Wrecked Oncogenesis through Synchronized Substrate Availability and Oxidation: A Novel Bioengineering of Cell Physiology

Perspective

Austin J Biotechnol Bioeng. 2015;2(2): 1042.

Wrecked Oncogenesis through Synchronized Substrate Availability and Oxidation: A Novel Bioengineering of Cell Physiology

Akbar Nikkhah*

Department of Animal Sciences, University of Zanjan, Iran

*Corresponding author: Akbar Nikkhah, Chief Highly Distinguished Professor, Foremost Principal Highly Distinguished Professor and Elite-Generating Scientist, Department of Animal Sciences, Faculty of Agricultural Sciences, University of Zanjan, National Elite Foundation, Iran.

Received: January 29, 2015; Accepted: May 01, 2015; Published: May 10, 2015

Abstract

Oncogenesis is driven by genetic and epigenetic alterations and occurs via gene expression dysregulation. Genotoxic agents, chromosome related abnormalities, pattern of methylation, diet and other environmental and nutritional factors contribute to carcinogenesis. This article innovatively describes how asynchrony between cell substrate availability and oxidation triggers known and unknown oncogenic mechanisms that may ultimately cause cancer.

Keywords: Cell; Oncogenesis; Synchrony; Substrate availability; Oxidation

Perspective

This perspective article establishes a relationship between the synchrony of cell substrate availability and use with development of cancer. Cancer is globally defined as augmented irregularities in cell physiology involving divisions and resulting abnormal genetics, epigenetics, genomics, proteomics and metabolomics [1-3] (Figure 1). The opportunity exists that establishing a harmony in substrate supply and the extent of substrate oxidation leads cells to be more biologically equipped and develop resistance against oncogenes.

Citation: Nikkhah A. Wrecked Oncogenesis through Synchronized Substrate Availability and Oxidation: A Novel Bioengineering of Cell Physiology. Austin J Biotechnol Bioeng. 2015;2(2): 1042. ISSN: 2378-3036