Wheat lignans and cancer prevention

Ayella, Allan K.

January 1900

Doctor of Philosophy / Department of Human Nutrition / Weiqun Wang / Wheat lignans are phenylpropane dimers linked by β-β bonds with a 1, 4-diarylbutane structure. They are biosynthesized in the cell cytoplasm through action of enzymes of the phenylpropanoid pathway. Pinoresinol lariciresinol reductase (PLR) catalyzes the final steps of biosynthesis of wheat lignans. In epidemiological and clinical investigations, studies show that high plasma lignan amounts correlate with reduced risks of breast, colon, and prostate cancers. However, in some of the studies, the results are not consistent. More consistent results are observed when animal and cell culture models are used. Our previous studies in the Wang lab demonstrated that treatment of human colon cancer cells, SW480 with lignans results in a dose and time dependent inhibition of cancer cell growth. In the first paper, we investigated direct experimental cancer preventative characteristics of a wheat lignan, secoisolariciresinol diglucoside (SDG) vs. its metabolite enterolactone in human colon cancer SW480 cells. Treatment of cancer cells with 0-40 µM SDG or enterolactone resulted into inhibition of cancer cell growth as observed by reduction of cell numbers. The reduction appeared related to induction of S-phase cell cycle arrest rather than cytotoxic effect. Further analysis revealed that SDG was more stable in cell culture medium than enterolactone. HPLC-MS/ESI showed that enterolactone is the principle metabolite in cancer cells but undetectable SDG or its metabolites were in the cells treated with SDG. In the second paper, we investigated over expression of the PLR gene and enhancement of lignan levels in transgenic wheat. We transformed wheat cultivars (‘Bobwhite’, ‘Madison’, and ‘Fielder’ respectively) with the Forsythia intermedia PLR gene under the regulatory control of the maize ubiquitin promoter. Of the total 217 transgenic wheat lines, we successfully obtained 7 transformants with the inserted ubiquitin PLR gene as screened by PCR. Real-time PCR further indicated 109-117% PLR over expression over the transgenic control in 3 transformants of the 7 at T0 generation. In addition, the levels of SDG, as determined by HPLC was found to be significantly elevated in one of the 3 positive transgenic plants. To the best of our knowledge, this is the first study reported that genetically engineered wheat with over expressed PLR enzyme enhancing phytochemical lignan has been successfully achieved.

Wheat lignans

Cancer prevention

Genetic manipulation

Secoisolariciresinol diglucoside (SDG)

Agriculture, Plant Pathology (0480)

Health Sciences, Nutrition (0570)

Analysis of artificial chromosomes in human embryonic stem cells

Mandegar, Mohammad Ali

January 2011

The development of safe and efficient gene delivery systems in pluripotent human embryonic stem cells (hESc) is essential to realising their full potential for basic and clinical research. The purpose of this study was to develop an efficient, non-integrating gene expression system in pluripotent hESc using human artificial chromosomes (HAC). Similar to endogenous chromosomes, HAC are capable of gene expression, replication and segregation during cell division. Unlike retroviral-mediated gene delivery vectors, HAC do not integrate into the host genome and can encompass large genomic regions for the delivery of multiple genes. Despite the advantages HAC offer, their use has been limited due to laborious cloning procedures and poor transfection efficiencies, and thus only studied in immortalised and tumour-derived human cell lines. In this study, the high transduction efficiency of herpes simplex virus type-1 (HSV-1) amplicons was utilised to overcome the described difficulties and delivered HAC vectors into pluripotent hESc. Analysis of stable hESc clones showed that de novo gene-expressing HAC were present at high frequencies ranging from 10-70% of metaphases analysed, without integrating into the genome. The established HAC contained an active centromere, and were stably maintained without integration or loss in the absence of selection for 90 days. Stable HAC-containing hESc clones retained their pluripotency as demonstrated by neuronal differentiation, in vitro germ layer and teratoma formation assays. HAC gene expression persisted, with some variation, post-differentiation in the various deriving cell types. This is the first report of successful de novo HAC formation in hESc for gene expression studies. These findings show potential for delivering high-capacity genomic constructs safely and efficiently into pluripotent cells for the purpose of genetic manipulation and ultimately patient-specific somatic gene therapy.

617.954

Pohled křesťanské etiky na problematiku somatických a germinálních zásahů do lidského genomu za účelem vylepšit parametry druhu Homo Sapiens Sapiens / General view of somatic and germinal interferences with human genome for the purpose of Homo Sapiens Sapiens improvement by means of the Christian ethics

HLINÁK, Jiří

January 2010

Substantiality of the thesis is the question of moral and ethic in the sphere of developing genetic and inheritance research. Thesis is especially focused on ethics consequences which result from the application of this research. Thesis is divided in two parts. First part contains general information about genetics science and it is more likely descriptive. This part outlines fundamental principles of genetic, its evolution and genetics breakthroughs and their today exploitation. Thereinafter are mentioned genetics techniques divided in singles areas of interest with main focus on human genetic manipulation {--} main topic of the thesis. Close of this part is dedicated to the theoretical aspects of the ambition in the field of human changing and the description of achieved goals. There are mentioned controlling and regulating mechanisms as conclusions of the first part of the thesis. Opinion on regulation of clerical representatives, civil law, laic public and scientists themselves are referred-to. Second part of the thesis is focused directly on the ethics risks of the practical use of genetic technologies and their impact on human being. The principles of catholic ethic are foreshadowed. The expectations of human genetic improvement are confronted gradually by those principles. [90] Statement, that the human improvement by the genetic manipulation is non tenable by means of the Christian ethics is a conclusion of this thesis.