Metabolic Engineering for Squalene Production: Advances and Perspectives

Abstract

Squalene is a linear polyunsaturated triterpene which has multiple physiological functions including anticancer, antioxidant, and skin-care. It has been widely used in the food, medicine, and cosmetics sectors and also serves as a precursor of triterpenes and steroids. Recently, the production of squalene by microbial cell hosts has drawn much attention due to its sustainability, environmental friendliness, and great efficiency. In this review, we first introduce the recent developments in the production of squalene by employing microbial cell factories, especially yeasts. Next, we underscore the primary metabolic strategies, including the biosynthetic pathway engineering, precursor manipulation, cofactor engineering, and organelle engineering. In addition to traditional metabolic engineering strategies, we also discuss some prospective metabolic regulation approaches, including regulation of lipid synthesis, identifying and manipulating related transcription factors, dynamic regulation of the metabolic pathway, and secretion engineering of membrane-impermeable terpenoids. These approaches provide insights for further metabolic engineering of squalene and related terpenoids.