Metabolomic and transcriptomic analyses identify external conditions and key genes underlying high levels of toxic glycoalkaloids in tubers of stress-sensitive potato cultivars.

Introduction: High levels of toxic steroidal glycoalkaloids (SGAs) in potato tubers constitute a recognized food quality problem. Tuber SGA levels vary between potato cultivars and can increase after post-harvest stresses such as wounding and light exposure. A few cultivars, e.g., 'Magnum Bonum' and 'Lenape,' have been withdrawn from commercial sales due to excessive SGA levels during some cultivation years. However, these sudden SGA increases are diffucult to predict, and their causes are not understood. To identify external and genetic factors that underlie sudden SGA increases in certain potato cultivars, we have here in a 2-year study investigated 'Magnum Bonum' and five additional table potato cultivars for their SGA levels after wounding and light exposure. Results and methods: Results showed that 'Magnum Bonum' has an unusual strong SGA response to light exposure, but not to wounding, whereas 'Bintje' displayed an opposite regulation. Levels of calystegine alkaloids were not significantly altered by treatments, implicating independent metabolic regulation of SGA and calystegine levels also under conditions of high SGA accumulation. Metabolomic and transcriptomic analyses identified a small number of key genes whose expression correlated with SGA differences between cultivars. Overexpression of two key genes in transgenic low-SGA potato cultivars increased their leaf SGA levels significantly. Discussion: The results show that a strong response to light can underlie the SGA peaks that occasionally occur in certain potato cultivars and indicate that a between-cultivar variation in the expression of single SGA key genes can account for cultivar SGA differerences. We propose that current attempts to mitigate the SGA hazard will benefit from an increased consideration of cultivar-dependent SGA responses to post-harvest conditions, particularly light exposure. The identified key SGA genes can now be used as a molecular tool in this work.

New efficient methodology for screening of selected organic micropollutants in raw- and drinking water from 90 Swedish water treatment plants.

A new, efficient method for analysis of organic micropollutants (OMPs) in water samples was developed, validated and applied in a nationwide survey. The goal with the survey was to identify common compounds with relatively high concentrations to be used as markers e.g. for routine monitoring of removal efficiencies. The method comprises sample concentration by evaporation, and large volume injection on a standard UHPLC-MS/MS system. The OMPs selected for this approach were mainly semi-polar and non-volatile, with molecular weights below 300 Da. Except one outlier, the limit of detection (LoD) ranged from 0.01 to 1 ng/L which is sufficient for most surface waters, and also useful for many ground waters. The method requires low manual labor and comparably small sample volumes, enabling a cost-efficient nationwide screening. Raw- and drinking water from 90 Swedish water treatment plants (WTPs) were investigated for occurrence of the selected OMPs. Carbamazepine and tramadol were the most widespread compounds, detected in around 50% of the surface waters. Ground water from rock aquifers were least contaminated, while soil aquifers were more similar to surface waters. Due to the frequent use of ground water in Sweden, many samples did not contain any of the investigated compounds (i.e. below LoD). In the positive samples, the median estimated concentrations of individual OMPs were generally <1 ng/L in raw water and <0.5 ng/L in drinking water. Swedish waters were in general less contaminated than those investigated in similar Brazilian, Chinese, pan-European and US studies. Altogether, the presented methodology gave a cost-efficient overview on the occurrence and estimated concentrations of OMPs in raw- and drinking water on a national level in Sweden. From the data, WTPs can find suitable OMPs to monitor at their site, for example for measuring removal efficiencies on a routine basis.

Transcript profiling of two potato cultivars during glycoalkaloid-inducing treatments shows differential expression of genes in sterol and glycoalkaloid metabolism.

Steroidal glycoalkaloids (SGA) are sterol-derived neurotoxic defence substances present in several members of the Solanaceae. In the potato (Solanum tuberosum), high SGA levels may render tubers harmful for consumption. Tuber SGA levels depend on genetic factors, and can increase as a response to certain stresses and environmental conditions. To identify genes underlying the cultivar variation in tuber SGA levels, we investigated two potato cultivars differing in their SGA accumulation during wounding or light exposure; two known SGA-inducing treatments. Using microarray analysis coupled to sterol and SGA quantifications, we identified a small number of differentially expressed genes that were associated with increased SGA levels. Two of these genes, encoding distinct types of sterol Δ24-reductases, were by sense/antisense expression in transgenic potato plants shown to have differing roles in sterol and SGA metabolism. The results show that an increased SGA level in potato tubers during both wounding and light exposure is mediated by coordinated expression of a set of key genes in isoprenoid and steroid metabolism, and suggest that differences in this expression underlie cultivar variations in SGA levels. These results may find use within potato breeding and quality assessment.

A new method for analysis of underivatized free ß-methylamino-alanine: Validation and method comparison.

A new method was developed for analysis of free ß-Methylamino-alanine (BMAA) in biological matrices. The method is based on direct analysis of the underivatized molecule, using an amide column for separation by Hydrophilic Interaction Liquid Chromatography (HILIC) and detection by tandem mass spectrometry (MS/MS) using a deuterium labeled internal standard. The use of Ultra-High Performance Liquid Chromatography (UHPLC) combined with MS/MS detection allowed for high chromatographic resolution and a low limit of detection (0.025 µg/g wet weight (ww) in mussels). The method was validated by analyzing spiked blank mussels from the Baltic Sea (0.15-4.4 µg/g (ww), trueness 99%-105%, RSD 2%-8%). An inter-laboratory comparative analysis of extracts of mussel was performed. The mussels were extracted according to an established protocol for analysis of free BMAA, and the extracts were then analyzed in parallel by the new method and a validated procedure based on detection of BMAA derivatized with dansyl chloride. Both methods detected BMAA in similar concentrations. Thus, derivatization with dansyl chloride did not influence the results compared to direct detection. The new method presents an alternative to the commonly applied derivatization step, and is proved through validation and method comparison to reliably identify and quantify free BMAA at low concentration levels.

Fast, rugged and sensitive ultra high pressure liquid chromatography tandem mass spectrometry method for analysis of cyanotoxins in raw water and drinking water--First findings of anatoxins, cylindrospermopsins and microcystin variants in Swedish source waters and infiltration ponds.

Freshwater blooms of cyanobacteria (blue-green algae) in source waters are generally composed of several different strains with the capability to produce a variety of toxins. The major exposure routes for humans are direct contact with recreational waters and ingestion of drinking water not efficiently treated. The ultra high pressure liquid chromatography tandem mass spectrometry based analytical method presented here allows simultaneous analysis of 22 cyanotoxins from different toxin groups, including anatoxins, cylindrospermopsins, nodularin and microcystins in raw water and drinking water. The use of reference standards enables correct identification of toxins as well as precision of the quantification and due to matrix effects, recovery correction is required. The multi-toxin group method presented here, does not compromise sensitivity, despite the large number of analytes. The limit of quantification was set to 0.1 µg/L for 75% of the cyanotoxins in drinking water and 0.5 µg/L for all cyanotoxins in raw water, which is compliant with the WHO guidance value for microcystin-LR. The matrix effects experienced during analysis were reasonable for most analytes, considering the large volume injected into the mass spectrometer. The time of analysis, including lysing of cell bound toxins, is less than three hours. Furthermore, the method was tested in Swedish source waters and infiltration ponds resulting in evidence of presence of anatoxin, homo-anatoxin, cylindrospermopsin and several variants of microcystins for the first time in Sweden, proving its usefulness.

BMAA detected as neither free nor protein bound amino acid in blue mussels.

The results of this study imply that ß-methylamino-alanine (BMAA) obtained from extracts of blue mussels from the Swedish west coast is neither free nor protein bound. The results were obtained by separation (precipitation and ultrafiltration) of low and high molecular weight compounds from neutral extracts of blue mussels, and treatment of these extracts with low and high concentrations of acids, varying time and temperature. The main portion of BMAA was obtained from the low molecular weight fraction, released or formed at 95 °C in dilute acids. The measured amount of BMAA did not increase by strong acid treatment. Lysine was used as reference and was only released at significant amounts when treating the high molecular weight fraction with concentrated acid. The results also indicated that breakage of peptide bonds was not involved in the formation/release of BMAA in these extracts unless any BMAA peptide bond would be significantly more susceptible to dilute acid than e.g. the monitored lysine peptide bond. BMAA was measured using isotope dilution and detection of the underivatized compound by HILIC-UHPLC-MS/MS (Hydrophilic Interaction Liquid Chromatography, Ultra-High Performance Liquid Chromatography, tandem Mass Spectrometry). The findings might add to the understanding of conflicting data in the literature regarding the occurrence of BMAA, and have implications for studies on possible biomagnification of BMAA in the food chain and bioavailability from food.