Potato Peels and Their Bioactive Glycoalkaloids and Phenolic Compounds Inhibit the Growth of Pathogenic Trichomonads

Friedman, Mendel; Huang, Vincent; Quiambao, Quincel; Noritake, Sabrina M; Liu, Jenny; Kwon, Ohkun; Chintalapati, Sirisha; Young, Joseph K.; Levin, Carol E.; Tam, Christina; Cheng, Luisa W.; Land, Kirkwood M.

doi:10.1021/acs.jafc.8b01726

Cited by 52 publications

(36 citation statements)

References 29 publications

(41 reference statements)

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“…In a recent study, Friedman et al reported that the GAs α-chaconine and α-solanine were highly active against three pathogenic strains of trichomonads. These authors also reported that the activity of α-solanine was several times higher than α-chaconine; which is contrary to the several previous results where the influence of α-chaconine was reported higher than that of α-solanine [105]. Several other research works regarding the impact of potato glycoalkaloids on the membrane of frog embryos [106][107][108] and on fungi such as A. crenulatus, A. brassicicola, P. medicaginis, and R. solani [109,110] showed that α-chaconine was more active than α-solanine.…”

Section: Antifungal Antimicrobial and Insecticidal Activitycontrasting

confidence: 76%

Food Glycoalkaloids: Distribution, Structure, Cytotoxicity, Extraction, and Biological Activity

Siddique¹,

Brunton²

2019

Alkaloids - Their Importance in Nature and Human Life

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Glycoalkaloids (GA), generally occur as plant steroidal glycosides, are secondary metabolites produced in the leaves, flowers, roots, and edible parts including sprouts and skin of the plants of Solanaceae family. Many of the plants in this family have been stable parts of human diets for centuries, and thus, the occurrence of these compounds has been extensively studied mainly due to concerns regarding their toxicity. GAs are produced by plants as a resistance to challenges such as insects and pests but may also produce concentration-dependent toxic effects in humans. Postharvest conditions such as light, temperature, humidity, and processing conditions may also affect GA content in edible plants producing them. Since these compounds also possess biological properties such as anti-inflammatory, antimicrobial, and anticarcinogenic activities, it could be a useful strategy to use novel extraction techniques to maintaining bioactivities after extraction and simultaneously to reduce toxicity in the source plants. This chapter aims to describe alkaloids especially GAs commonly occurring in foods, their structure and toxicity, and postharvesting practices which influence alkaloid content and utilization of conventional and novel technologies to extract food alkaloids.

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Section: Antifungal Antimicrobial and Insecticidal Activitycontrasting

confidence: 76%

Food Glycoalkaloids: Distribution, Structure, Cytotoxicity, Extraction, and Biological Activity

Siddique¹,

Brunton²

2019

Alkaloids - Their Importance in Nature and Human Life

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“…These results suggest that the difference in SGA content between the light exposure and control groups originated from the skins, namely, light affected SGA accumulation in the skin and not in the flesh, for which further molecular and genetic evidence is required to elucidate the mechanism. The potential use of the tuber peels for targeted therapeutic treatments against pathogenic parasite such as trichomonads should be taken into account due to tuber peels are rich in bioactive compounds SGA (Friedman et al, 2018).…”

Section: Sga Content Of Potato Tuber Across All Experimental Sessionsmentioning

confidence: 99%

Light exposure and wounding: synergistic effects on steroidal glycoalkaloid accumulation in potato tubers during storage

Nie

Zhang

et al. 2019

Int J of Food Sci Tech

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Summary Potato tubers contain undesirable steroidal glycoalkaloids (SGAs), which have evoked global concern in terms of feed and food safety due to their toxic effects in humans. The cultivar Unica was exposed to a combination of light and wounding. SGA content among different tissues was analysed. Our results showed that SGA contents of tubers subjected to light was higher than that of intact tubers stored in darkness, and SGA content in the skin varied with time; however, SGA content in the flesh remained stable at a relatively low level. SGA content in the wound was higher than that of intact tubers. Importantly, light and wounding were shown to have synergistic effects on SGA content in the tuber, which only influenced SGA content within approximately 3 mm of the wound surface. Our study provides a theoretical basis for the reasonable and safe consumption of potatoes.

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“…Beside their toxicity and detrimental effects, numerous studies investigated the beneficial biological properties of glycoalkaloids such as antibiotic activities against bacteria, fungi, viruses and protozoa (Niño et al ., ; Friedman et al ., ; Lelario et al ., ). Additionally, numerous studies reported pharmaceutical activities of glycoalkaloids against many diseases and metabolic disorders such as inflammation, glycemia, allergies, fever and even certain types of cancers (Camire et al ., ; Patel et al ., ; Liu et al ., ; Friedman, ).…”

Section: Introductionmentioning

confidence: 98%

Potato Glycoalkaloids: occurrence, biological activities and extraction for biovalorisation – a review

Benkeblia

2019

Int J of Food Sci Tech

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Potato tuber (Solanum tuberosum L.) is the fourth most important agricultural product after wheat, rice and maize. With a total production of 388 million in 2017, c.a. 70% of this total production is processed in developed countries, producing a large amount of potato peel waste (PPW) as by-product. Although PPW is considered as a zero-value by-product by the feed industry because it is too fibrous, for other recycling industries it is an inexpensive by-product due to its significant contents of some interesting nutrients particularly polyphenols and glycoalkaloids. In potato, and Solanum species in general, many glycoalkaloids, predominantly a-chaconine and a-solanine, have been chemically and structurally identified. However, further research is needed to expand the knowledge of the biological values of potato glycoalkaloids in order to develop a recycling process to extract these technologically and nutritionally interesting bioactive ingredients for different sectors, in particular, the agricultural, food and pharmaceutical ones, which are demanding natural, safe and eco-friendly ingredients.

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Potato Peels and Their Bioactive Glycoalkaloids and Phenolic Compounds Inhibit the Growth of Pathogenic Trichomonads

Cited by 52 publications

References 29 publications

Food Glycoalkaloids: Distribution, Structure, Cytotoxicity, Extraction, and Biological Activity

Food Glycoalkaloids: Distribution, Structure, Cytotoxicity, Extraction, and Biological Activity

Light exposure and wounding: synergistic effects on steroidal glycoalkaloid accumulation in potato tubers during storage

Potato Glycoalkaloids: occurrence, biological activities and extraction for biovalorisation – a review

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