Andrographolide: A New Plant-Derived Antineoplastic Entity on Horizon

Plant-derived natural products occupy an important position in the area of cancer chemotherapy. Molecules such as vincristine, vinblastine, paclitaxel, camptothecin derivatives, epipodophyllotoxin, and so forth, are invaluable contributions of nature to modern medicine. However, the quest to find out novel therapeutic compounds for cancer treatment and management is a never-ending venture; and diverse plant species are persistently being studied for identification of prospective anticancer agents. In this regard, Andrographis paniculata Nees, a well-known plant of Indian and Chinese traditional system of medicines, has drawn attention of researchers in recent times. Andrographolide, the principal bioactive chemical constituent of the plant has shown credible anticancer potential in various investigations around the globe. In vitro studies demonstrate the capability of the compound of inducing cell-cycle arrest and apoptosis in a variety of cancer cells at different concentrations. Andrographolide also shows potent immunomodulatory and anti-angiogenic activities in tumorous tissues. Synthetic analogues of the compound have also been created and analyzed, which have also shown similar activities. Although it is too early to predict its future in cancer chemotherapy, the prologue strongly recommends further research on this molecule to assess its potential as a prospective anticancer agent

Ex Situ Conservation Method for Clerodendrum inerme: A medicinal plant of India

Clerodendrum inerme L. (Verbenaceae), commonly known as vanajai or garden quinine is a perennial shrub. Leaves and roots of the plant are used in rheumatism and skin diseases. In Indian classical literature the plant is also reported as a substitute of quinine. Since root of the plant is used as drug, whole plant has to be destroyed; this has resulted in the depletion of the plant population. Present investigation was taken up to establish a protocol for mass production of better quality plant material, using axillary bud multiplication. The protocol will help in ex situ conservation of the plant. Maximum number of multiplied axillary bud was observed in 16 M 6-benzyladenine (BA) with 3% sucrose. After elongation, regenerated micro-shoots were rooted in MS medium in absence of plant growth regulators (PGR). The rooted plantlets showed 100% field survival. The regenerated plants showed similar phytochemical profile as mother plant when compared.Keywords: Clerodendrum inerme, finger print profile, micropropogatio

Pharmacogenetics and cancer management

The science of one’s genetic background and its impact on disease susceptibility and drug response has come of age and firmly established its proper place in the clinic. Its impact is felt more in the treatment of cancer than any other disease area several reasons: critical time, narrow therapeutic index and overlapping toxicity window. We realize that the true potential of pharmacogenetics will be realized when we have been able to integrate other variants like insertion-deletion, copy number variation, etc., in addition to single nucleotide polymorphism for their collective influence on drug response and toxicity. Technology has rapidly evolved and has become affordable to be used in the clinic once it gets standardized and validated not only in one population but in several major world population -particularly those which are under-represented in human variant database

Thymidylate synthase enhancer region: Novel allele in Indians

Background: Thymidylate synthase (TS) is the major target for fluoropyrimidine drugs like 5-Fluorouracil (5-FU). There are polymorphic tandem repeats in the TYMS gene enhancer region (TSER). The number of tandem repeats varies in different populations. The aim of this study was to determine the frequencies of the TSER tandem repeats (rs34743033) and compare the observed frequencies with those of other populations. Methods: This study genotyped 350 healthy individuals by Polymerase Chain Reaction (PCR). Results: A novel allele *1 (only a single repeat) was observed in four individuals, the individuals were heterozygous (TSER*1/*2) for TYMS. Another variant rs2853542 affecting the expression of Thymidylate synthase was also analysed. The observed genotype frequencies were compared with frequencies observed in other populations for understanding differences between various population groups. There was a statistically significant difference between Indians and Chinese, Kenyans, Ghanians, African-Americans, Americans of European Ancestry, British, Hungarians, Turkish, Australians and Brazilians. Conclusion: This study identified a novel single repeat in the TYMS gene which might have an impact on the expression of this gene, which needs to be confirmed by functional studies

SULT1A1 copy number variation: ethnic distribution analysis in an Indian population

Cytosolic sulfotransferases (SULTs) are phase II detoxification enzymes involved in metabolism of numerous xenobiotics, drugs and endogenous compounds. Interindividual variation in sulfonation capacity is important for determining an individual’s response to xenobiotics. SNPs in SULTs, mainly SULT1A1 have been associated with cancer risk and also with response to therapeutic agents. Copy number variation (CNVs) in SULT1A1 is found to be correlated with altered enzyme activity. This short report primarily focuses on CNV in SULT1A1 and its distribution among different ethnic populations around the globe. Frequency distribution of SULT1A1 copy number (CN) in 157 healthy Indian individuals was assessed using florescent-based quantitative PCR assay. A range of 1 to >4 copies, with a frequency of SULT1A1 CN =2 (64.9%) the highest, was observed in our (Indian) population. Upon comparative analysis of frequency distribution of SULT1A1 CN among diverse population groups, a statistically significant difference was observed between Indians (our data) and African-American (AA) (p = 0.0001) and South African (Tswana) (p < 0.0001) populations. Distribution of CNV in the Indian population was found to be similar to that in European-derived populations of American and Japanese. CNV of SULT1A1 varies significantly among world populations and may be one of the determinants of health and diseases