The Multiple Biological Targets of Hops and Bioactive Compounds

Bolton, Judy L.; Dunlap, Tareisha; Hajirahimkhan, Atieh; Mbachu, Obinna; Chen, Shao-Nong; Chadwick, Luke; Nikolić, Dejan; Breemen, Richard B. van; Pauli, Guido F.; Dietz, Birgit M.

doi:10.1021/acs.chemrestox.8b00345

Cited by 72 publications

(93 citation statements)

References 91 publications

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“…The potential for hops as a source of bioactives, including polyphenols, is considerable [14], leading to a number of potential targets that may be affected via hormonal mechanisms, as some of the bioactives can mimic estrogen, whilst others may function via antioxidant mechanisms or through altering metabolism to enhance the metabolism of xenobiotics and even regulate lipid metabolism.…”

Section: Hopsmentioning

confidence: 99%

“…This has led to considerable interest in the hop, not only for its flavor and aromatic properties in beer, but as a potential nutritional supplement. This is because hops, which generally refers to the female flower cones of the plant, have been found to be a rich source of prenylated phenols, including chalcones and flavonoids (some of which are classed phytoestrogens) [14]. It has been proposed that the estrogen-modulating effects of hops and their extracts are due to the effects of them being antagonists and binding to the estrogen receptor, preventing the action of estrogen, as well as the potential to inhibit aromatase, which is the rate limiting step in the synthesis of estrone and estradiol (E 2 ).…”

Section: Hopsmentioning

confidence: 99%

“…It has been proposed that the estrogen-modulating effects of hops and their extracts are due to the effects of them being antagonists and binding to the estrogen receptor, preventing the action of estrogen, as well as the potential to inhibit aromatase, which is the rate limiting step in the synthesis of estrone and estradiol (E 2 ). This has led to the emergence of hop-based products as potential supplements to support women going through the menopause [14].…”

Section: Hopsmentioning

confidence: 99%

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A Review of the Potential Health Benefits of Low Alcohol and Alcohol-Free Beer: Effects of Ingredients and Craft Brewing Processes on Potentially Bioactive Metabolites

2020

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Beer is a beverage of significant historical and cultural importance. Interest in the potential health effects of alcoholic beverages has largely focused on wine; however, there are a number of potentially beneficial bioactives that beer may contain that warrant further investigation. The challenge of considering any potential health benefits of beer are restricted by the negative consequences of its alcohol and energy content. There is potential to enhance the bioactive qualities of beer whilst reducing the alcohol and energy content through novel brewing approaches often used in craft brewing, in terms of ingredients, brewing methods and type of fermentation. Consumer demand to produce a greater variety of beer types, including alcohol-free beers, may also help to increase the number of beers which may have greater potential to improve health, with lower levels of alcohol, while still being tasty products. As low alcohol, prebiotic and bioactive containing beers are developed, it is important that their potential health benefits and risks are fully assessed.

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Section: Hopsmentioning

confidence: 99%

Section: Hopsmentioning

confidence: 99%

Section: Hopsmentioning

confidence: 99%

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A Review of the Potential Health Benefits of Low Alcohol and Alcohol-Free Beer: Effects of Ingredients and Craft Brewing Processes on Potentially Bioactive Metabolites

2020

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“…In addition, Choi et al claimed that b-naphthoflavone, as a nontoxic flavonoid, can induce the detoxification potential of the representative detoxification enzyme cytochrome P4501A1 (Chuang et al 2012). Subsequently, Bolton et al reported that a potent AhR agonist 6-Prenylnarigenin in hops, resulting in a selective up-regulation of the P450 1A1-mediated estrogen detoxification pathway (Bolton et al 2019). Of note, some flavonoids that bind to AhR elicit antagonism rather than increase CYP1 activity.…”

Section: The Role Of Dietary Flavonoids As Ahr Ligands In Cancermentioning

confidence: 99%

Dietary natural flavonoids treating cancer by targeting aryl hydrocarbon receptor

Yang

Feng

Chen

et al. 2019

Critical Reviews in Toxicology

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“…Humulus lupulus (hop) is a dioecious twining bine in the Cannabaceae family of flowering plants with a long history of cultivation (Neve, 1991;Moir, 2000) for various uses including medicine (as reviewed by Ososki and Kennelly, 2003;Bolton et al, 2019) and animal fodder (Siragusa et al, 2008), but is most commonly known as a flavoring agent in the brewing industry. The quest for complex taste and aromas in the rapidly expanding craft brewing industry has placed increasing demands on breeders to produce new varieties of plants with specific desirable traits as well as disease resistance (Kavalier et al, 2011;Easterling et al, 2018;Yan et al, 2019).…”

Section: Introductionmentioning

confidence: 99%

New Tools for Hop Cytogenomics: Identification of Tandem Repeat Families from Long-Read Sequences ofHumulus lupulus

Ka¹,

Nj²,

et al. 2020

Preprint

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Hop (Humulus lupulus L.) is known for its use as a bittering agent in beer and has a rich history of cultivation, beginning in Europe and now spanning the globe. There are five wild varieties worldwide, which may have been introgressed with cultivated varieties. As a dioecious species, its obligate outcrossing, non-Mendelian inheritance, and genomic structural variability have confounded directed breeding efforts. Consequently, understanding genome evolution in Humulus represents a considerable challenge, requiring additional resources, including integrated genome maps. In order to facilitate cytogenetic investigations into the transmission genetics of hop, we report here the identification and characterization of 17 new and distinct tandem repeat sequence families. A tandem repeat discovery pipeline was developed using kmer filtering and dot plot analysis of PacBio long-read sequences from the hop cultivar Apollo. We produced oligonucleotide FISH probes from conserved regions of HuluTR120 andHulTR225 and demonstrated their utility to stain meiotic chromosomes from wild hop, var.neomexicanus. The HuluTR225 FISH probe hybridized to several loci per nucleus and exhibited irregular, non-Mendelian transmission in male meiocytes of wild hop. Collectively, these tandem repeat sequence families not only represent unique and valuable new cytogenetic reagents but also have the capacity to inform genome assembly efforts and support comparative genomic analyses.

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The Multiple Biological Targets of Hops and Bioactive Compounds

Cited by 72 publications

References 91 publications

A Review of the Potential Health Benefits of Low Alcohol and Alcohol-Free Beer: Effects of Ingredients and Craft Brewing Processes on Potentially Bioactive Metabolites

A Review of the Potential Health Benefits of Low Alcohol and Alcohol-Free Beer: Effects of Ingredients and Craft Brewing Processes on Potentially Bioactive Metabolites

Dietary natural flavonoids treating cancer by targeting aryl hydrocarbon receptor

New Tools for Hop Cytogenomics: Identification of Tandem Repeat Families from Long-Read Sequences ofHumulus lupulus

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