Phytosterol homeostasis may be maintained in leaves through diversion of intermediates into glycoalkaloid biosynthesis, whereas in tuber flesh, excess intermediates are catalyzed by tuber-specific StLAS - like , resulting in low tuber glycoalkaloids. Lanosterol synthase (LAS) and cycloartenol synthase (CAS) are phylogenetically related enzymes. Cycloartenol is the accepted precursor leading to cholesterol and phytosterols, and in potato, to steroidal glycoalkaloid (SGA) biosynthesis. LAS was also shown to synthesize some plant sterols, albeit at trace amounts, questioning its role in sterol homeostasis. Presently, a potato LAS-related gene (StLAS-like) was identified and its activity verified in a yeast complementation assay. A transgenic approach with targeted gene expression and metabolic profiling of sterols and SGAs was used. Analyses of StLAS-like transcript levels and StLAS-like-promoter::GUS reporter assays indicated specific expression in tuber flesh tissue. Overexpression of Arabidopsis AtLAS in leaves where the endogenic StLAS-like is not expressed, resulted with increased SGA level and reduced phytosterol level, while in the tuber flesh SGA level was reduced. StLAS-like expression only in tuber flesh may explain the differential accumulation of SGAs in commercial cultivars-low in tubers, high in leaves. In leaves, to maintain phytosterol homeostasis, an excess of intermediates may be diverted into SGA biosynthesis, whereas in tuber flesh these intermediates are catalyzed by tuber-specific StLAS-like instead, resulting in low levels of SGA.
Keywords: Chaconine; Phytosterols; Solanine; Solanum tuberosum.