounds for Sodium Glucose Cotransporter (SGLT) Inhibitors

Blaschek, W.

doi:10.1055/s-0043-106050

Cited by 64 publications

(65 citation statements)

References 74 publications

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“…Similarly, we have recently shown that EC did not modulate the protein levels of GLUT‐2 in hepatic cells . In addition, it should be mentioned that different natural products, including P and flavonoid enriched plant extracts, inhibit SGLT‐2, which contributed to reduce the glycemia . In this line, our results could suggest that EC and DHBA could contribute to decrease the glucose uptake by inhibiting SGLT‐2 without altering the expression of the glucose transporters, as described for dapagliflozin, empaglifozin, P, or other natural products …”

Section: Discussionsupporting

confidence: 78%

“…[33] In this line, our results could suggest that EC and DHBA could contribute to decrease the glucose uptake by inhibiting SGLT-2 without altering the expression of the glucose transporters, as described for dapagliflozin, empaglifozin, P, or other natural products. [3,28,33,34] Renal gluconeogenesis predominantly occurs in the proximal tubular cells. [2,4] Indeed, renal proximal tubular cells are particularly sensitive to the hyperglycemia because the glucose uptake is insulin-independent.…”

Section: Discussionmentioning

confidence: 57%

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(‐)‐Epicatechin and the Colonic 2,3‐Dihydroxybenzoic Acid Metabolite Regulate Glucose Uptake, Glucose Production, and Improve Insulin Signaling in Renal NRK‐52E Cells

Álvarez-Cilleros

Martín

Ramos

2018

Molecular Nutrition Food Res

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Section: Discussionsupporting

confidence: 78%

Section: Discussionmentioning

confidence: 57%

(‐)‐Epicatechin and the Colonic 2,3‐Dihydroxybenzoic Acid Metabolite Regulate Glucose Uptake, Glucose Production, and Improve Insulin Signaling in Renal NRK‐52E Cells

Álvarez-Cilleros

Martín

Ramos

2018

Molecular Nutrition Food Res

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“…Of these, phlorizin, the first naturally occurring sodium glucose cotransport (SGLT) inhibitor, has been used to identify the SGLT mechanism (Vick, Diedrich, & Baumann, ). Following this, many natural product glucose transport inhibitors have been characterized, of which several compounds have been tested in vitro and in vivo, and in some cases have reached clinical trials as potential cancer chemotherapeutic agents (Blaschek, ; Choi, ; Granchi et al, ; Qian et al, ).…”

Section: Glucose Transport Inhibitors From Edible Plantsmentioning

confidence: 99%

“…In previous review articles, the overall information included on glucose transport and metabolism in cancer cells and the progress of new therapeutic developments for glucose transport inhibitors focused on small molecules, with only a limit number of natural products, were summarized (Qian et al, ). Natural product sodium glucose cotransporter (SGLT) inhibitors and their potential antidiabetic activity have been reviewed (Blaschek, ; Choi, ). In addition, synthetic and naturally derived glucose transport inhibitors and their potential anticancer activities have been discussed (Granchi et al, ; Granchi et al, ).…”

Section: Introduction and Significancementioning

confidence: 99%

Plant‐derived glucose transport inhibitors with potential antitumor activity

Shriwas

Chen

Kinghorn

et al. 2019

Phytotherapy Research

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Glucose, a key nutrient utilized by human cells to provide cellular energy and a carbon source for biomass synthesis, is internalized in cells via glucose transporters that regulate glucose homeostasis throughout the human body. Glucose transporters have been used as important targets for the discovery of new drugs to treat cancer, diabetes, and heart disease, owing to their abnormal expression during these disease conditions. Thus far, several glucose transport inhibitors have been used in clinical trials, and increasing numbers of natural products have been characterized as potential anticancer agents targeting glucose transport. The present review focuses on natural product glucose transport inhibitors of plant origin, including alkaloids, flavonoids and other phenolic compounds, and isoprenoids, with their potential antitumor properties also discussed.

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“…These compounds not only control blood glucose but also have the potential to improve cardiovascular system function, reduce kidney disorders, and normalize the lipid profile (Fujita & Inagaki, ). Besides phlorizin, other natural product‐derived compounds have been investigated for their ability to reduce renal glucose reabsorption and improve glycemic control (Blaschek, ).…”

Section: Introductionmentioning

confidence: 99%

Natural products with SGLT2 inhibitory activity: Possibilities of application for the treatment of diabetes

Moradi‐Marjaneh

Paseban

Sahebkar

2019

Phytotherapy Research

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Diabetes mellitus currently affects as many as 400 million people worldwide, creating a heavy economic burden and stretching health care resources. A dysfunction of glucose homeostasis underlies the disease. Despite advances in the treatment of diabetes, many patients still suffer from complications and side effects; hence, development of more effective treatments for diabetes is still desirable. SGLT2 is the principle cotransporter involved in glucose reabsorption in the kidney. SGLT2 inhibition reduces glucose reabsorption by the kidney and ameliorates plasma glucose concentration. The interest in natural products that can be used for the inhibition of SGLT2 is growing. The flavonoid phlorizin, which can be isolated from the bark of apple trees, has been used as lead structure due to its inhibitory activity of SGLT1 and SGLT2. Some phlorizin-derived synthetic compounds, including canagliflozin, dapagliflozin, empagliflozin, ipragliflozin, and ertugliflozin, are approved by the food and drug administration to treat type 2 diabetes mellitus (T2DM), whereas others are under clinical trials investigation. In addition, other natural product-derived compounds have been investigated for their ability to improve blood glucose control.The present review summarizes the natural products with SGLT2 inhibitory activity, and the synthetic compounds obtained from them, and discusses their application for the treatment of diabetes.

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Natural Products as Lead Compounds for Sodium Glucose Cotransporter (SGLT) Inhibitors

Cited by 64 publications

References 74 publications

(‐)‐Epicatechin and the Colonic 2,3‐Dihydroxybenzoic Acid Metabolite Regulate Glucose Uptake, Glucose Production, and Improve Insulin Signaling in Renal NRK‐52E Cells

(‐)‐Epicatechin and the Colonic 2,3‐Dihydroxybenzoic Acid Metabolite Regulate Glucose Uptake, Glucose Production, and Improve Insulin Signaling in Renal NRK‐52E Cells

Plant‐derived glucose transport inhibitors with potential antitumor activity

Natural products with SGLT2 inhibitory activity: Possibilities of application for the treatment of diabetes

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