INVESTIGATING THE EFFECT OF ST JOHN’S WORT ON COLORECTAL CANCER AND DROSOPHILA Ashley Ferguson...
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Transcript of INVESTIGATING THE EFFECT OF ST JOHN’S WORT ON COLORECTAL CANCER AND DROSOPHILA Ashley Ferguson...
INVESTIGATING THE EFFECT OF ST JOHN’S WORT ON
COLORECTAL CANCER AND DROSOPHILA
Ashley FergusonCaitlin MorrisArturo NeoDaniel Tan
Background
• Hypericum perforatum (St. John’s Wort)
• Claimed by alternative medical practitioners to be able to treat burns, wounds and inflammation.
• Hypericin thought to be the main active constituent.
Background
• Norepinephrine as a product of stress.
• Norepinephrine contributes to cell growth.
• Hypericum perforatum thought to inhibit the reuptake of norepinephrine.
Objectives (HCI)
• To determine whether hypericin is the main chemical constituent responsible for the chemical properties that the St. John’s Wort possesses.
• To determine which proteins (if any) are affected by St. John’s Wort or hypericin.
• To determine the effects of St. John’s Wort on a drosophila cell line (invertebrate)• Whole extract (liquid)• Hypericin
Objectives (AOS)
• To determine whether hypericin is the main chemical constituent responsible for the chemical properties that the St. John’s Wort possesses.
• To determine whether there is a correlation between the amount of norepinephrine secreted by the cells and the concentration of St. John’s Wort and hypericin applied.
• To determine the effects of St. John’s Wort on a colorectal cancer cell line (vertebrate)• Whole extract (liquid)• Hypericin• Whole extract (prepared from fresh St. John’s Wort)
Overview
Research
AOS(colorectal
cancer)
St. John’s Wort
Effects on norepinephri
ne levels
Rate of proliferation
of cancer cells
Hypericin
HCI(drosophila)
St. John’s Wort Hypericin
Effects on immune-related proteins
Rate of proliferation
of robust cell line
Methods (effects on immune-related proteins)
• Feed drosophila flies• One group with St. John’s Wort added to
food• One group with hypericin added to food• One group with regular food
• Grind 3 sets of flies up• Conduct SDS-PAGE• Send to NUS for MALDI-TOF
Methods (rate of proliferation of robust cell line)
• Culture drosophila cell line• Apply varying concentrations of St.
John’s Wort (4 concentrations) to media of cells
• Apply varying concentrations of hypericin (4 concentrations) to media of cells
• Conduct a cell count to check the rate of proliferation of drosophila cells
Methods (rate of proliferation of cancer cells)
• Culture colorectal cancer cells• Apply varying concentrations of St.
John’s Wort (4 concentrations) to media of cells
• Apply varying concentrations of hypericin (4 concentrations) to media of cells
• Conduct a cell count to check the rate of proliferation of colorectal cancer cells
Methods (effects on norepinephrine levels)
• Add samples of media and antibodies into the ELISA kit plate
• Put the wells through a plate reader• Observe the amount of norepinephrine in
the wells
Link
St Johns WortHypericin
Vertebrate Invertebrate
Colorectal cancer cell
line
Robust cell line of drosophila
AOS HCI
Link
St Johns WortHypericin
Cancer cell physiology Immune system
Effects on norepinephr
ine
Effects of immune-related
proteins
AOS HCI
Extension Work
Conduct SDS-PAGE and send for MALDI-TOF the samples from the investigation of the rate of proliferation of cells.
Reference
Mechanisms of mitotic cell death induced by chemotherapy-mediated g2 checkpoint abrogation. (2007). Cancer Res,67(339), Retrieved from http://cancerres.aacrjournals.org/content/67/1/339.full.pdf+html doi: 10.1158/0008-5472.CAN-06-2548
St John's wort. (2010). Wikipedia. Retrieved November 3, 2010, from http://en.wikipedia.org/wiki/St_John's_wort
Pressman, A H. (1998). St. john's wort - the miracle medicine. US: The Philip Lief Group, Inc.
Acknowledgements
Project mentors from both AOS and HCI, Ms Jackie Curley and Ms Sandra Tan.
Other teachers and advisors who have provided valuable advice, especially Mr. George Wolfe.