SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3046133761> ?p ?o ?g. }

Showing items 1 to 100 of ±157 with 100 items per page.

W3046133761 endingPage "10" @default.
W3046133761 startingPage "1" @default.
W3046133761 abstract "Type 2 diabetes mellitus is increasing worldwide, and the United Arab Emirates is presenting one of the world’s highest prevalence rates. Dietary polyphenols exert an antidiabetic effect by modulating carbohydrates digestion and cellular glucose uptake. Due to their particularly high content in polyphenols, date seeds represent a potential antidiabetic agent. This study aims to determine if date seed polyphenols inhibit the activity of the enzymes ( α -amylase and α -glucosidase), responsible for the digestion of carbohydrates and modulating the glucose uptake by human liver cells. In vitro activity of the intestinal α -glucosidase, pancreatic α -amylase, the glucose uptake by HepG2 cells, and the expression of GLUT4 and AMPK analyzed by western blotting (with and without date seeds extract). Our result showed that the maximum enzymes inhibition was obtained with 400 μ g/mL and 900 μ g/mL DSE for α -amylase and α -glucosidase, respectively. The HepG2 cell viability significantly decreased up to 80% at 4000 μ g/mL DSE. The expression of GLUT4 was higher at 100 μ g/mL DSE (with insulin and without insulin). However, the expressions of P-AMPK and AMPK were increased by DSE, mainly in a non-insulin-dependent manner. Therefore, DSE, by inhibiting carbohydrate digestion and stimulating glucose uptake by HepG2, can potentially demonstrate the therapeutic potential for diabetes management." @default.
W3046133761 created "2020-08-03" @default.
W3046133761 creator A5016402852 @default.
W3046133761 creator A5030722422 @default.
W3046133761 creator A5034444281 @default.
W3046133761 creator A5043864061 @default.
W3046133761 creator A5055407571 @default.
W3046133761 creator A5077839436 @default.
W3046133761 date "2020-07-29" @default.
W3046133761 modified "2023-10-17" @default.
W3046133761 title "Inhibition of Digestive Enzyme and Stimulation of Human Liver Cells (HepG2) Glucose Uptake by Date Seeds Extract" @default.
W3046133761 cites W1178481655 @default.
W3046133761 cites W1556272875 @default.
W3046133761 cites W1589890958 @default.
W3046133761 cites W1942962281 @default.
W3046133761 cites W1964950943 @default.
W3046133761 cites W1968024423 @default.
W3046133761 cites W1968258982 @default.
W3046133761 cites W1969468071 @default.
W3046133761 cites W1971203491 @default.
W3046133761 cites W1987851402 @default.
W3046133761 cites W1988696784 @default.
W3046133761 cites W1995074224 @default.
W3046133761 cites W1996291920 @default.
W3046133761 cites W1997683054 @default.
W3046133761 cites W1998018796 @default.
W3046133761 cites W2006482794 @default.
W3046133761 cites W2013560821 @default.
W3046133761 cites W2016752484 @default.
W3046133761 cites W2018276304 @default.
W3046133761 cites W2024967754 @default.
W3046133761 cites W2027894015 @default.
W3046133761 cites W2038216634 @default.
W3046133761 cites W2042934883 @default.
W3046133761 cites W2046577292 @default.
W3046133761 cites W2049385847 @default.
W3046133761 cites W2052384271 @default.
W3046133761 cites W2058527493 @default.
W3046133761 cites W2066636245 @default.
W3046133761 cites W2073598322 @default.
W3046133761 cites W2074050240 @default.
W3046133761 cites W2075763304 @default.
W3046133761 cites W2082856983 @default.
W3046133761 cites W2101508556 @default.
W3046133761 cites W2102310164 @default.
W3046133761 cites W2102404876 @default.
W3046133761 cites W2110779759 @default.
W3046133761 cites W2115154144 @default.
W3046133761 cites W2117717556 @default.
W3046133761 cites W2119040924 @default.
W3046133761 cites W2121069383 @default.
W3046133761 cites W2123729941 @default.
W3046133761 cites W2134304387 @default.
W3046133761 cites W2136074431 @default.
W3046133761 cites W2166129369 @default.
W3046133761 cites W2187119809 @default.
W3046133761 cites W2223868498 @default.
W3046133761 cites W2300834513 @default.
W3046133761 cites W231188129 @default.
W3046133761 cites W2317217141 @default.
W3046133761 cites W2462813263 @default.
W3046133761 cites W2528211973 @default.
W3046133761 cites W2577393564 @default.
W3046133761 cites W2595676717 @default.
W3046133761 cites W2608115005 @default.
W3046133761 cites W2766076971 @default.
W3046133761 cites W2791011305 @default.
W3046133761 cites W2795486260 @default.
W3046133761 cites W2800229438 @default.
W3046133761 cites W2843861620 @default.
W3046133761 cites W2969377001 @default.
W3046133761 cites W2972582847 @default.
W3046133761 cites W2980352388 @default.
W3046133761 cites W2991946885 @default.
W3046133761 doi "https://doi.org/10.1155/2020/4290702" @default.
W3046133761 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/7411488" @default.
W3046133761 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/32802126" @default.
W3046133761 hasPublicationYear "2020" @default.
W3046133761 type Work @default.
W3046133761 sameAs 3046133761 @default.
W3046133761 citedByCount "4" @default.
W3046133761 countsByYear W30461337612021 @default.
W3046133761 countsByYear W30461337612022 @default.
W3046133761 countsByYear W30461337612023 @default.
W3046133761 crossrefType "journal-article" @default.
W3046133761 hasAuthorship W3046133761A5016402852 @default.
W3046133761 hasAuthorship W3046133761A5030722422 @default.
W3046133761 hasAuthorship W3046133761A5034444281 @default.
W3046133761 hasAuthorship W3046133761A5043864061 @default.
W3046133761 hasAuthorship W3046133761A5055407571 @default.
W3046133761 hasAuthorship W3046133761A5077839436 @default.
W3046133761 hasBestOaLocation W30461337611 @default.
W3046133761 hasConcept C126322002 @default.
W3046133761 hasConcept C134018914 @default.
W3046133761 hasConcept C161573976 @default.
W3046133761 hasConcept C170835558 @default.
W3046133761 hasConcept C181199279 @default.
W3046133761 hasConcept C185592680 @default.