Effects of Cisplatin Analog Size on the Reaction with DNA Bases

Nandala, Swathi

01 May 2013

Cancer is the second leading cause of death in the United States. Cisplatin is one of the well-known anti-cancer agents used to treat testicular and ovarian cancers. It mainly binds to the DNA bases, which leads to cell death. The cytotoxic activity of the cisplatin analogs is due to the interaction of platinum with nucleotides like adenine at N7 or N1 position and guanine at N7 position. Guanine is the primary target for cisplatin analogs whereas adenine is the secondary target. Cisplatin analogs, [Pt(Me5dien)(D2O)]2+[Me5dien = N,N,N’,N’,N’’-pentamethyl diethylene triamine] and [Pt(dien)(D2O)]2+[dien=diethylene triamine] were synthesized and their effects on AMP and GMP were studied using NMR spectroscopy. The experiments were conducted to examine the effects of bulk on 5’-GMP and 5’-AMP. The results suggest that bulk slows down the reaction with AMP more than with that of GMP. The order of reactivity is Pt(dien)(GMP)> Pt(dien)(AMP) > Pt(Me5dien)(GMP) > Pt(Me5dien)(AMP). The reaction of the [Pt(Me5dien)(D2O)]2+ complex with AMP leads to multiple products, some of which appear to be due to coordination at N1 instead of N7.

Adenine

Platinum

Guanine

Chemotherapy

Chemistry-Organic

Spectrum Analysis

Chemistry

Medicinal-Pharmaceutical Chemistry

Organic Chemistry

Structure Elucidation of Bioactive Compounds Isolated from Endophytes of Alstonia scholaris and Acmena graveolens

Hundley, Nicholas James

02 September 2005

Alstonia scholaris is an evergreen tree native to Southeast Asia and Australia. It is commonly used as a medicinal plant throughout these regions. In the present study, an endophyte of the genus Xylaria was isolated from a stem of Alstonia scholaris, its mycelia and exudate extracted, and the extract assayed for growth inhibition of HeLa cancer cells in vitro. Several known compounds were isolated and identified based on NMR, infrared, and mass spectral data. The compounds identified are 19,20-epoxycytochalasin C; 19,20epoxycytochalasin D; and xylobovide. Two other compounds, fusaric acid and dehydrofusaric acid, were discovered in an endophyte of the Hypocreales family inhabiting the plant Acmena Graveolens.

endophtye

endophytes

endophytic (endophyt*)

fungi

fungal

symbiosis

rDNA

ribosomal DNA

fungal taxonomy

ITS

cytochalasins

cytochalasans

xylobovide

fusaric acid

dehydrofusaric acid

xylaria

xylariaceae

rosellinia necatrix

taxol

HPLC

NMR

GC

gas chromatography

MS

mass spectrometry (mass spec*)

IR

infrared spectroscopy

PCR

natural products

ethnobotany

ethnomedicine

COSY

HMQC

HMBC

Biochemistry

Chemistry