FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2267340046> ?p ?o ?g. }

• W2267340046 endingPage "301" @default.
• W2267340046 startingPage "290" @default.
• W2267340046 abstract "Marine organisms are proven to be rich source of secondary metabolites that can be used to treat various diseases. Excavatolide B (Exc.B), the most abundant metabolite was found in the marine coral Briareum excavatum exhibits cytotoxic effects against lung cancer cell. Treatment of the A549 cells with Exc.B significantly reduced its cell viability and induced cell cycle arrest at subG1 phase in a dose- and time-dependent manner, respectively. Apoptosis induction by Exc.B was further confirmed by decreased pro-caspase 3 expressions and increased proteolytic cleavage of poly (ADP-ribose) polymerase (PARP) expression. Furthermore, Exc.B increased reactive oxygen species (ROS) and reactive nitrogen species (RNS) and also decreased the antioxidant enzymes such as, Catalase, GPx, SOD, GST, and GSH. The proteomic analysis data revealed that total thirty six proteins were altered by Exc.B. STRING database showed that most of the altered proteins have no interaction between each other. Based on these data, KSR1, RuVBL2, PPAR-γ, and Tenascin X proteins were chosen to validate the 2DE data by Western blotting. Additional experiments demonstrated that Exc.B induced PTEN expression and inhibited pAKT and NF-kB expression. These results provide a novel insight into mechanisms underlying the inhibition of A549 cells growth by excavatolide B. © 2016 Wiley Periodicals, Inc. Environ Toxicol 32: 290-301, 2017." @default.
• W2267340046 created "2016-06-24" @default.
• W2267340046 creator A5014492031 @default.
• W2267340046 creator A5022100747 @default.
• W2267340046 creator A5026657525 @default.
• W2267340046 creator A5027214245 @default.
• W2267340046 date "2016-01-20" @default.
• W2267340046 modified "2023-10-14" @default.
• W2267340046 title "Excavatolide B inhibits nonsmall cell lung cancer proliferation by altering peroxisome proliferator activated receptor gamma expression and PTEN/AKT/NF-Kβ expression" @default.
• W2267340046 cites W1493290027 @default.
• W2267340046 cites W1560571961 @default.
• W2267340046 cites W1812961065 @default.
• W2267340046 cites W1966521182 @default.
• W2267340046 cites W1973577899 @default.
• W2267340046 cites W1975582371 @default.
• W2267340046 cites W1985749491 @default.
• W2267340046 cites W1986639529 @default.
• W2267340046 cites W1988966548 @default.
• W2267340046 cites W1991030758 @default.
• W2267340046 cites W1991455654 @default.
• W2267340046 cites W1992400749 @default.
• W2267340046 cites W1994340849 @default.
• W2267340046 cites W1996644539 @default.
• W2267340046 cites W1997093306 @default.
• W2267340046 cites W2001480066 @default.
• W2267340046 cites W2003537519 @default.
• W2267340046 cites W2011369410 @default.
• W2267340046 cites W2012451275 @default.
• W2267340046 cites W2012721144 @default.
• W2267340046 cites W2021330396 @default.
• W2267340046 cites W2023536393 @default.
• W2267340046 cites W2026090419 @default.
• W2267340046 cites W2026919738 @default.
• W2267340046 cites W2027443731 @default.
• W2267340046 cites W2028382049 @default.
• W2267340046 cites W2028996724 @default.
• W2267340046 cites W2034438494 @default.
• W2267340046 cites W2039286550 @default.
• W2267340046 cites W2041259862 @default.
• W2267340046 cites W2052767109 @default.
• W2267340046 cites W2054277474 @default.
• W2267340046 cites W2059373592 @default.
• W2267340046 cites W2062183635 @default.
• W2267340046 cites W2066208534 @default.
• W2267340046 cites W2068776651 @default.
• W2267340046 cites W2074952691 @default.
• W2267340046 cites W2076429988 @default.
• W2267340046 cites W2076987945 @default.
• W2267340046 cites W2078032630 @default.
• W2267340046 cites W2078439475 @default.
• W2267340046 cites W2080120619 @default.
• W2267340046 cites W2086419819 @default.
• W2267340046 cites W2088866343 @default.
• W2267340046 cites W2097975711 @default.
• W2267340046 cites W2099267053 @default.
• W2267340046 cites W2105277554 @default.
• W2267340046 cites W2105731471 @default.
• W2267340046 cites W2113443131 @default.
• W2267340046 cites W2116669977 @default.
• W2267340046 cites W2119194078 @default.
• W2267340046 cites W2125287130 @default.
• W2267340046 cites W2136095930 @default.
• W2267340046 cites W2136136285 @default.
• W2267340046 cites W2136644969 @default.
• W2267340046 cites W2137047957 @default.
• W2267340046 cites W2137537564 @default.
• W2267340046 cites W2140058803 @default.
• W2267340046 cites W2152651686 @default.
• W2267340046 cites W2153672941 @default.
• W2267340046 cites W2162331245 @default.
• W2267340046 cites W2170552969 @default.
• W2267340046 cites W2470223656 @default.
• W2267340046 cites W2953015331 @default.
• W2267340046 cites W4240487363 @default.
• W2267340046 cites W4242915321 @default.
• W2267340046 cites W432731351 @default.
• W2267340046 cites W588559152 @default.
• W2267340046 doi "https://doi.org/10.1002/tox.22235" @default.
• W2267340046 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/26790859" @default.
• W2267340046 hasPublicationYear "2016" @default.
• W2267340046 type Work @default.
• W2267340046 sameAs 2267340046 @default.
• W2267340046 citedByCount "16" @default.
• W2267340046 countsByYear W22673400462017 @default.
• W2267340046 countsByYear W22673400462018 @default.
• W2267340046 countsByYear W22673400462019 @default.
• W2267340046 countsByYear W22673400462020 @default.
• W2267340046 countsByYear W22673400462022 @default.
• W2267340046 countsByYear W22673400462023 @default.
• W2267340046 crossrefType "journal-article" @default.
• W2267340046 hasAuthorship W2267340046A5014492031 @default.
• W2267340046 hasAuthorship W2267340046A5022100747 @default.
• W2267340046 hasAuthorship W2267340046A5026657525 @default.
• W2267340046 hasAuthorship W2267340046A5027214245 @default.
• W2267340046 hasConcept C153911025 @default.
• W2267340046 hasConcept C170493617 @default.
• W2267340046 hasConcept C185592680 @default.
• W2267340046 hasConcept C187345961 @default.

• next